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| Intellectual disability - microarray and sequencing v5.532 | DOCK4 |
Zornitza Stark gene: DOCK4 was added gene: DOCK4 was added to Intellectual disability - microarray and sequencing. Sources: Literature Mode of inheritance for gene: DOCK4 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted Publications for gene: DOCK4 were set to 38526744 Phenotypes for gene: DOCK4 were set to DOCK4-related neurodevelopmental disorder (MONDO:0060490) Review for gene: DOCK4 was set to GREEN Added comment: 7 unrelated individuals reported with heterozygous variants (missense or null variants) in DOCK4. The individuals either had ID or DD between mild and moderate with brain abnormalities. Two of the individuals are reportedly compound heterozygous. Functional assay neuro-2A Dock4 knockout cells by using the Alt-R CRISPR-Cas9 system utilizing two different guide RNAs (ko1 and ko2) and one nonspecific control guide RNA (C: control). The assay depicted the loss of function mechanism in the presence of either p.Arg853Leu and p.Asp946_Lys1966delinsValSer* (described as 945VS). Sources: Literature |
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| Intellectual disability - microarray and sequencing v5.502 | CLEC16A |
Sarah Leigh edited their review of gene: CLEC16A: Added comment: Heterozygous CLEC16A variants have been identified as a genetic risk factor for several autoimmune disorders and for Parkinson disease (PMID: 37175930). PMID: 36538041 reports the neurological effect of homozygous terminating CLEC16A variants in two families. In family 1, the first child died at 5 months, he had progressive microcephaly, failure to thrive and cranial CT showed brain atrophy, dilatation of both central and peripheral liquor spaces, hypoplasia of the corpus callosum (no genetic testing was done), the third pregnancy was terminated (17 weeks of gestation) after prenatal ultrasound showed ventriculomegaly, agenesis of corpus callosum (no genetic testing was done), the fourth pregnancy was also terminated (22 weeks of gestation) as the prenatal ultrasound showed agenesis of corpus callosum. This fetus was homozygous for NM_001243403.1(CLEC16A):c.2062 + 5G > A, RT-PRC showed that this variant resulted in the deletion of exon 19 and a frame shift. Both parents and an unaffected sibling were heterozygous for this variant. In family 2, a single affected child was homozygous for NM_001243403.1(CLEC16A):c.-4_12del, p.Met1fs*. This child had progressive microcephaly, failure to thrive, severe global developmental delay, global brain atrophy and died at 6 years. There is no genetic data from the parents or unaffected siblings in Family 2. PMID: 37175930, also presents zebrafish experiments, where mutagenesis of clec16a by CRISPR–Cas9 resulted in accumulated acidic/phagolysosome compartments, in neurons and microglia, and dysregulated mitophagy. This was rescued by wild type CLEC16A, but not by the C-terminal truncated variant. The authors conclude that dysregulation of CLEC16A-mediated endosomal sorting is associated with neurodegeneration.; Changed rating: GREEN; Changed publications to: 36538041; Changed mode of inheritance: BIALLELIC, autosomal or pseudoautosomal |
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| Intellectual disability - microarray and sequencing v5.493 | DYNC2H1 |
Arina Puzriakova commented on gene: DYNC2H1: - PMID: 22589734 (2012) - A 29 Mb deletion encompassing DYNC2H1 was found in one patient with syndromic hirschsprung disease which included moderate mental retardation, mild hydrocephalus, microcephaly, cardiomyopathy and congenital hypotonia. Other candidate genes in this region include CNTN5 and CARD17. Skeletal findings that are typical for DYNC2H1 are not reported. Comment on publications: PMID: 22589734 was identified by the Genomics England Applied Machine Learning (ML) team in a Biocuration-ML project for identifying new gene-disease associations using Natural Language Processing (NLP) and Generative AI techniques |
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| Intellectual disability - microarray and sequencing v5.490 | SRPX2 | Arina Puzriakova Phenotypes for gene: SRPX2 were changed from Rolandic epilepsy, mental retardation, and speech dyspraxia, 300643 -3; ROLANDIC EPILEPSY WITH SPEECH DYSPRAXIA AND MENTAL RETARDATION X-LINKED (RESDX) to ?Rolandic epilepsy, impaired intellectual development, and speech dyspraxia, OMIM:300643 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v5.328 | MAST4 | Sarah Leigh edited their review of gene: MAST4: Added comment: MAST4 variants have not been associated with a phenotype in OMIM, Gen2Phen or MONDO to date. PMID: 36910266 reports three de novo heterozygous MAST4 missense variants in four unrelated cases, with a neurodevelopmental disorder, including cognitive delay/intellectual disability and PMID: 33057194 reports four heterozygous MAST4 missense variants in four unrelated cases and a terminating variant in an additional case, from a cohort of 31,058 parent-offspring trios of individuals with developmental disorders. Between these two publications there are five missense MAST4 variants and one terminating variant. Variant c.4412C>T (p.Thr1471Ile) was seen in three unrelated cases.; Changed rating: GREEN | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v4.53 | SPRED2 | Arina Puzriakova Tag Q1_22_rating was removed from gene: SPRED2. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v4.53 | SPRED2 | Arina Puzriakova reviewed gene: SPRED2: Rating: GREEN; Mode of pathogenicity: ; Publications: ; Phenotypes: ; Mode of inheritance: | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v4.52 | SPRED2 |
Arina Puzriakova Source NHS GMS was added to SPRED2. Source Expert Review Green was added to SPRED2. Rating Changed from Amber List (moderate evidence) to Green List (high evidence) |
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| Intellectual disability - microarray and sequencing v3.1580 | SRRM2 |
Konstantinos Varvagiannis changed review comment from: Recent report of 22 unrelated individuals with nonsense / frameshift variants or microdeletions of SRRM2 reported. DD was a universal feature, with ID present in some (16/20 - in all cases mild). Note possible 'overlap' with the study by Kaplanis et al / DDD study cited in the previous review by Prof. Z. Stark. The gene is not intolerant to missense variation (z-score of -6.28) and eventual contribution of missense variants is not known. While SRRM2 is known to encode a splicing factor promoting interaction between mRNA and the spliceosome catalytic machinery (discussed below) molecular and functional studies are required to characterize the pathogenesis of the disorder. There is currently no SRRM2-related phenotype in OMIM. SRRM2 is included in the DD panel of G2P [confidence : definitive, SRRM2-related developmental disorder (monoallelic), cited : Kaplanis et al / DDD]. In PanelApp Australia SRRM2 has amber rating in the ID panel (based on the study by Kaplanis et al / DDD). Consider inclusion with green rating (several individuals/families/variants - rather consistent phenotype) or amber rating (as for pathogenesis / also DD universal feature, ID observed in most but not all affected individuals, when present always mild). ----- Cuinat et al. (2022 - PMID: 35567594) report on 22 individuals with LoF variants in SRRM2. All subjects had DD (22/22) predominantly affecting language acquisition (16/19) while motor delay was less common. ID was present in 16/20 (in all cases mild) of the individuals with available neurocognitive evaluation. Some individuals displayed autistic features (9/22) although others had a friendly - in some cases excessively - sociable personality (8/22). Other features included hypotonia in some, growth abnormalities (12/22 overweight, 7/22 with obesity, 4/22 tall stature). Morphological features incl. facial (20/22 - e.g. deep-set eyes, bulbous nasal tip or smooth philtrum) or small hands and feet (6/22) were also reported. Visceral / skeletal abnormalities were uncommon. SRRM2 encodes serine/arginine repetitive matrix protein 2 (or SRm300), a nuclear ubiquitous protein forming a complex with the protein encoded by SRRM1 (SRm160). As the authors summarize this complex is one of the main catalytic components of the spliceosome having a role in pre-mRNA maturation. 12 subjects harbored frameshift variants, 8 nonsense while 2 further ones had microdeletions (66-270kb) spanning - but not limited to - SRRM2 (other genes not predicted to be haploinsufficient). The gene has a pLI in gnomAD of 1 (o/e = 0.06) while it appears to be tolerant to missense variation (z-score of -6.28 / o/e = 1.43). With the exception of the 2 subjects harboring a microdeletion, all were investigated with singleton/trio ES with no other candidate variants. Variants occurred de novo in 19/22. Mosaicism (in an asymptomatic parent) was suspected based on the reads in one case. One individual had inherited the variant (parent with DD). Segregation analyses was not possible in one case. While one variant lied in ex2 (of 15) all others were in the large ex11 (encoding ~2000 of the 2752 total residues based on the schema provided / NM_016333.4), all predicted to lead to NMD. There are no studies for pathogenesis of the disorder or the underlying effect of variants. Animal models not discussed. The authors do a comparison with other 'spliceosomopathies', e.g. due to variants in SF3B4 or EFTUD2, where DD/ID can be a feature although these disorders have also prominent skeletal features. Previously, as the authors note, the study by Kaplanis et al (2020 - PMID: 33057194) integrating exome sequence data from ~31,000 parent-offspring trios of individuals with developmental disorders had identified SRRM2 among 28 genes significantly enriched in LoF variants. [ The present study possibly includes individuals from the aforementioned cohort, e.g. from Radboudumc ].; to: Recent report of 22 unrelated individuals with nonsense / frameshift variants or microdeletions of SRRM2. DD was a universal feature, with ID present in some affected individuals (16/20 - in all cases mild). Note possible 'overlap' with the study by Kaplanis et al / DDD study cited in the previous review by Prof. Z. Stark. The gene is not intolerant to missense variation (z-score of -6.28) and eventual contribution of missense variants is not known. While SRRM2 is known to encode a splicing factor promoting interaction between mRNA and the spliceosome catalytic machinery (discussed below) molecular and functional studies are required to characterize the pathogenesis of the disorder. There is currently no SRRM2-related phenotype in OMIM. SRRM2 is included in the DD panel of G2P [confidence : definitive, SRRM2-related developmental disorder (monoallelic), cited : Kaplanis et al / DDD]. In PanelApp Australia SRRM2 has amber rating in the ID panel (based on the study by Kaplanis et al / DDD). Consider inclusion with green rating (several individuals/families/variants - rather consistent phenotype) or amber rating (as for pathogenesis / also DD universal feature, ID observed in most but not all affected individuals, when present always mild). ----- Cuinat et al. (2022 - PMID: 35567594) report on 22 individuals with LoF variants in SRRM2. All subjects had DD (22/22) predominantly affecting language acquisition (16/19) while motor delay was less common. ID was present in 16/20 (in all cases mild) of the individuals with available neurocognitive evaluation. Some individuals displayed autistic features (9/22) although others had a friendly - in some cases excessively - sociable personality (8/22). Other features included hypotonia in some, growth abnormalities (12/22 overweight, 7/22 with obesity, 4/22 tall stature). Morphological features incl. facial (20/22 - e.g. deep-set eyes, bulbous nasal tip or smooth philtrum) or small hands and feet (6/22) were also reported. Visceral / skeletal abnormalities were uncommon. SRRM2 encodes serine/arginine repetitive matrix protein 2 (or SRm300), a nuclear ubiquitous protein forming a complex with the protein encoded by SRRM1 (SRm160). As the authors summarize this complex is one of the main catalytic components of the spliceosome having a role in pre-mRNA maturation. 12 subjects harbored frameshift variants, 8 nonsense while 2 further ones had microdeletions (66-270kb) spanning - but not limited to - SRRM2 (other genes not predicted to be haploinsufficient). The gene has a pLI in gnomAD of 1 (o/e = 0.06) while it appears to be tolerant to missense variation (z-score of -6.28 / o/e = 1.43). With the exception of the 2 subjects harboring a microdeletion, all were investigated with singleton/trio ES with no other candidate variants. Variants occurred de novo in 19/22. Mosaicism (in an asymptomatic parent) was suspected based on the reads in one case. One individual had inherited the variant (parent with DD). Segregation analyses was not possible in one case. While one variant lied in ex2 (of 15) all others were in the large ex11 (encoding ~2000 of the 2752 total residues based on the schema provided / NM_016333.4), all predicted to lead to NMD. There are no studies for pathogenesis of the disorder or the underlying effect of variants. Animal models not discussed. The authors do a comparison with other 'spliceosomopathies', e.g. due to variants in SF3B4 or EFTUD2, where DD/ID can be a feature although these disorders have also prominent skeletal features. Previously, as the authors note, the study by Kaplanis et al (2020 - PMID: 33057194) integrating exome sequence data from ~31,000 parent-offspring trios of individuals with developmental disorders had identified SRRM2 among 28 genes significantly enriched in LoF variants. [ The present study possibly includes individuals from the aforementioned cohort, e.g. from Radboudumc ]. |
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| Intellectual disability - microarray and sequencing v3.1580 | DROSHA |
Konstantinos Varvagiannis gene: DROSHA was added gene: DROSHA was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: DROSHA was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: DROSHA were set to 35405010 Phenotypes for gene: DROSHA were set to Global developmental delay; Intellectual disability; Seizures; Cerebral white matter atrophy; Abnormality of the corpus callosum; Abnormality of movement; Stereotypic behavior; Abnormality of head or neck; Short foot Penetrance for gene: DROSHA were set to unknown Mode of pathogenicity for gene: DROSHA was set to Loss-of-function variants (as defined in pop up message) DO NOT cause this phenotype - please provide details in the comments Review for gene: DROSHA was set to AMBER Added comment: Profound DD, ID and seizures have been reported in 2 unrelated subjects with de novo missense variants. The gene has a role in miRNA biogenesis. Both variants described have been shown to have effect on DROSHA's function in Drosophila / C. elegans (partial loss-of-function vs possibility of antimorphic effect discussed || in gnomAD several individuals with LoF alleles / Z=3.98 – pLI : 0.09). There is currently no DROSHA-related phenotype in OMIM, G2P, SysNDD. In PanelApp Australia the gene has amber rating in genetic epilepsy and microcephaly panels (not currently included in the ID one). Consider inclusion in the current panel with amber rating. Also consider inclusion in other possibly relevant panels (given postnatal microcephaly, abn. corpus callosum, progressive white matter atrophy, etc) [ NOT added ] ----- Barish, Senturk, Schoch et al (2022 - PMID: 35405010) describe the phenotype of 2 unrelated individuals with de novo missense DROSHA variants. Features included generalized hypotonia, postnatal microcephaly (-2,6 and -6 SD), feeding difficulties, profound DD and ID, seizures, abnormal movements (choreoathetosis / stereotypic movements), variable respiratory symptoms (in one case episodes of hyperventilation/apnea), cardiovascular or skeletal findings. Brain MRI demonstrated white matter atrophy and thin corpus callosum in both. Brachycephaly with broad face as well as short feet were also among the shared features. Both were investigated by trio ES/GS which were otherwise non diagnostic and without other candidate variants. The 1st individual harbored a de novo htz missense DROSHA variant (c.3656A>G/p.Asp1219Gly) while the 2nd subject had another missense variant (c.4024C>T/p.Arg1342Trp) [NM_013235.4] confirmed by Sanger seq. DROSHA (on 5p13.3) encodes a ribonuclease, subunit of the microprocessor complex, involved in miRNA biogenesis. Specifically, miRNAs are transcribed as part of pri-miRNAs (primary-miRNAs) which are cleaved to pre-miRNAs (precursor-miRNAs) in the nucleus by DROSHA (and its partner DGCR8 or Pasha) and then exported to the cytoplasm for further processing. Cleavage of pre-miRNAs by DICER1 generates mature miRNAs subsequently loaded to the RISC (RNA-induced silencing) complex which uses miRNA as template for recognition and cleavage of complementary mRNA with RNAse. As the authors discuss, miRNA defects have a well-established role in development of model organisms e.g. (several Refs. provided): - in C. elegans miRNA mutants causing lethality, developmental arrest and heterochronicity - in Drosophila playing a role in the development of ovary, eye, nervous system etc. - in mice mRNAs play a role in BMP and TGF-beta signaling while neuronal loss of miRNA processing leads to neurodegeneration/anatomical defects. Feingold syndrome 2 is the single Mendelian disease associated to date with miRNAs, through deletion of a cluster containing 6 MIR genes. miRNA dysregulation is also observed in Rett syndrome - and DROSHA implicated in the pathogenesis of the syndrome - as MECP2 and FOXG1 are cofactors of the microprocessor complex regulating processing of miRNA. One of the individuals here reported had a clinical diagnosis of Rett spectrum while both had overlapping features with Rett s. Studies of DROSHA-dependent miRNAs in fibroblasts from one individual revealed significantly altered expression of mature miRNA (e.g. increased miR98, a miRNA with reduced expression in studies of somatic DROSHA variants) although this was not likely due to processing errors (given only a modest decrease of precursor miRNAs). Previous studies have demonstrated that drosha (the Drosophila ortholog) null mutants die during post-embryonic development with 100% lethality before adulthood (3rd instar larval stage/beginning of pupariation). Mosaic flies with mutant eyes are small-eyed, while viable hypomorphic alleles display synaptic transmission defects (several Refs provided). Here, homozygous flies for null alleles died at the end of 3rd instar larval stage/beginning of pupariation, while loss of drosha resulted in lack of imaginal disc tissue (which surrounds the larval brain) and severely reduced brain size, the latter similar to the microcephaly phenotype. [To the best of my understanding] introduction of a mutated genomic rescue construct (carrying similar substitutions as those observed in human subjects) in eye-specific drosha null (W1123X) flies was partially able to rescue eye/head size for wt or Asp1219Gly (human:Asp1084Gly) suggesting that the latter is a partial LoF allele. Arg1210Trp (corresponding to human Arg1342Trp) was able to rescue the eye phenotype and was not damaging to the function in the specific assay. Drosha expression levels were similar for genomic rescue flies either for wt or for the Asp-Gly variant suggesting that the effect was not due to expression levels (but rather function). Expression of mature miRNAs known to be regulated by Drosha were not affected when comparing wildtype larvae with genomic construct for wt or Asp1084Gly. Upon expression of human cDNA using GAL4/UAS system in drosha mutant (null) eye clones, the reference partially rescued the eye size defect, Asp-Gly behaved as partial loss-of-function allele (~50% function compared to ref), while the Arg-Trp variant was shown to behave as a weaker loss-of-function allele. The authors generated eye-specific drosha mutant clones to study the aging adult eye using ERG recordings. While null mutants display almost no response to light (7- and 20-day old flies), wt genomic rescue was shown to rescue ERG responses, Asp-Gly variant had significant defects (at both 7 and 20 days) and the Arg-Trp had defects approaching statistical significance only at the age of 20 days. Overall these data suggested that Arg-Trp had less severe effect compared to Asp-Gly (as above) while both variants led to progressive neuronal dysfunction. Using CRISPR/Cas9 the authors generated C.elegans knock-ins for a variant analogous to the Asp1219Gly human one. Homozygous animals were inviable at larval stages, displayed a heterochronic phenotype (heterochronicity : development of cells or tissues at an abnormal time relative to other unaffected events in an organism / miRNAs are known to be involved in the heterochronic gene pathway) while this variant was deleterious to the Drosha's ability to process miRNAs. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1576 | PRPF8 |
Konstantinos Varvagiannis gene: PRPF8 was added gene: PRPF8 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: PRPF8 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: PRPF8 were set to 35543142 Phenotypes for gene: PRPF8 were set to Global developmental delay; Intellectual disability; Seizures; Autism; Retinitis pigmentosa 13, MIM # 600059 Penetrance for gene: PRPF8 were set to unknown Review for gene: PRPF8 was set to AMBER Added comment: A recent study suggests that heterozygous PRPF8 variants are associated with a syndromic form of DD/ID, in some cases epilepsy with heterogeneous other clinical findings. However the authors acknowledge that not all variants within their cohort may be pathogenic (5 VUSs using ACMG criteria) and that conclusive evidence may necessitate functional studies. Heterozygous variants (typically clustering in exon 42) have been reported to cause a non-syndromic form of RP with variable expressivity and incomplete penetrance (Retinitis pigmentosa 13, MIM # 600059) . Overall consider inclusion with amber rating. ------ O'Grady et al. (2022 - PMID: 35543142) describe the phenotype of 14 unrelated individuals with heterozygous, mostly de novo, missense and pLoF variants in PRPF8. Nearly all had some degree of global developmental delay or ID (13/14). 6/14 had a diagnosis of ASD. Seizures were reported in 4 or 5 subjects. Other features included short stature (6/14), abnormal gait, cardiac anomalies and somewhat overlapping facial features (11/14). Ages ranged from 4 - 19 years (median : 9y). PRPF8 encodes a component of the spliceosomes which in turn are involved in removal of introns from mRNA precursors. The gene is ubiquitously expressed with expression within brain being highest in cerebral cortex, basal ganglia and cerebellum (Refs. provided). Individuals were investigated with exome sequencing (12/14) or an autism/ID panel of >2500 genes (likely application of virtual panel on exome data). 13 individuals harbored a missense SNV and 1 further had a frameshift variant. In 12 individuals the variant had occurred de novo. 1 individual had inherited the variant from a possibly mosaic parent, while for 1 further a single parental sample was available. PRPF8 is intolerant to both missense (Z = 8.28) and pLoF variants (pLI : 1). Variants in 5 individuals were formally classified as VUS while 2 variants were present in gnomAD. Additional findings (CNVs/SNVs) were reported, in some cases possibly of relevance. As the authors discuss, heterozygous pathogenic missense SNVs cause (and account for ~2-3% of) non-syndromic AD retinitis pigmentosa with variable expressivity and incomplete penetrance. Variants for this phenotype are typically missense - although nonsense ones have also been reported - clustering within ex42 (of 43) encoding the MPN domain (aa 2103-2335 / NP_006436) and weakening interaction with 2 other spliceosomal proteins. Variants in the present study occurred throughout the gene. Although not universally assessed within the cohort, only one participant had RP (in this case variant within the MPN domain). There were no variant studies performed. Animal models: the authors cite a study by Graziotto et al (2011 - PMID: 20811066) where knock-in mice for a missense variant in ex42 displayed defects of the retinal pigment epithelium. A zebrafish ko model also cited (Keightley et al, 2013 - PMID: 23714367) displayed widespread apoptosis in brain and spinal cord. The authors cite a previous bioinformatic study identifying PRPF8 as a major hub connecting gene-interaction networks for NDDs (Casanova et al, 2018 - PMID: 30420816) as well as 2 studies demonstrating enrichment of variants in individuals with NDDs compared to controls (da Silva Montenegro et al, 2020 - PMID: 31696658, Karczewski et al, 2020 - PMID: 32461654). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1564 | BUB1 |
Konstantinos Varvagiannis gene: BUB1 was added gene: BUB1 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: BUB1 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: BUB1 were set to 35044816 Phenotypes for gene: BUB1 were set to Congenital microcephaly; Global developmental delay; Intellectual disability; Abnormal heart morphology; Growth delay Penetrance for gene: BUB1 were set to Complete Review for gene: BUB1 was set to AMBER Added comment: A recent study provides evidence that this gene (biallelic variants) is relevant for inclusion in the DD/ID panel likely with amber / green rating (2 unrelated individuals with similar phenotype, 3 variants, role of this gene, extensive variant studies and demonstrated effects on cohesion and chromosome segregation, similarities with other disorders caused by mutations in mitosis-associated genes at the clinical and cellular level || number of affected subjects/families, different protein levels/kinase activity likely underlying few differences observed, role of monoallelic variants unclear). This gene could probably be included in other panels e.g. for microcephaly (not added). There is no BUB1-related phenotype in OMIM, G2P, SysID, PanelApp Australia. ------ Carvalhal, Bader et al (2022 - PMID: 35044816) describe the phenotype of 2 unrelated individuals with biallelic BUB1 pathogenic variants and provide evidence for the underlying mechanism for this condition. Common features comprised congenital microcephaly (2/2 | -2,8 and -2.9 SDs respectively / -7 and -4,9 SDs on last evaluation), DD/ID (2/2 - in one case with formal evaluation mild), some degree of growth retardation (2/2) and cardiovascular findings (2/2 - small ASD type II). Other findings limited to one subject included Pierre-Robin sequence, Axenfeld-Rieger anomaly, choanal stenosis, hypospadias, tracheal stenosis, etc. Initial genetic testing was normal (incl. CMA in both, metabolic testing and individual genes incl. PITX2, GREM1, FOXD3, FOXC1 for one proband). Exome sequencing revealed homozygosity for a start-lost variant (NM_004336.4:c.2T>G / p.?) in the first subject (P1). The variant lied within a 14-Mb region of homozygosity (no reported consanguinity). The second individual (P2) was compound htz for a splice-site and a frameshift variant (c.2625+1G>A and c.2197dupG) with Sanger sequencing used for confirmation and segregation studies. BUB1 encodes BUB1 Mitotic checkpoint serine/threonine kinase (/Budding uninhibited by benzimidazoles 1, s. cerevisiae, homolog of) a multifunctional component of the segregation machinery contributing to multiple mitotic processes. The protein has a kinetochore localization domain, multiple binding motifs and a C-terminal kinase domain (aa 784-1085) this structure allowing both kinase dependent/independent activities. cDNA sequencing revealed that the splice variant leads to skipping of ex21 and in-frame deletion of 54 residues in the kinase domain (c.2625+1G>A / p.Val822_Leu875del). Both individuals exhibited normal BUB1 mRNA levels (fibroblasts in both, tracheal tissue in one) but severely reduced protein levels (fibroblasts). A shorter protein product corresponding to the in-frame deletion variant was also detected. The authors performed additional experiments to confirm small amounts of full-length protein produced by the start-lost variant. This was shown in SV40-transformed fibroblasts from the corresponding individual (treatment with a proteasome inhibitor resulted also in higher levels). Upon generation RPE1 cells using CRISPR for the start-lost variant, again, small amounts of full length protein were detected, which was not the case for complete knockout HAP1 cells. No shorter versions could be detected in the patient cells or RPE1 cells, arguing against utilization of an alternative start codon. (Use of non-AUG start codons discussed based on literature). In line with small amounts of full-length protein the authors provided evidence for residual kinase activity for the start-loss variant (through proxy of phosphorylation of its substrate and use of a BUB1 kinase inhibitor). Cells from the individual with the frameshift variant and the splice variant had no residual kinase activity. The authors provide evidence for mitotic defects in cells from both individuals with prolonged mitosis duration and chromosome segregation defects. Some patient-specific findings were thought to be related with BUB1 protein levels (affecting BUB1-mediated kinetochore recruitment of BUBR1, important for chromosome alignment) and others due to residual kinase activity [->phosphorylation of H2A at Threonine 120-> affecting centromeric recruitment of Aurora B, SGO1 (role in protection of centromeric cohesion), TOP2A (a protein preventing DNA breakage during sister chromatid separation), these correlated with high anaphase bridges (in P2), aneuploidy observed in lymphoblasts and primary fibroblasts from P2 but not P2's lymphocytes or lymphocytes from P1) and defective sister chromatid cohesion defects (in primary fibroblasts from P2, milder effect for P1). Overall the authors provide evidence for overlapping clinical and cellular phenotype for this condition with primary microcephalies (MCPH - mutations in genes for mitotic regulators incl. kinetochore proteins or regulators of chromosome organization), mosaic variegated aneuploidy (biallelic variants in genes for kinetochore proteins, with random aneuploidies occurring in >5% cells of different tissues) and cohesinopathies (mostly Roberts or Warsaw breakage syndromes - characterized by cohesion loss and/or spontaneous railroad chromosomes). Mouse model: Hmz disruption in mice is lethal shortly after E3.5 (cited PMID: 19772675), while a hypomorphic mutant mouse (lacking exons 2-3, expressing <5% of wt protein levels) is viable but exhibits increased tumorigenesis with aging and aneuploidy (cited PMID: 19117986). Mutant mice that lack kinase activity though with preserved Bub1 protein abundance, did not display increased susceptibility, despite substantial segregation errors and aneuploidies (cited PMID: 23209306). The authors note that monoallelic germline BUB1 variants have been described in small number of individuals with CRC, exhibiting reduced expression levels and variegated aneuploidy in multiple tissues (cited PMID: 23747338) although the role of BUB1 is debated (cited PMIDs: 27713038, 29448935). Based on the discussion, complete loss of BUB1 activity is presumed to be embryonically lethal based on the mouse study (PMID: 19772675) and reduced BUB1 expression associated with spontaneous miscarriages (cited PMID: 20643875, to my understanding in this study mRNA levels remained relatively constant despite reduced Bub1 protein levels, mRNA RT-PCR followed by sequencing revealed only 2 synonymous BUB1 variants). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1561 | CDK9 |
Konstantinos Varvagiannis changed review comment from: There are 4 studies reporting on the phenotype associated with biallelic CDK9 pathogenic variants. DD and ID are part of the phenotype which appears to be relatively consistent. CDK9 encodes Cyclin-dependent kinase 9. There are 4 missense variants reported to date - one of which recurrent (NM_001261.3:c.673C>T / p.Arg225Cys) - with studies for 3 variants suggesting a LoF effect (loss of kinase activity) [Ref4]. Animal models also provide some supporting evidence [discussed Ref4]. Consider inclusion in the current panel (probably with green rating) as well as other possibly relevant ones. Details provided below. [1]----- Shaheen et al (2016 - PMID: 26633546) studied patients with apparently novel phenotypes with positive family history consistent with AR inheritance mode due to consanguinity. After autozygome analysis the authors determined the shared autozygome (ROH >1 Mb / Axiom SNP Chip) in families with multiple affected individuals. This analysis was followed by whole exome/genome sequencing. Using this approach, they managed to map the phenotype of interest to a single novel locus in some families, which was also the case in a large consanguineous family with 2 similarly affected cousins (11DG0424, 11DG1630). Within a 20 Mb region of homozygosity, followed by WES in a single affected individual and Sanger confirmation with compatible segregation studies in parents and 10 unaffected sibs, the authors identified a homozygous CDK9 missense SNV (NM_001261.3:c.673C>T / p.Arg225Cys) responsible for this phenotype. In silico predictions were concordant in favor of a deleterious effect. Features (detailed in the suppl.) included global DD (2/2), severe ID (1/1), cerebral and (mild) cerebellar atrophy (2/2), microcephaly (2/2), ocular anomalies (2/2, coloboma in 2/2, congenital cataract 2/2, etc), heart defects (2/2, PDA in both, ASD), variable genitourinary anomalies (2/2 incl. hydronephrosis, VUR reflux/recurrent UTIs, kidney atrophy, abn. genitalia in 1), abnormalities of the limbs (2/2, bilateral talipes equinovarus : 2/2) or the skeleton (1/2 - butterfly vertebrae). One was reported to have some degree of growth delay (<10th centile for length, <5th for weight and OFC). There was no hearing defect reported (large ears in 1/2). Overall, the authors used the term CHARGE-like phenotype. [2]----- Maddirevula et al (2019 - PMID: 30237576) performed autozygome and exome analysis of individuals with suspected Mendelian disorders. They reported 3 individuals (18DG0161, 18DG0162, 18DG0165) born to 3 different consanguineous families (information in fig2) from Qatar, homozygous for CDK9 p.Arg225Cys. All presented a CHARGE-like phenotype with features ophtalmologic findings (3/3 - abnormal ERG in one, congenital cataracts the other, visual impairment in the 3rd, though NO evidence of coloboma in at least two), heart defect (2/3 had VSD), choanal atresia (3/3), retarded growth/FTT (1/3) or global DD (3/3 - in suppl. table 1), (genito)urinary anomalies (1/3 - dysplastic atrophic kidney) or ear anomalies (3/3 - preauricular tags 2/3, bilateral deafness 1/3, bilat.ossicular anomalies 1/3). Other features incl. epilepsy (2/3), brain MRI abnormalities (2/3), facial asymmetry in one, vertebral segmentation defect in 1/3. [3]----- Hu et al (2019 - PMID: 29302074) performed WES/WGS in 404 consanguineous families from Iran, having 2 or more offspring with ID. In this context they reported 2 females and a male (III:1,4,3 belonging to fam. M9100018 - details in suppl. text) born to first cousin parents from Iran. Features included DD (3/3 - walking at 3y, words at 4y), moderate ID (3/3 - WAIS-IV IQ of 40-43), short stature (3/3 below 3rd %le). Vision and hearing were normal. All three were homozygous for a missense SNV (NM_001261:c.280C>T, p.Arg94Cys) which was ultrarare in ExAC, with severa in silico tools in favor of a deleterious effect. The authors commented that CDK9 is the catalytic core of transcription elongation factor p-TEFb essential for transcription elongation of numerous genes, Cdk9/Cyclin T1 complex may participate in neuronal differentiation, CDK9-cyclinK in maintenance of genomic integrity, with the protein encoded also interacted with AF4/FMR2. In addition the gene was commented to have ubiquitous expression with high protein expression in glial and neuronal cells of the cortex (based on Uniprot and Human Protein Atlas). [4]----- Nishina et al (2021 - PMID: 33640901) described an 8 y.o. male with facial asymmetry, ear/hearing anomalies (microtia, preauricular tags, bilateral hearing loss), ocular/vision anomalies (blepharophimosis, lacrimal obstruction, eyelid dermoids, duane-like anomaly, congenital cataracts, retinal dystrophy), cleft lip and palate, abnormalities of the limbs (finger contractures with associated absence of creases, cutaneous syndactyly, etc). Other features included cardiac dysrhythmia and undescended testes. Development was delayed with associated ID (walking 3y, words 7y, at 10y: could count to 20, 4 word sentences). There was no evidence of coloboma or choanal atresia. Trio exome sequencing revealed that the child was compound htz for 2 missense SNVs (NM_001261.3:c.862G>A / p.Ala288Thr and c.907C>T /p.Arg303Cys) with Sanger confirmation. These were ultrarare/not present in gnomAD. Both lied in the protein kinase catalytic domain of CDK9, with high conservation across different species and in silico predictions in favor of deleterious effect. In vitro studies in HEK293 cells demonstrated that the kinase activity for both variants was significantly reduced compared to wt. Kinase activity was also reduced for the Arg225Cys variant (reported in Refs 1 & 2). The authors briefly discuss evidence from zebrafish (regulates larval morphogenesis incl. brain, heart, eye, blood vessels) and mouse models. In the latter complete LoF is lethal while heterozygous LoF is associated with abnormal morphology of heart, skin and epididymis (PMIDs cited by the authors : 27715402, 30100824). Sources: Literature; to: There are 4 studies reporting on the phenotype associated with biallelic CDK9 pathogenic variants. DD and ID are part of the phenotype which appears to be relatively consistent. CDK9 encodes Cyclin-dependent kinase 9. There are 4 missense variants reported to date - one of which recurrent (NM_001261.3:c.673C>T / p.Arg225Cys) - with studies for 3 variants suggesting a LoF effect (loss of kinase activity) [Ref4]. Animal models also provide some supporting evidence [discussed Ref4]. Consider inclusion in the current panel (probably with green rating) as well as other possibly relevant ones. Details provided below. [1]----- Shaheen et al (2016 - PMID: 26633546) studied patients with apparently novel phenotypes with positive family history consistent with AR inheritance due to consanguinity. Using autozygome analysis the authors determined the shared autozygome (ROH >1 Mb / Axiom SNP Chip) in families with multiple affected individuals. This analysis was followed by whole exome/genome sequencing. Using this approach, they managed to map the phenotype of interest to a single novel locus in some families, which was also the case in a large consanguineous family with 2 similarly affected cousins (11DG0424, 11DG1630). Within a 20 Mb region of homozygosity, followed by WES in a single affected individual and Sanger confirmation with compatible segregation studies in parents and 10 unaffected sibs, the authors identified a homozygous CDK9 missense SNV (NM_001261.3:c.673C>T / p.Arg225Cys) responsible for this phenotype. In silico predictions were concordant in favor of a deleterious effect. Features (detailed in the suppl.) included global DD (2/2), severe ID (1/1), cerebral and (mild) cerebellar atrophy (2/2), microcephaly (2/2), ocular anomalies (2/2, coloboma in 2/2, congenital cataract 2/2, etc), heart defects (2/2, PDA in both, ASD), variable genitourinary anomalies (2/2 incl. hydronephrosis, VUR/recurrent UTIs, kidney atrophy, abn. genitalia in 1), abnormalities of the limbs (2/2, bilateral talipes equinovarus : 2/2) or the skeleton (1/2 - butterfly vertebrae). One was reported to have some degree of growth delay (<10th centile for length, <5th for weight and OFC). There was no hearing defect reported (large ears in one case). Overall, the authors used the term CHARGE-like for this phenotype. [2]----- Maddirevula et al (2019 - PMID: 30237576) performed autozygome and exome analysis of individuals with suspected Mendelian disorders. They reported 3 individuals (18DG0161, 18DG0162, 18DG0165) born to 3 different consanguineous families (information in fig2) from Qatar, homozygous for CDK9 p.Arg225Cys. All presented a CHARGE-like phenotype with ophthalmologic findings (3/3 - abnormal ERG in one, congenital cataracts the other, visual impairment in the 3rd, though NO evidence of coloboma in at least two of them), heart defect (2/3 with VSD), choanal atresia (3/3), retarded growth/FTT (1/3) or global DD (3/3 - in suppl. table 1), (genito)urinary anomalies (1/3 - dysplastic atrophic kidney) or ear anomalies (3/3 - preauricular tags in 2/3, bilateral deafness 1/3, bilateral ossicular anomalies 1/3). Other features incl. epilepsy (2/3), brain MRI abnormalities (2/3), facial asymmetry in one, vertebral segmentation defect in 1/3. [3]----- Hu et al (2019 - PMID: 29302074) performed WES/WGS in 404 consanguineous families from Iran, having 2 or more offspring with ID. In this context they reported 2 females and a male (III:1,4,3 belonging to fam. M9100018 | suppl. text) born to first cousin parents from Iran. Features included DD (3/3 - walking at 3y, words at 4y), moderate ID (3/3 - WAIS-IV IQ of 40-43), short stature (3/3 below 3rd %le). Vision and hearing were normal. All three were homozygous for a missense SNV (NM_001261:c.280C>T, p.Arg94Cys) which was ultrarare in ExAC, with several in silico tools in favor of a deleterious effect. The authors commented that CDK9 is the catalytic core of transcription elongation factor p-TEFb essential for transcription elongation of numerous genes, Cdk9/Cyclin T1 complex may participate in neuronal differentiation, CDK9-cyclinK in maintenance of genomic integrity, with the protein encoded also interacting with AF4/FMR2. In addition the gene was commented to have ubiquitous expression with high protein expression in glial and neuronal cells of the cortex (based on Uniprot and Human Protein Atlas). [4]----- Nishina et al (2021 - PMID: 33640901) described an 8 y.o. male with facial asymmetry, ear/hearing anomalies (microtia, preauricular tags, bilateral hearing loss), ocular/vision anomalies (blepharophimosis, lacrimal obstruction, eyelid dermoids, duane-like anomaly, congenital cataracts, retinal dystrophy), cleft lip and palate, abnormalities of the limbs (finger contractures with associated absence of creases, cutaneous syndactyly, etc). Other features included cardiac dysrhythmia and undescended testes. Development was delayed with ID (walking 3y, words 7y, at 10y: could count to 20, 4 word sentences). There was no evidence of coloboma or choanal atresia. Trio exome revealed that the child was compound htz for 2 missense SNVs (NM_001261.3:c.862G>A / p.Ala288Thr and c.907C>T /p.Arg303Cys) with Sanger confirmation. These were ultrarare/not present in gnomAD. Both lied in the protein kinase catalytic domain of CDK9, with high conservation across different species and in silico predictions in favor of deleterious effect. In vitro studies in HEK293 cells demonstrated that the kinase activity for both variants was significantly reduced compared to wt. Kinase activity was also reduced for the Arg225Cys variant (reported in Refs 1 & 2). The authors briefly discuss evidence from zebrafish (regulates larval morphogenesis incl. brain, heart, eye, blood vessels) and mouse models. In the latter complete LoF is lethal while heterozygous LoF is associated with abnormal morphology of heart, skin and epididymis (PMIDs cited : 27715402, 30100824). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1561 | CDK9 |
Konstantinos Varvagiannis gene: CDK9 was added gene: CDK9 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: CDK9 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: CDK9 were set to 26633546; 30237576; 29302074; 33640901 Phenotypes for gene: CDK9 were set to Global developmental delay; Intellectual disability; Abnormality of vision; Congenital cataract; Iris coloboma; Abnormal heart morphology; Choanal atresia; Abnormality of the ear; Preauricular skin tag; Hearing impairment; Abnormality of the genitourinary system; Abnormality of limbs; Abnormality of the vertebrae; Abnormality of nervous system morphology; Seizures Penetrance for gene: CDK9 were set to Complete Review for gene: CDK9 was set to GREEN Added comment: There are 4 studies reporting on the phenotype associated with biallelic CDK9 pathogenic variants. DD and ID are part of the phenotype which appears to be relatively consistent. CDK9 encodes Cyclin-dependent kinase 9. There are 4 missense variants reported to date - one of which recurrent (NM_001261.3:c.673C>T / p.Arg225Cys) - with studies for 3 variants suggesting a LoF effect (loss of kinase activity) [Ref4]. Animal models also provide some supporting evidence [discussed Ref4]. Consider inclusion in the current panel (probably with green rating) as well as other possibly relevant ones. Details provided below. [1]----- Shaheen et al (2016 - PMID: 26633546) studied patients with apparently novel phenotypes with positive family history consistent with AR inheritance mode due to consanguinity. After autozygome analysis the authors determined the shared autozygome (ROH >1 Mb / Axiom SNP Chip) in families with multiple affected individuals. This analysis was followed by whole exome/genome sequencing. Using this approach, they managed to map the phenotype of interest to a single novel locus in some families, which was also the case in a large consanguineous family with 2 similarly affected cousins (11DG0424, 11DG1630). Within a 20 Mb region of homozygosity, followed by WES in a single affected individual and Sanger confirmation with compatible segregation studies in parents and 10 unaffected sibs, the authors identified a homozygous CDK9 missense SNV (NM_001261.3:c.673C>T / p.Arg225Cys) responsible for this phenotype. In silico predictions were concordant in favor of a deleterious effect. Features (detailed in the suppl.) included global DD (2/2), severe ID (1/1), cerebral and (mild) cerebellar atrophy (2/2), microcephaly (2/2), ocular anomalies (2/2, coloboma in 2/2, congenital cataract 2/2, etc), heart defects (2/2, PDA in both, ASD), variable genitourinary anomalies (2/2 incl. hydronephrosis, VUR reflux/recurrent UTIs, kidney atrophy, abn. genitalia in 1), abnormalities of the limbs (2/2, bilateral talipes equinovarus : 2/2) or the skeleton (1/2 - butterfly vertebrae). One was reported to have some degree of growth delay (<10th centile for length, <5th for weight and OFC). There was no hearing defect reported (large ears in 1/2). Overall, the authors used the term CHARGE-like phenotype. [2]----- Maddirevula et al (2019 - PMID: 30237576) performed autozygome and exome analysis of individuals with suspected Mendelian disorders. They reported 3 individuals (18DG0161, 18DG0162, 18DG0165) born to 3 different consanguineous families (information in fig2) from Qatar, homozygous for CDK9 p.Arg225Cys. All presented a CHARGE-like phenotype with features ophtalmologic findings (3/3 - abnormal ERG in one, congenital cataracts the other, visual impairment in the 3rd, though NO evidence of coloboma in at least two), heart defect (2/3 had VSD), choanal atresia (3/3), retarded growth/FTT (1/3) or global DD (3/3 - in suppl. table 1), (genito)urinary anomalies (1/3 - dysplastic atrophic kidney) or ear anomalies (3/3 - preauricular tags 2/3, bilateral deafness 1/3, bilat.ossicular anomalies 1/3). Other features incl. epilepsy (2/3), brain MRI abnormalities (2/3), facial asymmetry in one, vertebral segmentation defect in 1/3. [3]----- Hu et al (2019 - PMID: 29302074) performed WES/WGS in 404 consanguineous families from Iran, having 2 or more offspring with ID. In this context they reported 2 females and a male (III:1,4,3 belonging to fam. M9100018 - details in suppl. text) born to first cousin parents from Iran. Features included DD (3/3 - walking at 3y, words at 4y), moderate ID (3/3 - WAIS-IV IQ of 40-43), short stature (3/3 below 3rd %le). Vision and hearing were normal. All three were homozygous for a missense SNV (NM_001261:c.280C>T, p.Arg94Cys) which was ultrarare in ExAC, with severa in silico tools in favor of a deleterious effect. The authors commented that CDK9 is the catalytic core of transcription elongation factor p-TEFb essential for transcription elongation of numerous genes, Cdk9/Cyclin T1 complex may participate in neuronal differentiation, CDK9-cyclinK in maintenance of genomic integrity, with the protein encoded also interacted with AF4/FMR2. In addition the gene was commented to have ubiquitous expression with high protein expression in glial and neuronal cells of the cortex (based on Uniprot and Human Protein Atlas). [4]----- Nishina et al (2021 - PMID: 33640901) described an 8 y.o. male with facial asymmetry, ear/hearing anomalies (microtia, preauricular tags, bilateral hearing loss), ocular/vision anomalies (blepharophimosis, lacrimal obstruction, eyelid dermoids, duane-like anomaly, congenital cataracts, retinal dystrophy), cleft lip and palate, abnormalities of the limbs (finger contractures with associated absence of creases, cutaneous syndactyly, etc). Other features included cardiac dysrhythmia and undescended testes. Development was delayed with associated ID (walking 3y, words 7y, at 10y: could count to 20, 4 word sentences). There was no evidence of coloboma or choanal atresia. Trio exome sequencing revealed that the child was compound htz for 2 missense SNVs (NM_001261.3:c.862G>A / p.Ala288Thr and c.907C>T /p.Arg303Cys) with Sanger confirmation. These were ultrarare/not present in gnomAD. Both lied in the protein kinase catalytic domain of CDK9, with high conservation across different species and in silico predictions in favor of deleterious effect. In vitro studies in HEK293 cells demonstrated that the kinase activity for both variants was significantly reduced compared to wt. Kinase activity was also reduced for the Arg225Cys variant (reported in Refs 1 & 2). The authors briefly discuss evidence from zebrafish (regulates larval morphogenesis incl. brain, heart, eye, blood vessels) and mouse models. In the latter complete LoF is lethal while heterozygous LoF is associated with abnormal morphology of heart, skin and epididymis (PMIDs cited by the authors : 27715402, 30100824). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1556 | FBXW7 |
Konstantinos Varvagiannis gene: FBXW7 was added gene: FBXW7 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: FBXW7 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: FBXW7 were set to 33057194; 35395208; 30885698; 26482194; 19963109; 20332316 Phenotypes for gene: FBXW7 were set to Neurodevelopmental abnormality; Global developmental delay; Intellectual disability; Macrocephaly; Microcephaly; Abnormality of brain morphology; Abnormality of the corpus callosum; Abnormality of the cerebellum; Abnormality of the cardiovascular system; Seizures; Strabismus; Abnormality of the palate Penetrance for gene: FBXW7 were set to unknown Review for gene: FBXW7 was set to AMBER Added comment: While Kaplanis et al (2020 - Ref1), identified FBXW7 among 285 genes significantly associated with developmental disorders, a recent study by Stephenson et al (2022 - Ref2) describes the neurodevelopmental phenotype of 35 individuals making this gene relevant to the current panel. There are previous reports of dn/inh germline variants in individuals (likely 7) with tumor predisposition although a neurodevelopmental phenotype was not reported in most cases. There is currently no FBXW7-related phenotype in OMIM. The gene is included in the DD panel of G2P [associated with: FBXW7-related developmental disorder (monoallelic), confidence: definitive, citing the study by Kaplanis et al]. SysID lists FBXW7 among the candidate ID genes (same Ref.). The gene has a green rating for ID in PanelApp Australia (VCGS participating in the recent publication). Consider inclusion with amber/green rating. Also consider inclusion in other panels that may be relevant(macro/microcephaly, seizures, CHD, corpus callosum / cerebellar abnormalities, cleft palate, WT, etc). [1]------------ Kaplanis et al (2020 - PMID: 33057194), by combining exome data from 31,058 parent offspring trios from the DDD study, Radboudumc and GeneDx, identified 285 genes significantly associated with developmental disorders, 28 of which (incl. FBXW7) not previously robustly associated with these disorders. [2]------------ Stephenson et al (2022 - PMID: 35395208) provide clinical information on 35 individuals harboring germline monoallelic FBXW7 variants or chromosomal deletions spanning this gene. The phenotype corresponded to a phenotypically variable NDD characterized by hypotonia (in about 2/3), neurodevelopmental abnormality (34/35 - as discussed later), seizures (8/35), abnormal brain morphology (13/17 - in 7/17 abnormal CC, in 5/17 abn. cerebellum, etc), head circumference (macrocephaly in 10/35, microcephaly in 2/35). Additional features included abnormal palate or uvula morphology (10/35 - cleft palate in 3 from 2 families while 1 individual from a 3rd family had bifid uvula) or abnormal heart morphology (11/35), ophthalmologic features (e.g. strabismus in 5/35) or hearing impairment (2/35). There was no recognizable gestalt (deeply set eyes with upper eyelid fullness in 9/35). As for the DD/ID this ranged from borderline to severe, characterized as mild-moderate in 27/35, severe in 3/35. One individual did not present neurodevelopmental abnormality 1/35. FBXW7 encodes F-box and WD40 domain protein 7 which is part of the SCF E3 ligase complex (SKP1/CUL1/F-box protein) exerting a role of recognition and binding of target proteins for degradation by the ubiquitin proteasome system. In this way FBWX7 participates in regulating a network of proteins involved in cell division, growth, differentiation (as summarized by Roversi et al - Ref2). Most individuals were investigated by trio-WES/WGS (few with singleton WES or CMA only). 28 germline FBXW7 variants were identified incl. missense (N=21), pLoF (predicted or not to undergo NMD) and 2 deletions encompassing but not limited to FBXW7. Additional SNVs/CNVs (e.g. an inh intragenic DPP6 dup in one individual (#9) with deletion, other de novo 4q CNVs (#10), an inh 22q spanning partially an ISCA TS region, a CACNA1A and KMT2D SNV, etc) were reported in few individuals. Most variants arose dn (N=30) with two individuals displaying mosaicism (2/30) and three individuals having inherited the variant from their affected parent. CNVs had occurred dn. 3 missense SNVs were recurrent in unrelated individuals. All variants identified affected all FBXW7 isoforms. As the authors comment missense variants clustered at the C-terminal half of the protein with most (16/21) occurring within the WD40 domain. [The N-terminal part commented in the literature to affect localization]. The crystal structure of FBXW7 and SKP1 complex has been determined with CYCLIN E1/DISC1 as substrates, and in silico modeling revealed that all missense variants aligned with residues required for this interaction, or adjacent ones. All were absent from gnomAD, while missense variants from gnomAD (N=78) were not predicted have significant effect on the binding affinity. Variant studies revealed that most missense variants (6/7 tested - Arg689Gln being the exception) are unlikely to cause protein instability or degradation in vivo. Co-expression of these missense variants with CYCLIN E1 / E2, known FBXW7 substrates revealed that variants were less efficient at degrading the substrate with variants in the WD40 domain having greater impact (in some cases E1 / E2 - specific). Elav-Gal4 mediated neuronal knockdown of the Drosophila ortholog archipelago (ago) using 2 RNAi-s with different efficiency was shown to affect learning or compromise neuronal function (also related to the level of knockdown). The authors summarize results from animal models for the role of this gene in development and the nervous system. KO mice die in utero at E10.5 manifesting abn. of hematopoietic or vascular development and heart-chamber maturation(*). Some htz knock-in for human cancer variants, display perinatal lethality, abn lung, cleft palate (30%)(*),etc. Conditional gut specific deletion results in impaired differentiation of intestinal goblet cells (*)(constipation in 16/35 in cohort). KO limited to CNS and PNS results in defective sucking and morphological brain abnormalities. Haploinsufficiency in the nervous system was associated with impaired differentiation of neural stem cells (possibly through a Notch-mediated mechanism). KO in Schwann cells of the peripheral nervous system resulted in enhanced myelination. Excessive oligodendrocyte cells and hypermyelination (as a result of elevated Notch & mTOR signaling) are observed in homozygous mutant zebrafish or after morpholino-mediated fbxw7 knockdown. Overall, the authors propose haploinsufficiency or loss-of-function as the underlying mechanism. Finally, as the authors comment, FBXW7 is a tumor suppressor among the most commonly mutated genes in human cancer (3.5%). Germline variants have been previously reported in individuals with cancer (Wilms tumor, rhabdoid, etc - most summarized below). However, none of the 35 individuals in this cohort (oldest 44 y.o.) had any history of cancer. Reports of individuals with germline variants causing (monoallelic) disruption of FBXW7 - cases without DD/ID: [3]------------ Mahamdallie et al (2019 - PMID: 30885698) investigated with WES a cohort of 890 individuals with Wilms tumor (799 non-familial disease, 91 from WT pedigrees). In this context they identified 4 individuals having developed WT (ages: 28-76m) with FBXW7 dn or inherited LoF variants (710G>A / p.Trp237* dn - 1972C>T / p.Arg658* - inh:NA, 1017_1021del5, 670C>T - paternal / p.Arg224* inh:NA - RefSeq not provided). One additional individual with a missense variant (1753A>T / p.Ser585Cys - dn) had developed rhabdoid tumor. While the authors mentioned additional features for other subjects in their cohort, among the 5 individuals with FBXW7 variants, only one had hypotonia (ID_0592) and another (ID_7520) had two febrile convulsions. [4]------------ Roversi et al (2015 - PMID: 26482194) described the phenotype of a 34 y.o. female with syndromic presentation (macrocephaly, nephrotic syndrome due to FSGS, Hodgkin's lymphoma, Wilms tumor, ovarian cystadenoma, breast carcinoma) harboring a 157 kb deletion of 4q31.3. Eventual DD/ID was not reported despite detailed clinical description. The deletion spanned almost the entire FBXW7 gene and a pseudogene (hg19 - chr4:153205202-153362047). The authors provided evidence that the del affected the maternal allele as dn event (maternal mosaicism excluded). Expression of FBXW7 in patient-derived EBV lymphoblastoid cell line revealed decreased levels of expression compared to controls. At somatic level, the authors looked for eventual 2nd hit in tumor tissue (which was not the case) while they demonstrated decreased FBXW7 expression in a WT sample compared to normal renal tissue. Previously, variants in other genes candidate for the phenotype were ruled out (Sanger & MLPA for TP53, BRCA1/2, PALB2, WT1, 11p15 MS-MLPA, std karyotype). [5]------------ Kuiper et al (2015 - PMID: 19963109), in a 58 y.o. patient with recurrence of RCC, identified a constitutional translocation [t(3;4)(q21;q31)]. Using long-range PCR they defined the breakpoints at 3q21.3 (128379059 - hg18) between the PLXNA1 and C3orf56 genes while the chr4 breakpoint was located within the second intron of FBXW7 (pos. 153500813 - hg18). There were no additional phenotypes reported. [6]------------ Williams et al (2010 - PMID: 20332316) reported a patient with WT harboring germline variants in WT1 and FBXW7. While the phenotype was sufficiently explained by a germline stopgain WT1 variant with a frameshift WT1 variant (as 2nd hit) confined to the tumor, the authors identified a germline in-frame FBXW7 insertion in the same individual (c.45_46insCCT / p.Thr15_Gly16insPro - RefS : NA) [if correct corresponding to: https://gnomad.broadinstitute.org/variant/4-153332910-C-CAGG - 345/281696 alleles in gnomAD]. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1518 | CPSF3 |
Konstantinos Varvagiannis gene: CPSF3 was added gene: CPSF3 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: CPSF3 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: CPSF3 were set to 35121750 Phenotypes for gene: CPSF3 were set to Failure to thrive; Abnormal muscle tone; Global developmental delay; Intellectual disability; Microcephaly; Seizures Penetrance for gene: CPSF3 were set to Complete Review for gene: CPSF3 was set to AMBER Added comment: Arnadottir (2022 - PMID: 35121750) describe the phenotype associated with biallelic CPSF3 pathogenic variants. Based on WGS of 56,969 Icelanders and imputing the genotype of another 153,054 chip-genotyped Icelanders, the authors identified missense variants with a deficit of homozygous carriers to what would be expected based on AF. (For variants with MAF>0.4%, for which >=3 hmz carriers would be expected by H-W equilibrium, no identified hmz carriers within this cohort/dataset). A total of 114 such missense variants was identified. 5 of these SNVs, among which a CPSF3 one (NM_016207.3:c.1403G>A / p.Gly468Glu), were however observed in a series of 764 individuals investigated with clinical WGS at the National University Hospital. The CPSF3 variant with a MAF of 0.41% (3 hmz expected but none observed in the population set) was found in homozygosity in 2 closely related individuals, both investigated for FTT, severe DD, ID, microcephaly, seizures but remaining unresolved following WGS with no other candidate variants. Using genealogical information from the db of deCODE genetics, the authors identified 3 couples from the 153k genotyped Icelanders where both partners were htz carriers for this SNV. These 3 couples had 10 offspring, 4 of whom deceased but with the same phenotypic features as above (hypotonia 4/4, ID 4/4, seizures 3/4, microcephaly 2/4). Paraffin embedded samples of 2 of these children and WG & Sanger sequencing confirmed hmz for Gly468Glu in 2 sibs, without other candidate variants. Samples of the 2 other individuals were N/A. Through GeneMatcher 2 additional first-cousin patients from Mexico were identified, being hmz for another CPSF3 variant (c.1061T>C/p.Ile354Thr) and having overlapping phenotype of abnormal muscle tone, ID, seizures and microcephaly. There were no other variants in WES analysis. mRNA studies in WBCs from Gly468Glu htz carriers did not reveal reduced levels and W.Blot of lymphocytes from a hmz individual confirmed expression, overall suggesting that the variant does not affect the protein levels but presumably the function. CPSF3 encodes cleavage and polyadenylation specificity factor 3, a 684 aa protein, subunit of the cleavage and polyadenylation specificity factor compex. As discussed, cleavage and polyadenylation of the 3' of pre-mRNAs is necessary before transport out of the nucleus with CPSF playing a crucial role in the process of cleavage. CPSF3 ko mice exhibit embryonic lethality, while in yeast mutations in key residues of the CPSF3 homolog are lethal. In gnomAD, CPSF3 has a pLI of 0, z-score of 3.61 with no homozygotes for pLoF variants in 141k individuals (or ~57k WGS Icelanders). The 2 missense variants concerned highly conserved residues (GERP ~5.8). Both are hypothesized to affect the ability of the protein to bind other factors involved in pre-mRNA cleavage. Overall the authors speculate that not only complete loss of CPSF3 would result in drastic phenotypic effects - as in the murine model - but also variants altering its enzymatic function. There is currently no CPSF3-related phenotype in OMIM, G2P, SysID, The gene is included with green rating in the ID, epilepsy and microcephaly panels in PanelApp Australia. Consider inclusion probably with amber rating (Highly consistent phenotype, biological function, evidence from animal models. 2 identified variants, authors state that follow-up functional studies are needed). Also consider inclusion in other possibly relevant panels. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1518 | NRCAM |
Konstantinos Varvagiannis gene: NRCAM was added gene: NRCAM was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: NRCAM was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: NRCAM were set to 35108495 Phenotypes for gene: NRCAM were set to Hypotonia; Hypertonia; Spasticity; Global developmental delay; Intellectual disability; Microcephaly; Behavioral abnormality; Neuropathy; Hearing abnormality; Abnormality of the eye; Abnormality of the skeletal system; Scoliosis; Abnormality of the face Penetrance for gene: NRCAM were set to Complete Review for gene: NRCAM was set to GREEN Added comment: Kurolap et al (2022 - PMID: 35108495) describe the phenotype of 10 individuals (from 8 families) with biallelic variants in NRCAM. Features included tone abnormalities (hypotonia in 4/10, hypertonia/spasticity in 4/10), DD (8/10 - 7 families) and cognitive impairment (in 7/10 - 6 fam), neuropathy (4/10 - incl. 2 sibs without DD/ID). Other phenotypes incl. FTT (2/8), microcephaly (3/6), variable behavioral issues (3/5), abnormalities from the eyes/vision (6/8 - cataract in 2), abnormal hearing (3/7) or skeletal findings (8/9 - incl. scoliosis in 5). Nonspecific facial features were reported in 5/8. Previous metabolic, genetic (incl. karyotype or CMA, FMR1, testing for Steinert disease or SMA) or other work-up (e.g. muscle biopsy) is reported for several subjects but was normal/non-diagnostic. All were investigated by WES/WGS which revealed biallelic NRCAM variants. Sanger sequencing was used for confirmation and segregation analyses, with compatible results in several affected/unaffected sibs tested. There were no alternative explanations for the NDD phenotype with the exception of one subject with a mosaic functionally characterized LP KRAS variant suspected to contribute to his phenotype. NRCAM encodes neuronal cell adhesion molecule (CAM). CAMs are membrane bound proteins with important role in tissue morphogenesis and maintenance. They mediate interactions between neighboring cells or cells and the extracellular matrix. The L1 subgroup of immunoglobulin CAMS - consisting of L1CAM, neurofascin, NRCAM, CHL1 - is the most abundant in the CNS with several critical functions in CNS development, among others in neural cell differentiation, axonal growth and guidance, myelination, synapse formation. Pathogenic L1CAM (XL) and NFASC variants (AR) are associated with NDD. Different missense (N=7), stopgain/frameshift (N=3), a splice variant (NM_001037132.2:c.2647-2A>G) as well as a deep intronic one (c.230+824G>C / rs575851831). Variants occurred in different domains with a cluster (42%) in the fibronectin III domain. Missense SNVs were ultrarare or not present in gnomAD, occurred in conserved residues, with several in silico predictions in favor of a deleterious effect. Structural modelling suggested that all substitutions occurred at residues exposed to solvent and possible abrogated interaction with other proteins. There were no expression studies performed at the mRNA/protein level. The splice variant is predicted to cause ex22 skipping leading to frameshift. The deep intronic variant is predicted to disrupt a site for spl. regulator SC35 and may cause activation of a cryptic acceptor site with inclusion of a cryptic exon. The zebrafish nrcama gene is the sole ortholog of human NRCAM, with another gene proposed as possible ortholog (nrcamb) mapping upon BLAST analysis to cntn1a. The authors performed CRISPR-Cas9 mutagenesis in zebrafish introducing a partial deletion of ex18 and 19. Mutant zebrafish were viable, displayed altered axonal projections and abnormal swimming behavior (increased movement in darkness). Currently, there is no NRCAM-associated phenotype in OMIM/G2P/SysID. PanelApp Australia includes NRCAM in its ID panel with green rating. Consider inclusion probably with green (>3 individuals/families/variants, segregation, gene in the L1-Ig CAM family causing NDD, zebrafish model) or amber rating (ID not a universal feature, variant effect not studied). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1518 | HEATR3 |
Konstantinos Varvagiannis gene: HEATR3 was added gene: HEATR3 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: HEATR3 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: HEATR3 were set to 35213692 Phenotypes for gene: HEATR3 were set to Anemia; Thrombocytopenia; Growth delay; Short stature; Abnormality of the skeletal system; Abnormality of finger; Abnormality of the thumb; Intellectual disability; Obesity; Abnormality of the face Penetrance for gene: HEATR3 were set to Complete Review for gene: HEATR3 was set to AMBER Added comment: O'Donohue et al (2022 - PMID: 35213692) describe the clinical features of 6 individuals (from 4 unrelated families) with biallelic pathogenic HEATR3 variants. These included bone marrow failure (anemia/anemia and thrombocytopenia at presentation), short stature/growth retardation (4/6), facial features (5/6 - in some: straight eyebrows, d-s palpebral fissures, synophrys) and skeletal findings incl. disproportionately short fingers/thumb anomaly. ID was reported in 4/6 individuals from 3 families (all: mild ID | 2/6 without ID). The phenotype corresponded overall to a variant form Diamond-Blackfan anemia (DBA, disorder caused by variants in genes encoding for ribosomal proteins) with additional features. The 1st family (2 affected sibs and parents) underwent WES, not diagnostic for DBA. Analysis suggested variants in HEATR3 (prioritized due to its potential role in ribosome biogenesis) and 4 additional genes as candidates. Collaboration in the European DBA consortium and national DBA consortia led to identification of additional families. HEATR3 encodes Heat-repeat-containing protein 3 or symportin, a protein that co-imports uL5 (encoded by RPL11) and uL18 (RPL5) in the nucleus where they assemble with 5S rRNA to form 5S RNP. The 5S RNP complex incorporates with maturing large ribosomal subunits to form the central protuberance. When 5S RNP is not incorporated, it accumulates and associates with Hdm2 ubiquitin ligase, the later normally targeting p53 proteasomal degradation. The following missense and splice variants were identified (NM_182922): - c.1751G>Α/p.(Gly584Glu) hmz - c.1337G>A/p.(Cys446Tyr) hmz - c.399+1G>T in trans with c.719C>T/p.(Pro240Leu) - c.400T>C/p.(Cys134Arg) hmz Variants were confirmed with Sanger sequencing. They were dispersed across HEATR3 without clustering although they affect residues either in the ARM (38-320) or HEAT (415-675) repeat domains, at positions evolutionary conserved, with in silico predictions in favor of a deleterious effect. With the exception of Cys134Arg (AF:4.11x10-6/no hmz), all were absent from gnomAD. Studies in yeast suggested that deletions in symportin gene (syo1) lead to a mild growth defect and accumulation of 40S subunits. Similarly, two yeast strains engineered to test for the effect of the p.Gly584Glu (yeast p.Gly522Glu/Ala) exhibited growth defect and ribosomal subunit imbalance, both restored by wt Syo1. HA-tagged HEATR3 in HeLa cells suggested that the co-translational capture mechanism to chaperone uL18 (RPL5) is conserved in human cells but was not observed upon expression of the p.Cys446Tyr variant. While HEATR3 transcription was not affected in LCLs from individuals hmz for Gly584Glu or Cys446Tyr, protein levels were barely detectable, suggesting destabilization of the protein. While uL18 accumulates in cytoplasm and nucleus with expected enrichment in nucleolus, upon siRNA knockdown of HEATR3 in HeLa cells this enrichment was lost. Studies in fibroblasts (Gly584Glu) demonstrated reduced uL18 nuclear staining. Overall, HEATR3 was suggested to be important for nuclear import of uL18 (though not for uL5). LCL studies demonstrated pre-rRNA processing defects in patient cells with accumulation of 32S and 12S pre-rRNAs, the former being reminiscent of accumulations observed in individuals with RPL5- and RPL11-related DBA. Expression of wt HEATR3 restored processing defects. LCLs from affected individuals revealed loss of free 60S subunits (as in yeast) with expression of wt cDNA restoring Nl levels. Western blots of LCLs demonstrated that the levels of uL5, uL18 and p53 were not affected (the latter also observed in RPL5-related DBA) Studies of bone marrow smears from 2 affected individuals allowed to conclude in a strong defect in erythroid cell proliferation. Currently, there is no HEATR3-associated phenotype in OMIM, PanelApp Australia, G2P or the SysID database. Consider inclusion in the ID panel with amber (mild ID in >3 individuals/families/variants although not universal feature) or green rating. Also consider inclusion in other possibly relevant panels eg. for cytopenias/congenital anemias, short stature, etc. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1506 | PDZD8 |
Konstantinos Varvagiannis gene: PDZD8 was added gene: PDZD8 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: PDZD8 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: PDZD8 were set to 35227461 Phenotypes for gene: PDZD8 were set to Global developmental delay; Intellectual disability; Autistic behavior; Behavioral abnormality; Myopathy; Abnormality of the face; Hypertelorism; Seizures; Disproportionate tall stature Penetrance for gene: PDZD8 were set to Complete Review for gene: PDZD8 was set to AMBER Added comment: Al-Amri et al (2022 - PMID: 35227461) describe 4 affected individuals, belonging to 2 independent consanguineous families, harboring biallelic pLoF PDZD8 variants. The phenotype corresponded to a syndromic form of ID with autistic features. Animal models provide additional evidence for a role of the gene. Details are provided concerning 3 affected sibs born to consanguineous parents (Fam-A) and a male proband born to first cousin parents (Fam-B) from different countries of the Arabian Peninsula. Features included DD (4/4), ID (4/4 - moderate to severe), autistic features[*](4/4), other behavioral problems (3/4 - 2 families). Variable facial features were observed (4/4 - incl. hypertelorism 4/4, myopathic face, open mouth, low-set ears, ptosis). 3 sibs presented with myopathy[*](3/4 overall - 1 fam - see below), and marfanoid habitus was observed in 2 (2/4 - 1 fam). 2 sibs had epilepsy (2/4 - from 1 family). 1 individual had congenital heart defect. [* -also to consider for MOI]Autistic features were however observed in a parent and a htz sib. Mild myopathy/reduced facial expression was also observed in both parents. Contribution of another variant - also within the region of shared homozygosity - to the phenotype of myopathy was deemed to be possible within this family. Previous genetic testing was not reported. Homozygosity mapping in the 1st family identified 3 homozygous regions (2.57 - 28 Mb) shared by all affected sibs. Singleton WES revealed 2 candidate variants within these regions, a PDZD8 frameshift variant [NM_173791.5:c.2197_2200del;p.(S733*)] lying in the last exon and an ANKRD2 missense one (discussed above). The proband in Fam-B was hmz for a nonsense variant in ex2 (of 5), namely c.894C>G/p.(Y298*) considered to be the most likely cause of his phenotype following singleton WES. Sanger sequencing was used for validation and segregation studies confirming carrier status of the parents and compatible results in unaffected sibs (tested : 2 in Fam-A, 3 in Fam-B). Both variants were absent from gnomAD (the first also from a pool of 50 control individuals of the same origin) where PDZD8 has a pLI of 1 (5 different pLoF variants, none hmz). Expression was not studied for the 2 variants. As a result, it is not known whether they escape NMD (as could be expected for the variant in the last exon). PDZD8 encodes an endoplasmatic reticulum (ER) transmembrane protein (TM). As the authors discuss, it has been previously shown that depletion of PDZD8 in neurons impairs endosomal homeostasis, decreases proximity of ER-mitochondria and decreases Ca+2 uptake mitochondria following synaptic transmission-induced release from the ER (sev. refs. provided). The gene is highly expressed in the human brain (incl. subclasses of GABAergic / glutamatergic neurons in adult primary motor cortex). The authors analyzed RNA-seq data from the BrainSpan project, demonstrating stable expression in human brain from 8 wks after conception to adulthood. The gene is not expressed in blood. The authors performed in vivo functional studies. Knockdown of the orthologous gene (CG10362) in Drosophila via RNA interference was shown to result in impairment of long-term memory. Mice homozygous for a variant introducing a premature termination codon exhibited restricted growth, brain structural alterations (incl. relative reduction of the CC, as in one subject), spontaneous stereotypies, decreased anxiety-like behavior with deficits in spatial memory and impaired hippocampal neurophysiology. Currently, there is no associated phenotype in OMIM, Gene2Phenotype, SysID or PanelApp Australia. Overall, this gene can be considered for inclusion in the ID panel probably with amber rating pending further reports. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1496 | SPRED2 | Ivone Leong Tag Q1_22_rating tag was added to gene: SPRED2. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1496 | SPRED2 | Ivone Leong Classified gene: SPRED2 as Amber List (moderate evidence) | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1496 | SPRED2 | Ivone Leong Gene: spred2 has been classified as Amber List (Moderate Evidence). | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1496 | SPRED2 | Ivone Leong Classified gene: SPRED2 as Amber List (moderate evidence) | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1496 | SPRED2 | Ivone Leong Gene: spred2 has been classified as Amber List (Moderate Evidence). | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1478 | SPRED2 |
Zornitza Stark gene: SPRED2 was added gene: SPRED2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: SPRED2 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: SPRED2 were set to 34626534 Phenotypes for gene: SPRED2 were set to developmental delay; intellectual disability; cardiac defects; short stature; skeletal anomalies; a typical facial gestalt Review for gene: SPRED2 was set to GREEN gene: SPRED2 was marked as current diagnostic Added comment: PMID: 34626534 Homozygosity for three different variants c.187C>T (p.Arg63∗), c.299T>C (p.Leu100Pro), and c.1142_1143delTT (p.Leu381Hisfs∗95) were identified in four subjects from three families. All variants severely affected protein stability, causing accelerated degradation, and variably perturbed SPRED2 functional behaviour. The clinical phenotype of the four affected individuals included developmental delay, intellectual disability, cardiac defects, short stature, skeletal anomalies, and a typical facial gestalt as major features, without the occurrence of the distinctive skin signs characterizing Legius syndrome. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1478 | OGDHL |
Zornitza Stark gene: OGDHL was added gene: OGDHL was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: OGDHL was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: OGDHL were set to 34800363 Phenotypes for gene: OGDHL were set to Neurodevelopmental disorder featuring epilepsy, hearing loss and visual impairment Review for gene: OGDHL was set to GREEN Added comment: Nine individuals from eight unrelated families carrying bi-allelic variants in OGDHL with a range of neurological and neurodevelopmental phenotypes including epilepsy, hearing loss, visual impairment, gait ataxia, microcephaly, and hypoplastic corpus callosum. Homozygous and compound heterozygous variants reported. Variant types reported include missense, PTCs and a synonymous variant that was shown to affect splicing. Functional studies with a CRISPR-Cas9-mediated tissue knockout with cDNA rescue system showed that the missense variants result in loss-of-function. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.1406 | SPRY3 | Ivone Leong Tag Pseudoautosomal region 2 tag was added to gene: SPRY3. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.1242 | L1CAM | Arina Puzriakova Phenotypes for gene: L1CAM were changed from Hydrocephalus due to aqueductal stenosis, 307000MASA syndrome, 303350CRASH syndrome, 303350Hydrocephalus with Hirschsprung disease, 307000Hydrocephalus with congenital idiopathic intestinal pseudoobstruction, 307000Corpus callosum, partial agenesis of, 304100; MENTAL RETARDATION-APHASIA-SHUFFLING GAIT-ADDUCTED THUMBS SYNDROME (MASA) to Corpus callosum, partial agenesis of, OMIM:304100; CRASH syndrome, OMIM:303350; MASA syndrome, OMIM:303350; Hydrocephalus due to aqueductal stenosis, OMIM:307000; Hydrocephalus with congential idiopathic intestinal pseudoobstruction, OMIM:307000; Hydrocephalus with Hirschsprung disease, OMIM:307000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.694 | RNU7-1 |
Zornitza Stark gene: RNU7-1 was added gene: RNU7-1 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: RNU7-1 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: RNU7-1 were set to 33230297 Phenotypes for gene: RNU7-1 were set to Aicardi–Goutières syndrome-like Review for gene: RNU7-1 was set to GREEN gene: RNU7-1 was marked as current diagnostic Added comment: Review originally submitted by Ming Wong - 16 affected individuals from 11 families - Compared to control fibroblasts, patient fibroblasts were enriched for misprocessed forms of replication-dependent histone (RDH) mRNAs Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.568 | DNMT3A | Sarah Leigh Phenotypes for gene: DNMT3A were changed from OVERGROWTH SYNDROME WITH INTELLECTUAL DISABILITY to Tatton-Brown-Rahman syndrome OMIM:615879; Heyn-Sproul-Jackson syndrome OMIM:618724; MONDO:0032882 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.567 | DNMT3A | Sarah Leigh Added comment: Comment on mode of pathogenicity: Tatton-Brown-Rahman syndrome 615879 is associated with loss of function variants and Heyn-Sproul-Jackson syndrome OMIM:618724 is associated with gain of function variants. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v3.500 | PRKAR1B |
Konstantinos Varvagiannis gene: PRKAR1B was added gene: PRKAR1B was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: PRKAR1B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: PRKAR1B were set to https://doi.org/10.1101/2020.09.10.20190314; 25414040 Phenotypes for gene: PRKAR1B were set to Global developmental delay; Intellectual disability; Autism; Attention deficit hyperactivity disorder; Aggressive behavior; Abnormality of movement; Upslanted palpebral fissure Penetrance for gene: PRKAR1B were set to unknown Review for gene: PRKAR1B was set to AMBER Added comment: Please consider inclusion of this gene with amber rating pending publication of the preprint and/or additional evidence. Marbach et al. (2020 - medRxiv : https://doi.org/10.1101/2020.09.10.20190314 - last author : C. Schaaf) report 6 unrelated individuals with heterozygous missense PRKAR1B variants. All presented formal ASD diagnosis (6/6), global developmental delay (6/6) and intellectual disability (all - formal evaluations were lacking though). Additional features included neurologic anomalies (movement disorders : dyspraxia, apraxia, clumsiness in all, with tremor/dystonia or involuntary movements as single occurrences). Three displayed high pain tolerance. Regression in speech was a feature in two. Additional behavior anomalies included ADHD (4-5/6) or aggression (3/6). There was no consistent pattern of malformations, physical anomalies or facial features (with the exception of uplsanted palpebral fissures reported in 4). 3 different missense variants were identified (NM_00116470:c.1003C>T - p.Arg335Trp, c.586G>A - p.Glu196Lys, c.500_501delAAinsTT - p.Gln167Leu) with Arg355Trp being a recurrent one within this cohort (4/6 subjects). A possible splicing effect may apply for the MNV. All variants are absent from gnomAD and the SNVs had CADD scores > 24. In all cases were parental samples were available (5/6), the variant had occurred as a de novo event. Protein kinase A (PKA) is a tetrameric holoenzyme formed by the association of 2 catalytic (C) subunits with a regulatory (R) subunit dimer. Activation of PKA is achieved through binding of 2 cAMP molecules to each R-subunit, and unleashing(/dissociation) of C-subunits to engage substrates. PRKACA/B genes encode the Cα- and Cβ-subunits while the 4 functionally non-redundant regulatory subunits are encoded by PRKAR1A/1B/2A/2B genes. As the authors comment, the RIβ subunit is primarily expressed in brain with higher expression in cortex and hypothalamus. The functional consequences of the variants at cellular level were not studied. Previous studies have demonstrated that downregulation of RIβ in murine hippocampal cultures, reduced phosphorylation of CREB, a transcription factor involved in long-term memory formation. The authors speculate that a similar effect on cAMP/PKA/CREB cascade may mediate the cognitive effects in humans. RIβ deficient mice also display diminished nociceptive pain, similar to the human phenotype. [Several refs provided]. The authors cite the study by Kaplanis et al (2020 - PMID: 33057194), where in a large sample of 31,058 trio exomes of children with developmental disorders, PRKAR1B was among the genes with significant enrichment for de novo missense variants. [The gene has a pLI score of 0.18 in gnomAD / o/e = 0.26 - so pLoF variants may not be deleterious]. Please note that a specific PRKAR1B variant (NM_002735.2:c.149T>G - p.Leu50Arg) has been previous reported to segregate with a late-onset neurodegenerative disorder characterized by dementia and/or parkinsonism within a large pedigree with 12 affected individuals [Wong et al 2014 - PMID: 25414040]. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.484 | PRKACB |
Konstantinos Varvagiannis gene: PRKACB was added gene: PRKACB was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: PRKACB was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: PRKACB were set to 33058759 Phenotypes for gene: PRKACB were set to Postaxial hand polydactyly; Postaxial foot polydactyly; Common atrium; Atrioventricular canal defect; Narrow chest; Abnormality of the teeth; Intellectual disability Penetrance for gene: PRKACB were set to unknown Mode of pathogenicity for gene: PRKACB was set to Loss-of-function variants (as defined in pop up message) DO NOT cause this phenotype - please provide details in the comments Review for gene: PRKACB was set to AMBER Added comment: ID was a feature in 2/4 individuals with PRKACB pathogenic variant reported to date. Please consider inclusion of PRKACB (and PRKACA) in other relevant gene panels e.g. for polydactyly, congenital heart defects. The disorder may be considered in the DD of ciliopathies. ----- Palencia-Campos et al (2020 - PMID: 33058759) report on the phenotype of 3 individuals heterozygous for PRKACA and 4 individuals heterozygous for PRKACB pathogenic variants. The most characteristic features in all individuals with PRKACA/PRKACB mutation, included postaxial polydactyly of hands (6/7 bilateral, 1/7 unilateral) and feet (4/7 bilateral, 1/7 unilateral), brachydactyly and congenital heart defects (CHD 5/7) namely a common atrium or AVSD. Two individuals with PRKACA variant who did not have CHD had offspring with the same variant and an AVSD. Other variably occurring features included short stature, limbs, narrow chest, abnormal teeth, oral frenula, nail dysplasia. One individual with PRKACB variant presented tumors. Intellectual disability was reported in 2/4 individuals with PRKACB variant (1/4: mild, 1/4: severe). The 3 individuals with PRKACA variant did not present ID. As the phenotype was overall suggestive of Ellis-van Creveld syndrome (or the allelic Weyers acrofacial dysostosis), although these diagnoses were ruled out following analysis of EVC and EVC2 genes. WES was carried out in all. PRKACA : A single heterozygous missense variant was identified in 3 individuals from 3 families (NM_002730.4:c.409G>A / p.Gly137Arg) with 1 of the probands harboring the variant in mosaic state (28% of reads) and having 2 similarly affected offspring. The variant was de novo in one individual and inherited in a third one having a similarly affected fetus (narrow thorax, postaxial polyd, AVSD). PRKACB : 4 different variants were identified (NM_002731.3: p.His88Arg/Asn, p.Gly235Arg, c.161C>T - p.Ser54Leu). One of the individuals was mosaic for the latter variant, while in all other cases the variant had occurred de novo. Protein kinase A (PKA) is a tetrameric holoenzyme formed by the association of 2 catalytic (C) subunits with a regulatory (R) subunit dimer. Activation of PKA is achieved through binding of 2 cAMP molecules to each R-subunit, and unleashing(/dissociation) of C-subunits to engage substrates. PRKACA/B genes encode the Cα- and Cβ-subunits while the 4 functionally non-redundant regulatory subunits are encoded by PRKAR1A/1B/2A/2B genes. The authors provide evidence that the variants confer increased sensitivity of PKA holoenzymes to activation by cAMP (compared to wt). By performing ectopic expression of wt or mt PRKACA/B (variants studied : PRKACA p.Gly137Arg / PRKACB p.Gly235Arg) in NIH 3T3 fibroblasts, the authors demonstrate that inhibition of hedgehog signaling likely underlyies the developmental defects observed in affected individuals. As for PRKACA, the authors cite another study where a 31-month old female with EvC syndrome diagnosis was found to harbor the aforementioned variant (NM_001304349.1:c.637G>A:p.Gly213Arg corresponding to NM_002730.4:c.409G>A / p.Gly137Arg) as a de novo event. Without additional evidence at the time, the variant was considered to be a candidate for this subject's phenotype (Monies et al 2019 – PMID: 31130284). Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.262 | LMBRD2 |
Konstantinos Varvagiannis gene: LMBRD2 was added gene: LMBRD2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: LMBRD2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: LMBRD2 were set to 32820033; https://doi.org/10.1101/797787 Phenotypes for gene: LMBRD2 were set to Global developmental delay; Intellectual disability; Microcephaly; Seizures; Abnormality of nervous system morphology; Abnormality of the eye Penetrance for gene: LMBRD2 were set to unknown Review for gene: LMBRD2 was set to AMBER Added comment: You may consider inclusion with green (13 individuals with dn missense SNVs overall, overlapping features for 10 with available phenotype / a recurring variant has been identified in 2 different studies) or amber rating (role of the gene not known, no variant studies, animal model probably not available). ► Malhotra et al (2020 - PMID: 32820033) report on 10 unrelated individuals with de novo missense LMBRD2 variants. Features included DD (9/10), ID (6/8 of relevant age), microcephaly (7/10), seizures (5/10 - >=3 different variants), structural brain abnormalities (e.g. thin CC in 6/9), highly variable ocular abnormalities (5/10) and dysmorphic features in some (7/10 - nonspecific). All had variable prior non-diagnostic genetic tests (CMA, gene panel, mendeliome, karyotype). WES/WGS revealed LMBRD2 missense variants, in all cases de novo. A single individual had additional variants with weaker evidence of pathogenicity. 5 unique missense SNVs and 2 recurrent ones (NM_001007527:c.367T>C - p.Trp123Arg / c.1448G>A - p.Arg483His) were identified. These occurred in different exons. Variants were not present in gnomAD and all had several in silico predictions in favor of a deleterious effect. There was phenotypic variability among individuals with the same variant (e.g. seizures in 1/3 and microchephaly in 2/3 of those harboring R483H). The gene has a pLI of 0 (although o/e ranges from 0.23 to 0.55), %HI of 15.13 and z-score of 2.27. The authors presume that haploinsufficiency may not apply, and consider a gain-of-function/dominant-negative effect more likely. As the authors comment LMBRD2 (LMBR1 domain containing 2) encodes a membrane bound protein with poorly described function. It is widely expressed across tissues with notable expression in human brain (also in Drosophila, or Xenopus laevis). It displays high interspecies conservation. It has been suggested (Paek et al - PMID: 28388415) that LMBRD2 is a potential regulator of β2 adrenoreceptor signalling through involvement in GPCR signalling. ► Kaplanis et al (2020 - https://doi.org/10.1101/797787) in a dataset of 31058 parent-offspring trios (WES) previously identified 3 individuals with developmental disorder, harboring c.1448G>A - p.Arg483His. These individuals (1 from the DDD study, and 2 GeneDx patients) appear in Decipher. [ https://decipher.sanger.ac.uk/ddd/research-variant/40e17c78cc9655a6721006fc1e0c98db/overview ]. The preprint by Kaplanis et al is cited by Malhotra et al, with Arg483His reported in 6 patients overall in both studies. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.170 | TBC1D2B |
Konstantinos Varvagiannis gene: TBC1D2B was added gene: TBC1D2B was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: TBC1D2B was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: TBC1D2B were set to 32623794 Phenotypes for gene: TBC1D2B were set to Global developmental delay; Intellectual disability; Seizures; Gingival overgrowth; Behavioral abnormality; Abnormality of the mandible; Abnormality of brain morphology; Abnormality of the eye; Hearing abnormality Penetrance for gene: TBC1D2B were set to Complete Review for gene: TBC1D2B was set to AMBER Added comment: Harms et al (2020 - PMID: 32623794) report on 3 unrelated individuals with biallelic pLoF TBC1D2B variants. Features included cognitive impairment (mild ID in one case, regression at the age of 12y in another, hypotonia and delayed milestones in a third aged 8m), seizures (3/3 - variable age of onset) and/or gingival overgrowth (2/3 - prior to initiation of AEDs). Other findings included behavioral abnormalities, mandibular anomalies, abnormal brain imaging and ophthalmologic or (rarely) audiometric evaluations. All were born to non-consanguineous couples and additional investigations were performed in some. Variants were identified by WES or trio WGS, with Sanger confirmation/compatible segregation analyses. In line with the pLoF variants, mRNA studies in fibroblasts from 2 unrelated affected individuals demonstrated significantly reduced (~80-90%) TBC1C2D mRNA levels compared to controls, restored following cycloheximide treatment. Protein was absent in patient fibroblasts. TBC-domain containing GTPase activating proteins are known as key regulators of RAB GTPase activity. TBC1D2B was shown to colocalize with RAB5-positive endocytic vesicles. CRISPR/Cas9-mediated ko of TBC1D2B in HeLa cells suggested a role in EGF receptor endocytosis and decreased cell viability of TBC1D2B-deficient HeLa cells upon serum deprivation. Genes encoding other TBC domain-containg GTPase-activating proteins, e.g. TBC1D7 and TBC1D20, TBC1D24 are associated with recessive neurodevelopmental disorders (with ID and/or seizures) and the pathophysiological defect in TBC1D2B-related disorder (deficit in vesicle trafficking and/or cell survival) is proposed to be similar to that of TBC1D24. Overall this gene can be considered for inclusion with amber/green rating in the ID panel and green in epilepsy panel. Sources: Literature |
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| Intellectual disability - microarray and sequencing v3.0 | UGP2 |
Konstantinos Varvagiannis gene: UGP2 was added gene: UGP2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: UGP2 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: UGP2 were set to 31820119 Phenotypes for gene: UGP2 were set to Seizures; Global developmental delay; Intellectual disability; Feeding difficulties; Abnormality of vision; Abnormality of the face Penetrance for gene: UGP2 were set to Complete Review for gene: UGP2 was set to GREEN Added comment: Perenthaler et al. (2019 - PMID: 31820119) provide evidence that homozygosity for a variant abolishing the start codon of the UGP2 transcript (NM_001001521.1) encoding the predominant (short) protein isoform in brain, leads to a severe epileptic encephalopathy. This variant (chr2:64083454A>G / NM_001001521.1:c.1A>G - p.?) is also predicted to result in a substitution of a methionine at position 12 by a valine of the longer UGP2 transcript (NM_006759.3:c.34A>G - p.Met12Val). The 2 isoforms differ only by 11 amino acids at the N-terminal and are otherwise expected to be functionally equivalent. The authors provide details on 22 individuals from 15 families (some of which consanguineous). Features included intractable seizures (in all), absence of developmental milestones (in all), progressive microcephaly, visual impairment. The authors reported also presence of somewhat similar facial features. Some of these individuals passed away early. Previous work-up in several of them (incl. SNP-array, gene panel testing and metabolic investigations) had not revealed any abnormality, apart from ROH in some individuals. In all cases, the homozygous UGP2 SNV was the only P/LP variant for the neurodevelopmental phenotype following exome/genome sequencing. Segregation studies in affected/unaffected family members were compatible. Families came from the Netherlands (but mostly from) India, Pakistan and Iran. Presence of a region of homozygosity shared between individuals from different families suggested that the variant might represent a mutation that originated several generations ago (in the area of Balochistan). The variant is present 15x in gnomAD, only in heterozygous state (in Asian mostly, reported once in Ashkenazi Jewish or Europeans) [ https://gnomad.broadinstitute.org/variant/2-64083454-A-G ]. UGP2 encodes UDP-glucose pyrophosphorylase which is an essential enzyme in sugar metabolism, catalyzing conversion of glucose-1-phosphate to UDP-glucose. UDP-glucose, in turn, serves as precursor for production of glycogen by glycogen synthase. The authors provide several lines of evidence for a the role of the gene in the CNS as well as for the deleterious effect of the specific variant : - In patient fibroblasts total UGP2 levels were not signifficantly different compared to parent / control fibroblasts, the longer isoform being upregulated (and stable) when the shorter is missing. Immunocytochemistry demonstrated similar localization of UGP2 in the case of mutant or wt cells. Enzymatic activity (/capacity to produce UDP-glucose) was similar between homozygous mut, heterozygous and wt fibroblasts. - In H9-derived neural stem cells, Western Blot, RT-PCR and qRT-PCR suggested that the short isoform is the predominant one. (In embryonic stem cells, or fibroblasts the ratio between short and long isoform was lower). - Analysis of RNA-seq data from human fetal tissues suggested that the short isoform is the predominant in brain. - UGP2 was detected upon immunohistochemistry in fetal brain tissues from first to third trimester of pregnancy while Western Blot confirmed preferential expression of the shorter isoform. - Homozygous embryonic (ESC) or neural stem cells (NSC) for the variant (knock-in/KI) or for a frameshift variant (knock-out/KO) were generated. Study of NSCs demonstrated reduced total UGP2 protein expression upon Western Blot in the case of KI cells and depleted in KO ones. Transcriptome analysis did not show major transcriptome alterations in KI/KO ESCs compared to wt. In NSC KI/KO cells transcriptome alterations were observed compared to wt with upregulation among others of genes for synaptic processes and genes implicated in epilepsy. - The absence of UGP2 was shown to result in reduced ability of KO/KI NSCs to produce UDP-glucose, reduced capacity to synthesize glycogen under hypoxia (rescued in the case of KO cells by overexpression of wt or long isoform), defects of protein glycosylation as well as in increased unfolded protein response (/susceptibility to ER stress). These alterations are commented to be possibly implicated in pathogenesis of epilepsy, progressive microcephaly, etc. - A CRISPR-Cas9 zebrafish model leading with loss of ugp2a and hypomorphic ugp2b (the zebrafish homologs of UGP2) demonstrated abnormal behavior, reduced eye movements and increased frequency/duration of movements upon stimulation with a potent convulsant (suggestive of increased seizure susceptibility). - UGP knockout in drosophila is lethal while flies compound heterozygous for hypomorphic alleles are viable but show a movement defects due to altered synaptogenesis secondary to glycosylation defects (cited PMID: 27466186). - The authors make speculations as for the occurrence of a single variant (and not others) eg. absence of UGP2 (in the case of LoF variants affecting both isoforms) would possibly be incompatible with life, Met12Val being tolerable for the long transcript not affecting stability/enzymatic activity (which may not be the case for other substitutions affecting Met12), etc. Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.1106 | SPRY3 | Eleanor Williams Mode of inheritance for gene: SPRY3 was changed from X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males) to Unknown | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v2.1098 | PCYT2 |
Konstantinos Varvagiannis gene: PCYT2 was added gene: PCYT2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: PCYT2 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: PCYT2 were set to 31637422 Phenotypes for gene: PCYT2 were set to Global developmental delay; Developmental regression; Intellectual disability; Spastic paraparesis; Seizures; Spastic tetraparesis; Cerebral atrophy; Cerebellar atrophy Penetrance for gene: PCYT2 were set to Complete Review for gene: PCYT2 was set to GREEN Added comment: Vaz et al. (2019 - PMID: 31637422 - DDD study among the co-authors) report on 5 individuals - from 4 families - with biallelic PCYT2 mutations. The phenotype corresponded to a complex hererditary paraplegia with global DD, regression (4/5), ID (mild in 3/5, severe in 2/5), spastic para-/tetraparesis, epilepsy (5/5 - variable onset 2-16 yrs - focal or tonic-clonic seizures) and progressive cerebral and cerebellar atrophy. Exome sequencing in all revealed biallelic PCYT2 variants, confirmed with Sanger s. in probands and their parents (NM_001184917.2 - corresponding to the canonical transcript used as Ref below): - P1 (Fam1) : 2 missense SNVs in trans configuration, c.730C>T or p.His244Tyr and c.920C>T or p.Pro307Leu - P2 (Fam2 - consanguineous of White British origin), P3 (Fam3 - Consanguineous of Turkish origin), P4,5 (Fam4 - consanguineous, unspecified origin) : homozygosity for c.1129C>T or p.Arg377Ter) affecting the last exon of 8/12 transcripts, including the canonical one. Individuals with the same genotype displayed variable degrees of ID (eg P3 - severe / P2, P4,5 - mild ID). For sibs in Fam4, homozygosity for a missense SACS variant led to consideration of the respective disorder (AR spastic ataxia of Charlevoix-Saguenay) though the variant was predicted to be tolerated in silico and notably the MRI images not suggestive. All variants were absent from / had extremely low AF in public databases, with no homozygotes. Posphatidylethanolamine (PE) is a membrane lipid, particularly enriched in human brain (45% of phospholypid fraction). PE is synthesized either via the CDP-ethanolamine pathway or by decarboxylation of phosphatidylserine in mitochondria. PCYT2 encodes CTP:phosophoethanolamine cytidyltransferase (ET) which is an ubiquitously expressed rate-limiting enzyme for PE biosynthesis in the former pathway. In silico, the 2 missense variants - localizing in the CTP catalytic domain 2 - were predicted to be damaging, as well as to affect protein stability. Fibroblasts of 3 patients (P1, P2, P3) representing all variants were studied: - Enzymatic activity was shown to be significantly reduced (though not absent) compared to controls. Abnormalities were noted upon Western Blot incl. absence in all 3 patients studied of one of the 2 bands normally found in controls (probably representing the longer isoform), reduced intensity in all 3 of another band probably corresponding to a shorter isoform, and presence of an additional band of intermediate molec. mass in patients with the truncating variant. - RT-PCR on mRNA from patient fibroblasts did not reveal (significant) reduction compared to controls. - Lipidomic profile of patient fibroblasts was compatible with the location of the block in the phospholipid biosynthesis pathway and different from controls. The lipidomic profile had similarities with what has been reported for EPT1 deficiency, the enzyme directly downstream of ET. The SELENO1-related phenotype (/EPT1 deficiency) is also highly overlapping. CRISPR-Cas9 was used to generate pcyt2 partial or complete knockout (ko) zebrafish, targeting either the final (ex13) or another exon (ex3) respectively. mRNA expression was shown to be moderately reduced in the first case and severely reduced/absent in the second, compared to wt. Similarly, complete-ko (ex3) led to significantly lower survival, with impaired though somewhat better survival of partial-ko (ex13) zebrafish. Complete knockout of Pcyt2 in mice is embryonically lethal (PMID cited: 17325045) while heterozygous mice develop features of metabolic syndrome (PMID cited: 22764088). Given lethality in knockout zebrafish / mice and the residual activity (15-20%) in patient fibroblasts, the variants reported were thought to be hypomorphic and complete loss of function possibly incompatible with life. PCYT2 is not associated with any phenotype in OMIM/G2P/SysID and not commonly included in gene panels for ID. As a result this gene could included in the ID / epilepsy panels with green (~/>3 indiv/fam/variants with the nonsense found in different populations, consistent phenotype, lipidomics, in silico/in vitro/in vivo evidence) or amber rating. [Please consider inclusion in other possibly relevant panels eg. for metabolic disorders, etc]. Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.1062 | TDP2 |
Konstantinos Varvagiannis gene: TDP2 was added gene: TDP2 was added to Intellectual disability. Sources: Literature,Radboud University Medical Center, Nijmegen Mode of inheritance for gene: TDP2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted Publications for gene: TDP2 were set to 24658003; 30109272; 31410782 Phenotypes for gene: TDP2 were set to Spinocerebellar ataxia, autosomal recessive 23, 616949) Penetrance for gene: TDP2 were set to unknown Review for gene: TDP2 was set to GREEN gene: TDP2 was marked as current diagnostic Added comment: Biallelic pathogenic TGP2 variants cause Spinocerebellar ataxia, autosomal recessive 23 (MIM 616949). At least 6 affected individuals from 4 families have been reported, in all cases homozygous for LoF variants (3 different). ID, epilepsy and ataxia are consistent features of the disorder. TDP2 encodes a phosphodiesterase that is required for efficient repair of double strand breaks (DSBs) produced by abortive topoisomerase II (TOP2) activity. The gene is expressed in fetal and adult human brain. Evidence at the variant level (mRNA, protein levels) and additional studies for impairment of TOP2-induced DSB repair support a role. Animal models (primarily mice) reproduce the DSB repair defect, provide some histopathological evidence, show transcriptional dysregulation of genes (in line with the role of TOP2 in transcription). They have however failed to reproduce relevant neurological phenotypes. Published studies are summarized below. TDP2 is included in gene panels for ID offered by some diagnostic laboratories (incl. Radboudumc and GeneDx). There is no associated phenotype in G2P. TDP2 is listed among the current primary ID genes in SysID. Overall, this gene could be considered for inclusion in the ID and epilepsy panels probably as green (>=3 patients/families/variants, relevant ID and seizures in all, expression in brain, mRNA/protein levels tested, impaired activity) or amber (absence of neurological phenotypes in mouse model). ------------ [1] - PMID: 24658003 (Gómez-Herreros et al. 2014): Reports 3 individuals from a consanguineous Irish family. Features included seizures (onset by 2m, 6m and 12y), ID (3/3) and ataxia (3/3). A splicing variant (NM_016614.3:c.425+1G>A) was found in a 9.08-Mb region of homozygosity shared by all. A further ZNF193 missense variant localizing in the same region was thought unlikely to contribute to the phenotype (evidence also provided in subsequent study). The effect of the specific variant was proven by abnormal mRNA size, lower mRNA levels due to NMD (corrected upon cyclohexamide treatment), loss of TDP2 protein upon WB, loss of protein activity in lymphoblastoid cells from affected individuals, decreased repair of DSBs and increased cell death upon addition of etoposide (which promotes TOP2 abortive activity). The authors report very briefly on a further patient (from Egypt), with ID, 'reports of fits' and ataxia. This individual, with also affected sibs, was homozygous LoF (c.413_414delinsAA / p.Ser138*). Again, the authors were not able to detect TDP2 activity in blood from this subject. As also commented: - TDP2 has relevant expression in human (particularly adult) brain. - Mouse model : Tdp2 is expressed in relevant tissues, absence of Tdp2 activity was observed in neural tissue of mice homoyzgous for an ex1-3 del, with impairment of DSB repair. The authors were unable to detect a neurological phenotype with behavioral analyses, preliminary assesment of seizure propensity. Mice did not show developmental defects. Histopathology however, revealed ~25% reduction in the density of interneurons in cerebellum (a 'hallmark of DSB repair' and associated with seizures and ataxia). Transcription of several genes was shown to be disregulated. - Knockdown in zebrafish appears to affect left-right axis detremination (cited PMID: 18039968). [2] - PMID: 30109272 (Zagnoli-Vieira et al. 2018): A 6 y.o. male with seizures (onset by 5m), hypotonia, DD and ID, microcephaly and some additional clinical features and testing (ETC studies on muscle biopsy, +lactate, +(lactate/pyruvate) ratio) which could be suggestive of mitochondrial disorder. This individual from the US was homozygous for the c.425+1G>A variant but lacked the ZNF193 one (despite a shared haplotype with the Irish patients). Again absence of the protein was shown upon WB in patient fibroblasts, also supported by its activity. Complementation studies restored the DSB repair defect. The defect was specific to TOP2-induced DSBs as suggested by hypersensitivity to etoposide but not to ionizing radiation. CRISPR/Cas9 generated mutant human A549 cells demonstrated abnormal DSB repair. Fibroblasts / edited A549 cells failed to show mitochondrial defects (which were noted in muscle). [3] - PMID: 31410782 (Ciaccio et al. 2019): A girl born to consanguineous Italian parents, presented with moderate/severe ID, seizures (onset at 12y) and - among others - gait ataxia, tremor and dysmetria. MRI at the age of 12, demonstrated cerebellar atrophy (although previous exams were N). WES revealed a homozygous nonsense variant (c.400C>T / p.Arg134Ter) for which each parent was found to be carrier. Previous investigations included aCGH, NGS testing for epilepsy and metabolic testing. Sources: Literature, Radboud University Medical Center, Nijmegen |
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| Intellectual disability - microarray and sequencing v2.1047 | METTL5 |
Konstantinos Varvagiannis gene: METTL5 was added gene: METTL5 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: METTL5 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: METTL5 were set to 29302074; http://doi.org/10.1016/j.ajhg.2019.09.007; https://imgc2019.sciencesconf.org/data/abstract_book_complete.pdf Phenotypes for gene: METTL5 were set to Delayed speech and language development; Intellectual disability; Microcephaly; Behavioral abnormality Penetrance for gene: METTL5 were set to Complete Review for gene: METTL5 was set to GREEN Added comment: [1] - PMID: 29302074 : In a WES/WGS study of 404 consanguineous families with two or more offspring affected by ID, Hu et al. identified two sibs homozygous for a METTL5 missense variant [NM_014168:c.182G>A / p.Gly61Asp]. These 2 subjects, born to first cousin parents from Iran, presented with early learning impairment, aggressive behaviour, severe microcephaly (-7SD and -8SD) and ID formally evaluated to be in the severe range. Sanger confirmation of variants and segregation studies were performed for all available and informative members in families participating in the study. In silico predictions were all in favour of a deleterious effect (PolyPhen2, MutationTaster, SIFT, CADD) and the variant was absent from ExAC. The effect of the specific variant was studied in ref. 2 (below). [2] - DOI: 10.1016/j.ajhg.2019.09.007 : Richard et al. (2019) reported on 5 additional individuals from 2 consanguineous families. Common phenotype consisted of speech delay, moderate/severe ID (4/4), microcephaly (4/4 - though milder than in the first report), behavioral problems (ADHD, aggressiveness, autistic feat.) and possibly some overlapping facial features (nose and ear abnormalities). 3 sibs from the 1st family, from Pakistan, were homozygous for a frameshift variant (NM_014167.2:c.344_345delGA / p.Arg115Asnfs*19) while sibs from the 2nd family, from Yemen, were homozygous for p.Lys191Valfs*1 (c.571_572delAA). Confirmation and segregation studies supported a role for the variants. The authors performed additional studies for METTL5 and all 3 variants reported to date, notably: - Based on RNA-seq data from the Allen Brain Atlas, METTL5 is expressed in the developing and adult human brain (incl. cerebellar cortex, hippocampus and striatum). - Immunostaining in mouse brain demonstrated ubiquitous expression (postnatal day 30). - In rat hippocampal neurons, enrichment of METTL5 was found in the soma, the nucleus and pre- and post- synaptic regions. - Myc-/GFP-tagged METTL5 wt or mutants were transiently expressed in COS7 cells, and were found in the cytoplasm and nucleus. Levels of the 2 frameshift variants were significantly reduced compared with wt, although this was not the case for Gly61Asp. - Upon transfection of rat hippocampal neurons, METTL5-GFP tagged wt and mt proteins showed similar localicalization in nucleus and dendrites. - Western blot on HEK293T cells transfected with Myc-METTL5 wt or mt constructs demonstrated decreased amounts for the frameshift (but not the missense) variants while comparison after addition of a proteasome inhibitor or cyclohexamide suggested that this is not probably due to decreased mutant protein - rather than mRNA (NMD) - stability. - In zebrafish, morpholino knockdown of mettl5 led to reduced head size and head/body ratio (reproducing the microcephaly phenotype) and curved tails. Forebrain and midbrain sizes were also significantly reduced. Based on the ACMG criteria, Gly61Asp is classified as VUS (PM2, PP1, PP3) and the frameshift ones as pathogenic (PS3, PM2, PM4, PP1, PP3). The authors comment that METTL5 is an uncharacterized member of the methyltransferase superfamily (of 33 METTL proteins). Variants in other methyltransferase-like genes (mainly METTL23) have been associated with ID, while various histone-/DNA-/tRNA-/rRNA- methyltransferases such as EHMT1, DNMT3A, NSUN2, FTSJ1, etc have been implicated in ID. Given the role of methyltransferases in neurodevelopment and neuroplasticity, homology comparisons suggesting presence of relevant domain in METTL5 and accumulation of the protein in the nucleus, a role as epigenetic regulator is proposed (see also ref. 3). [3] - Conference abstract by Helmut et al. ["A novel m6A RNA methyltransferase in mammals - characterization of Mettl5 mutant mice in the German Mouse Clinic" - Oral presentation in the 33rd International Mammalian Genome Conference Sept. 2019 - available at : https://imgc2019.sciencesconf.org/data/abstract_book_complete.pdf ] The group using an in vitro methyltransferase assay, identified METTL5 as a m6A RNA methyltransferase. Generation of Mettl5-knockout mice using the CRISPR/Cas technology, suggested that homozygous mice are subviable, with lower body mass and abnormal growth of nasal bones in half. Homozygous mice were hypoactive and hypoexploratory during an open field test at the age of 8 weeks, while further alterations were observed in neurological functions. Phenotypic deviations were absent or very mild in heterozygous animals. As a result, the mouse model appeared to recapitulate relevant human phenotypes (microcephaly, ID and growth retardation). ---- There is no associated entry in OMIM (neither for the gene nor for a related disorder). G2P does not list any phenotype for this gene, either. METTL5 is included in the SysID database as a current primary ID gene (cited: 27457812, 28097321 / Given the shared co-authors with the study by Richard et al. as well as the overlapping variants, these articles probably report on the same individuals recently described in more detail). The gene is included in gene panels for ID offered by some diagnostic laboratories (eg. GeneDx). ---- Overall, METTL5 could be considered for inclusion in the ID panel probably as green (3 families, 3 variants, segregation, suggested role of the gene, relevant expression patterns, some evidence at the variant-level, zebrafish and mouse models) or amber (underlying effect of Gly61Asp unknown and variant classified as VUS). Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.1046 | TIMM50 |
Konstantinos Varvagiannis gene: TIMM50 was added gene: TIMM50 was added to Intellectual disability. Sources: Literature,Radboud University Medical Center, Nijmegen Mode of inheritance for gene: TIMM50 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: TIMM50 were set to 27573165; 30190335; 31058414; Serajee et al. (ASHG conference 2015 - abstract Nr. 2299T) Phenotypes for gene: TIMM50 were set to 3-methylglutaconic aciduria, type IX (MIM 617698) Penetrance for gene: TIMM50 were set to Complete Review for gene: TIMM50 was set to GREEN gene: TIMM50 was marked as current diagnostic Added comment: Biallelic pathogenic TIMM50 variants cause 3-methylglutaconic aciduria, type IX (MIM 617698). At least 9 affected individuals from 5 unrelated (but often consanguineous) families of variable origin have been reported (based on a conference abstract and PMIDs : 27573165, 30190335, 31058414). TIMM50 encodes encodes a subunit of the mitochondrial presequence import machinery called the TIM23 complex. TIMM50 serves as a major receptor in the intermembrane space that binds to proteins on their way to cross the mitochondrial inner membrane (summary by Shahrour et al., 2017 and OMIM). The highly overlapping patient clinical features [seizures, DD and ID - the latter in all age-appropriate individuals (5 from 3 families - refs 2,4)], metabolic investigations (lactate elevations in many, elevated urinary 3MGA in almost all, variable mitochondrial complex deficiencies in some), additional extensive functional evidence of mitochondrial dysfunction or the similar phenotypes in other types of 3-methylglutaconic aciduria all support a role for the gene. [AUH- / CLPB- / DNAJC19- / HTRA2- / OPA3- / SERAC1-related methylglutaconic acidurias are all included as relevant disorders in the ID panel, with the respective genes rated green.] TIMM50 is included in gene panels for ID offered by some diagnostic laboratories (incl. Radboudumc and GeneDx). The gene is not associated with any phenotype in G2P As a result this gene could be considered for inclusion/upgrade as green in both ID and epilepsy panels respectively. --------- [1] - Serajee et al. (ASHG conference 2015 - abstract Nr. 2299T) reported on a patient born to consanguineous parents of South Asian ancestry with intractable epilepsy, microcephaly, DD and spastic quadriplegia. Metabolic investigations revealed increased urinary 3MGA. Two similarly affected sisters with demonstrated increase of 3MGA, were deceased following an infection. WES in the affected child, 2 unaffected sibs and the parents suggested a homozygous missense variant as the likely cause of the disorder in the proband (c.1114G>A / p.G372S - Reference not specified though the variant probably corresponds to ENST00000314349.4 and ClinVar's entry VCV000208697.1 - www.ncbi.nlm.nih.gov/clinvar/variation/208697/). [2] - Shahroor et al. (2017, PMID: 27573165) reported on 2 consanguineous families, each with 2 affected individuals. Two sibs from the 1st family (of Bedouin origin) presented with seizures (onset at 3m and 4m respectively), DD and ID with slightly elevated plasma lactate and increased urinary 3MGA upon metabolic investigations. Enzymatic activities of mitochondrial complex I-V were carried out for 1 sib and were normal also after normalization for citrate synthase. Following a SNP array, WES was carried out in affected children and their parents. Both sibs were homozygous for a missense SNV [NM_001001563.1:c.755C>T / p.Thr252Met]. Segregation studies - also in 3 unaffected sibs - supported a role for the variant. Two sibs from the 2nd family (of Muslim origin) presented with seizures (myoclonic jerks at 3m, generalized tonic movements at 2m - respectively) with DD and ID. Urinary 3MGA was elevated for both, with CSF lactate also elevated in one. WES revealed homozygosity for p.Arg217Trp (NM_001001563.1:c.649C>T) and segregation studies in parents and an unaffected sib were again compatible. The authors could not demonstrate pathogenicity of the variants in a yeast based system although - as also commented on in Ref 4 - the human TIMM50 could not rescue the yeast ΔΤim50 growth defect and global conservation between the two proteins is poor. [3] - Reyes et al. (2018, PMID: 30190335) reported on one individual with onset of infantile spasms at the age of 2m with hypsarrythmia upon EEG and psychomotor regression. Leigh-like features were noted upon brain MRI. Lactate was elevated in both plasma and CSF. Urinary 3MGA was normal. WES, Sanger confirmation and segregation studies demonstrated compound htz for 2 variants (NM_001001563:c.335C>A or p.S112* and c.569G>C or p.G190A). Functional studies demonstrated among others decrease in all components of the TIM23 complex and decreased mitochondrial membrane potential. Patient fibroblasts grown in glucose had lower levels of all complex II and IV subunits and one complex I subunit (due to the impairment in import system) with decreased mitochondrial respiration and increase in ROS production. Growth in galactose - shifting energy production toward OxPhos - caused massive cell death. The phenotype was rescued/substantially improved following complementation of patient fibroblasts with wt TIMM50. [4] - Tort et al. (2019, PMID: 31058414) reported on a boy with seizures and ID (diagnosis of West syndrome), Leigh-like MRI anomalies, cardiomyopathy with elevated plasma and CSF lactate and persistent urinary elevation of 3MGA. The proband was found to be compound heterozygous for 2 TIMM50 variants [NM_001001563.5:c.341 G>A (p.Arg114Gln) in trans with c.805 G>A (p.Gly269Ser)] following WES and Sanger confirmation/segregation studies. In patient fibroblasts TIMM50 protein levels were severely reduced upon WB although mRNA levels were similar to control. Muscle biopsy revealed decreased activity of the complexes I-IV, when normalized to the citrate synthase activity. Accumulation of lipidic material in muscle fibers was shown to be associated with mitochondria upon EM. Expression and sublocalization of mitochondria-targeted proteins were not found to be affected in patient fibroblasts. In extracts from muscle biopsy reduced protein levels of SDHA, COX4L and MTCO1 were demonstrated, in line with the disruptions in the activities of the MRC. Mitochondrial morphology and network were shown to be altered in patient fibroblasts. Patient fibroblasts showed marked reduction of max respiratory capacity. Similar reduction was noted in CRISPR/Cas9 generated TIMM50-ko HEK293T cells, but rescued upon transient transfection with a plasmid encoding for wt TIMM50. (Functional studies better summarized in the respective articles). Sources: Literature, Radboud University Medical Center, Nijmegen |
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| Intellectual disability - microarray and sequencing v2.1015 | GOT2 |
Konstantinos Varvagiannis gene: GOT2 was added gene: GOT2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: GOT2 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: GOT2 were set to 31422819 Phenotypes for gene: GOT2 were set to Global developmental delay; Intellectual disability; Seizures; Increased serum lactate; Hyperammonemia; Microcephaly; Failure to thrive; Feeding difficulties; Abnormality of nervous system morphology Penetrance for gene: GOT2 were set to Complete Review for gene: GOT2 was set to GREEN Added comment: van Karnebeek et al. (2019 - PMID: 31422819) report on 4 individuals from 3 families, with biallelic GOT2 pathogenic variants (3 missense SNVs and 1 in-frame deletion). The phenotype corresponded to a metabolic encephalopathy with onset of epilepsy in the first year of life (4/4) with DD and ID (4/4). Additional features included postnatal microcephaly, failure to thrive/feeding difficulties and cerebral anomalies (atrophy and white matter). All subjects had high blood lactate and hyperammonemia. Plasma serine was low in one case (alternative causes were ruled out). Administration of serine and pyridoxine led to clinical improvement (cessation / better control of seizures) in 2 subjects suggesting that GOT2 deficiency may be amenable to therapeutic intervention. [Treatment could not be started in the 2 further affected individuals]. GOT2 encodes the mitochondrial glutamate oxaloacetate transaminase, a component of the malate-aspartate shuttle (MAS). The latter is important for intracellular NAD(H) redox homeostasis. The authors provide several lines of evidence that GOT2 deficiency explains the patients' phenotype and metabolic defects incl. : - Reduced GOT2 protein levels (due to lower expression/impaired stability) and diminished activity in patient fibroblasts (lower activity was also shown for carriers). Rescue of the GOT enzymatic activity was observed upon transduction of patient fibroblasts using lentiviral particles with wt GOT2. - Impairment of de novo serine biosynthesis in patient (and to a lesser extent in carrier) fibroblasts compared to controls. This was similar in GOT2-knockout HEK293 cells. Serine biosynthesis in these cells was restored by pyruvate supplementation. - CRISPR/Cas9 Got2-knockout mice resulted in early lethality (during pregnancy). Heterozygous mice were viable and healthy. - Morpholino knockdown of got2a in zebrafish was shown to perturb embryonic development (smaller head, slow circulation, bend body, brain developmental defects, etc). Pyridoxine and serine in embryo water resulted in milder phenotypes/improved morphant survival. Zebrafish got2a morphants had seizure-like spikes upon EEG that were rescued by treatment with pyridoxine. GOT2 is not associated with any phenotype in OMIM/G2P. As a result, this gene can be considered for inclusion in both epilepsy and ID gene panels probably as green (3 families, relevant phenotypes and severity, evidence from cell and animal studies) or amber. [Please consider inclusion in other relevant panels eg. mitochondrial disorders, metabolic disorders and/or addition of the 'treatable' tag]. Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.996 | WDR37 |
Konstantinos Varvagiannis gene: WDR37 was added gene: WDR37 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: WDR37 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: WDR37 were set to 31327510; 31327508 Phenotypes for gene: WDR37 were set to Global developmental delay; Intellectual disability; Seizures; Abnormality of the eye; Abnormality of nervous system morphology; Hearing abnormality; Abnormality of the cardiovascular system; Abnormality of the skeletal system; Abnormality of the genitourinary system Penetrance for gene: WDR37 were set to unknown Review for gene: WDR37 was set to GREEN Added comment: Two concurrent publications by Reis et al. and Kanca et al. (2019 - PMIDs: 31327510, 31327508) report on the phenotype of individuals with de novo WDR37 mutations. The study by Reis et al. provides clinical details on 4 affected individuals, while 5 further are described by Kanca et al. 4 different de novo variants were reported in these individuals who appear to be unrelated in (and between) the 2 studies [NM_014023.3]: - c.356C>T (p.Ser119Phe) [Reis indiv. 1 - 3y, Kanca proband 3 - 5m2w] - c.389C>T (p.Thr130Ile) [Reis indiv. 2 - 22m , Kanca proband 5 - 6w] - c.374C>T (p.Thr125Ile) [Reis indiv. 3 - 8y , Kanca proband 1 - 7y] - c.386C>G (p.Ser129Cys) [Reis indiv. 4 - unkn age, Kanca probands 2 and 4, 6.5y and 19y] Common features included DD/ID (severity relevant for the current panel), seizures (9/9), ocular anomalies (corneal opacity/Peters anomaly, coloboma, microphthalmia etc.) and variable brain, hearing, cardiovascular, skeletal and genitourinary anomalies. Some facial and/or other dysmorphic features (incl. excess nuchal skin / webbed neck) were also frequent among affected individuals. Feeding difficulties and growth deficiency were also among the features observed. The function of WDR37 is not known. Variants demonstrated comparable protein levels and cellular localization compared to wt. Reis et al. provide evidence using CRISPR-Cas9 mediated genome editing in zebrafish, to introduce the Ser129Cys variant observed in affected individuals as well as novel missense and frameshift variants. Poor growth (similar to the human phenotype) and larval lethality were noted for missense variants. Head size was proportionately small. Ocular (coloboma/corneal) or craniofacial anomalies were not observed. Zebrafish heterozygous for LoF variants survived to adulthood. Based on these a dominant-negative mechanism was postulated for missense alleles. RNA-seq analysis in zebrafish showed upregulation of cholesterol biosynthesis pathways (among the most dysregulated ones). Previous data in mice, suggest a broad expression pattern for Wdr37 with enrichment in ocular and brain tissues, significant associations in homozygous mutant mice for decreased body weight, grip strength, skeletal anomalies and possible increase (p =< 0.05) in ocular (lens/corneal) and other anomalies [BioGPS and International Mouse Phenotyping Consortium cited]. CG12333 loss (the Drosophila WDR37 ortholog) causes increased bang sensitivity in flies (analogous to the human epilepsy phenotype), defects in copulation and grip strength, phenotypes that were rescued by human reference but not variant cDNAs. As discussed by Kanca et al. based on data from Drosophila and mice, limited phenotypic similarity of CNVs spanning WDR37 and adjacent genes with the reported individuals and the presence of LoF variants in control populations haploinsufficiency appears unlikely. Gain-of-function is also unlikely, as expression of human variants in flies did not exacerbate the observed phenotypes. A dominant-negative effect is again proposed. WDR37 is not associated with any phenotype in OMIM/G2P. As a result WDR37 can be considered for inclusion in the ID and epilepsy panels with green (relevant phenotype, sufficient cases, animal models) or amber rating. Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.981 | RSPRY1 | Catherine Snow Tag watchlist tag was added to gene: RSPRY1. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v2.979 | RSPRY1 | Catherine Snow Mode of inheritance for gene RSPRY1 was changed from to BIALLELIC, autosomal or pseudoautosomal | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing v2.978 | RSPRY1 |
Catherine Snow gene: RSPRY1 was added gene: RSPRY1 was added to Intellectual disability. Sources: Literature,Expert Review Amber Mode of inheritance for gene: RSPRY1 was set to Publications for gene: RSPRY1 were set to 26365341; 30914295 Phenotypes for gene: RSPRY1 were set to Spondyloepimetaphyseal dysplasia, Faden-Alkuraya type, 616585 |
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| Intellectual disability - microarray and sequencing v2.847 | DYNC1I2 |
Konstantinos Varvagiannis gene: DYNC1I2 was added gene: DYNC1I2 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: DYNC1I2 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: DYNC1I2 were set to 31079899 Phenotypes for gene: DYNC1I2 were set to Microcephaly; Intellectual disability; Abnormality of nervous system morphology; Abnormality of head or neck Penetrance for gene: DYNC1I2 were set to Complete Review for gene: DYNC1I2 was set to AMBER Added comment: Ansar et al. (2019 - PMID: 31079899) report on five individuals from 3 families, with biallelic likely pathogenic DYNC1I2 variants. The phenotype consisted of microcephaly, intellectual disability, cerebral malformations and suggestive facial features. 2/5 individuals, from different families presented seizures. Affected individuals from a consanguineous Pakistani family were homozygous for a splicing variant (c.607+1G>A - RNA was unavailable for further studies). One individual from a futher family was compound heterozygous for a missense variant (c.740A>G or p.Tyr247Cys) and a 374 kb deletion encompassing DYNC1I2 as well as 3 other genes (DCAF17, CYBRD1, SLC25A12). Another individual was found to harbor c.740A>G (p.Tyr247Cys) in trans with c.868C>T (p.Gln290*). [NM_001378.2 used as reference]. DYNC1I2 encodes Dynein Cytoplasmic 1 intermediate chain 2, a component of the cytoplasmic dynein 1 complex. This complex is involved in retrograde cargo transport within the cytoplasmic microtubule network. Emerging evidence suggests a critical role of this complex in neurodevelopment and homeostasis (PMIDs cited by the authors: 25374356, 28395088). Mutations in other genes encoding components of the complex (principally DYNC1H1) give rise to neurological disorders, some of which with ID as a principal feature (eg. Mental retardation, autosomal dominant 13 - MIM 614563). In zebrafish, DYNC1I2 has 2 orthologs - dync1i2a and dync1i2b. The former is suggested to be the functionally relevant DYNC1I2 ortholog as CRISPR-Cas9 dync1i2a disruption and/or suppression with morpholinos resulted in altered craniofacial patterning and reduction in head size (similar to the microcephaly phenotype reported in affected individuals). In vivo complementation studies suggested a loss of function effect for the p.Tyr247Cys variant, similar to the p.Gln290* one. Evidence is provided for a role of increased apoptosis, probably secondary to altered cell cycle progression (prolonged mitosis due to abnormal spindle morphology), to explain the reduced head size/microcephaly phenotype. There is no associated phenotype in OMIM/G2P. As a result, DYNC1I2 could be considered for inclusion in the ID panel probably as amber (ID reported for 5 individuals from 3 families, severity of ID not specified for all, eg. fam. 2 for whom the deletion was also spanning other genes which might contribute to the phenotype). Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.588 | MAPK8IP3 |
Konstantinos Varvagiannis gene: MAPK8IP3 was added gene: MAPK8IP3 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: MAPK8IP3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Phenotypes for gene: MAPK8IP3 were set to 25363768; 28213671; 28135719 Penetrance for gene: MAPK8IP3 were set to unknown Review for gene: MAPK8IP3 was set to GREEN Added comment: Platzer et al. (doi.org/10.1016/j.ajhg.2018.12.008) report on 13 unrelated individuals with de novo pathogenic variants in MAPK8IP3. The phenotype consisted - among others - of DD with ID (13/13) as well as variable brain anomalies (incl. cerebral or cerebellar atrophy, corpus callosum anomalies, perisylvian polymicrogyria, etc). Microcephaly, seizures, ataxia, ASD were features seen in fewer individuals. The variants reported included 2 nonsense, 1 frameshift as well as 6 missense mutations (3 missense variants were found - each - in 2 or more individuals). All three LoF variants were located in the first exon. (mRNA levels were not studied for these variants although NMD is presumed). The brain anomalies were more consistent for missense variants. MAPK8IP3 appears intolerant to LoF variants (pLI of 1) with constraint also for missense variants (Z-score of 4.06). In silico structural modeling was possible for 4 missense variants based on available crystal structures and different mechanisms were presumed (disruption of contacts between Leu444 of adjacent subunits, altered interaction between proximal residues at positions 461 and 466, or disruption of protein protein interactions). The C.elegans MAPK8IP3 ortholog is encoded by the unc-16 gene. Impaired clearance and accumulation of organelles (incl. lysosomes) in axons is observed in unc-16 mutants (recessive phenotype). For 6 variants, also conserved in C.elegans, mutants were engineered using CRISPR genome editing. The observed mutant phenotypes (increased axonal lysosomal density compared to controls for 2 variants, sluggish locomotion with lower swimming cycle rate for 1 nonsense and 4 missense variants) were rescued upon CRISPR reverse engineering of each mutant allele back to its wild-type sequence. The authors cite 3 previous studies, in which individuals investigated for neurodevelopmental disorders where found to harbor de novo MAPK8IP3 variants, namely: - PMID 25363768 (Iossifov et al.) : p.Tyr94Cys [ASD without ID] - PMID 28213671 (Berger et al.) : p.Glu461Gly [Smith-Magenis-like phenotype) - PMID 28135719 (DDD study) p.Arg1146Cys [This variant was found in 3 individuals in the study by Platzer et al.] ------------ A few additional individuals with neurodevelopmental disorders appear in the denovo-db after filtering for coding variants: http://denovo-db.gs.washington.edu/denovo-db/QueryVariantServlet?searchBy=Gene&target=MAPK8IP3 ------------ NM_015133.4:c.111C>G (p.Tyr37Ter) has been submitted in ClinVar by the Undiagnosed Diseases Network (NIH) as likely pathogenic, associated with MAPK8IP3-related disorder (hypotonia, DD, EEG anomalies among the phenotypes). It is not clear whether this subject corresponds to individual #3 reported by the previous study (possibly not the case). ------------ MAPK8IP3 is not associated with any phenotype in OMIM, nor in G2P. This gene is not commonly included in gene panels for ID. ------------ As a result, MAPK8IP3 can be considered for inclusion in this panel as green (rather than amber). Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.579 | TMEM94 |
Konstantinos Varvagiannis gene: TMEM94 was added gene: TMEM94 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: TMEM94 was set to BIALLELIC, autosomal or pseudoautosomal Phenotypes for gene: TMEM94 were set to Global developmental delay; Intellectual disability; Abnormal heart morphology; Abnormality of head or neck Penetrance for gene: TMEM94 were set to Complete Review for gene: TMEM94 was set to AMBER Added comment: Stephen et al. (https://doi.org/10.1016/j.ajhg.2018.11.001) report on 10 individuals from 6 unrelated families with bi-allelic truncating TMEM94 variants. The common phenotype consisted of global DD/ID, similar facial features as well as the presence of congenital heart defects (in all but one). Speech as well as motor delay and learning difficulties were universal features. ID is mentioned in the abstract, explicitly specified for one individual and implied for some of the rest. Overall 6 different LoF variants are reported. Reduced expression was demonstrated while gene expression microarray and RNA sequencing expression studies demonstrated dysregulation of several essential genes. Using a CRISPR/Cas9 mouse model loss of Tmem94 was shown to be embryonically lethal with craniofacial, cardiac anomalies as well as abnormal neuronal migration pattern observed in homozygous mutant mice embryos. TMEM94 is not associated with any phenotype in G2P nor in OMIM. As a result this gene can be considered for inclusion in this panel probably as amber (or green). Sources: Literature |
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| Intellectual disability - microarray and sequencing v2.468 | SPRTN |
Louise Daugherty gene: SPRTN was added gene: SPRTN was added to Intellectual disability. Sources: Victorian Clinical Genetics Services Mode of inheritance for gene: SPRTN was set to |
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| Intellectual disability - microarray and sequencing v2.468 | SPR | Louise Daugherty Source Victorian Clinical Genetics Services was added to SPR. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPRED1 | BRIDGE consortium edited their review of SPRED1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPR | BRIDGE consortium edited their review of SPR | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPRED1 | BRIDGE consortium edited their review of SPRED1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPR | BRIDGE consortium commented on SPR | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPRED1 | BRIDGE consortium reviewed SPRED1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPR | BRIDGE consortium reviewed SPR | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability - microarray and sequencing | SPR | Ellen McDonagh commented on SPR | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||