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| Intellectual disability v5.294 | ITPR1 |
Arina Puzriakova Tag Q2_23_MOI was removed from gene: ITPR1. Tag Q2_23_NHS_review was removed from gene: ITPR1. |
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| Intellectual disability v5.286 | ITPR1 | Arina Puzriakova edited their review of gene: ITPR1: Added comment: The mode of inheritance of this gene has been updated to 'BOTH monoallelic and biallelic, autosomal or pseudoautosomal' following NHS Genomic Medicine Service approval.; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v5.286 | ITPR1 |
Arina Puzriakova Source NHS GMS was added to ITPR1. Mode of inheritance for gene ITPR1 was changed from BIALLELIC, autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal |
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| Intellectual disability v5.131 | ITPR1 | Arina Puzriakova Phenotypes for gene: ITPR1 were changed from Gillespie syndrome 206700 to Gillespie syndrome, OMIM:206700; Spinocerebellar ataxia 15, OMIM:606658; Spinocerebellar ataxia 29, congenital nonprogressive, OMIM:117360 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v5.130 | ITPR1 | Arina Puzriakova Mode of inheritance for gene: ITPR1 was changed from BIALLELIC, autosomal or pseudoautosomal to BIALLELIC, autosomal or pseudoautosomal | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v5.129 | ITPR1 | Arina Puzriakova Publications for gene: ITPR1 were set to 22986007 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v5.128 | ITPR1 |
Arina Puzriakova Tag Q2_23_MOI tag was added to gene: ITPR1. Tag Q2_23_NHS_review tag was added to gene: ITPR1. |
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| Intellectual disability v5.107 | ITPR1 |
Tracy Lester edited their review of gene: ITPR1: Added comment: PMID:29925855 - All 7 EOA patients with ITPR1 de novo variants (3 from cohort #1; 4 from cohort #2) presented with infantile onset cerebellar ataxia starting before the age of 2 years, including delayed motor milestones (Table 2). Cognitive deficits of variable degree were observed in 3 out of 4 patients where this information was available, reaching from only mild dyscalculia (P2) to severe intellectual disability with a speech vocabulary of only a few words (P7 at age 12 years). In contrast, patient P1 showed normal intelligence with an IQ of 97. PMID:27108797 - Here, we report that both recessive and dominant ITPR1 mutations cause Gillespie syndrome. ITPR1 is a predominant isoform in the brain among the three types of ITPRs and is strongly expressed in cerebellar Purkinje cells.31 Mice with complete homozygosity for Itpr1 ablation suffer from severe epilepsy and ataxia and die either in utero or before weaning.32 Consistently, ITPR1 mutations have been reported to cause cerebellar diseases including late-onset spinocerebellar ataxia type 15 (SCA15 [MIM: 606658]),33 congenital nonprogressive spinocerebellar ataxia and mild cognitive impairment (SCA29 [MIM: 117360]),34 infantile-onset cerebellar ataxia with mild cognitive deficit,35 and childhood-onset ataxic cerebellar palsy with moderate intellectual disability36 (see ITPR1 schematic diagram in Figure 3A). Affected individuals had similar iris anomalies and neonatal ataxia with progressive cerebellar atrophy (Figure 2). Moderate to severe intellectual disabilities were noted in the three individuals with recessive mutations (F1:II1, F2:II1, and F3:II1; Table 1). In contrast, the affected individual F4:II1 aged 18 years and harboring the de novo c.7687_7689del mutation was reported to have normal intelligence (Table 1). As de novo variants are associated with ID/DD the inheritance should be updated to be BOTH AD and AR.; Set current diagnostic: yes |
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| Intellectual disability v5.107 | ITPR1 | Tracy Lester reviewed gene: ITPR1: Rating: GREEN; Mode of pathogenicity: None; Publications: 29925855, 27108797; Phenotypes: developmental delay, intellectual disability, hypotonia, ataxia, cerebellar malformatons; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v4.11 | TPR |
Achchuthan Shanmugasundram gene: TPR was added gene: TPR was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: TPR was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: TPR were set to 34494102 Phenotypes for gene: TPR were set to Intellectual disability, MONDO:0001071 Review for gene: TPR was set to RED Added comment: Comment on classification of this gene: This gene should be added with a RED rating as the association of TPR to intellectual disability is based on biallelic variants identified from a report of two siblings. Two siblings harbouring variants c.6625C>T/ p.Arg2209Ter (identified in heterozygous state in both siblings and father) and c.2610ā+ā5Gā>āA (identified in heterozygous state in both siblings and mother) were reported with ataxia, microcephaly and severe intellectual disability. Functional analyses in patient fibroblasts provide evidence that the variants affect TPR splicing, reduce steady-state TPR levels, abnormal nuclear pore composition and density, and altered global RNA distribution. This gene has not yet been associated with any phenotypes either in OMIM or in Gene2Phenotype. Sources: Literature |
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| Intellectual disability v3.78 | TTC5 |
Konstantinos Varvagiannis gene: TTC5 was added gene: TTC5 was added to Intellectual disability. Sources: Literature Mode of inheritance for gene: TTC5 was set to BIALLELIC, autosomal or pseudoautosomal Publications for gene: TTC5 were set to 29302074; 32439809 Phenotypes for gene: TTC5 were set to Central hypotonia; Global developmental delay; Intellectual disability; Abnormality of nervous system morphology; Microcephaly; Abnormality of the face; Behavioral abnormality; Abnormality of the genitourinary system Penetrance for gene: TTC5 were set to Complete Review for gene: TTC5 was set to GREEN Added comment: Hu et al (2019 - PMID: 29302074) reported briefly on 3 individuals from 2 consanguineous families (from Turkey and Iran) with biallelic TTC5 variants. Features included DD (3/3), ID (severe in 2/2 with relevant age), microcephaly (3/3), brain abnormalities, etc. A nonsense and a variant affecting splice site were identified by WES/WGS. --- In a recent report, Rasheed et al (2020 - PMID: 32439809) report on the phenotype of 8 individuals - belonging to 5 consanguineous families - all 8 harboring homozygous TTC5 mutations. Frequent features included hypotonia (6/8), motor and speech delay, moderate to severe ID (10/10 of relevant age - inclusion of less severely affected subjects was not considered by study design), brain MRI abnormalities (8/8). Other findings included microcephaly in some (6/11), behavioral abnormalities in few (autistic behavior in 2/8, aggression in 2/8), genitourinary anomalies (2/8), seizures (1/11). Facial phenotype incl. thin V-shaped upper lip, low-set ears (in most) and/or additional features. TTC5 encodes a 440 aa protein, functioning as a scaffold to stabilise p300-JMY interactions. Apart from this role in nucleus, it has functions in the cytoplasm (inhibiting actin nucleataion, autophagosome formation, etc). The gene has ubiquitous expression, highest in brain. All variants were identified following WES - as the best candidates - in affected individuals with compatible Sanger studies in all affected family members and carrier parents. 2 missense and 2 nonsense variants were identified with the 2 missense SNVs localizing within TPR domains. qRT-PCR studies for a nonsense variant localizing 19 nt before the last exon, revealed fourfold decreased expression in affected individuals compared to carriers. Families from Egypt shared a homozygous ~6.3 Mb haplotype block spanning TTC5, suggesting that p.(Arg263Ter) is likely a founder mutation. The authors underscore some phenotypic (though not facial) similarities with Rubinstein-Taybi syndrome 2 due to EP300 mutations (in line with the role of TTC5). Biallelic variants in genes encoding other members of the TTC family (containing a TPR motif), e.g. TTC8 or TTC15 cause disorders with neurologic manifestations (and DD/ID). Sources: Literature |
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| Intellectual disability v2.1098 | CNOT2 |
Konstantinos Varvagiannis gene: CNOT2 was added gene: CNOT2 was added to Intellectual disability. Sources: Literature,Radboud University Medical Center, Nijmegen Mode of inheritance for gene: CNOT2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown Publications for gene: CNOT2 were set to 31512373; 31145527; 28135719; 28159701; 30768759; 21505450; 18076123; 22247066 Phenotypes for gene: CNOT2 were set to Intellectual developmental disorder with nasal speech, dysmorphic facies, and variable skeletal anomalies, MIM 618608 Penetrance for gene: CNOT2 were set to unknown Review for gene: CNOT2 was set to GREEN gene: CNOT2 was marked as current diagnostic Added comment: Heterozygous pathogenic CNOT2 variants cause Intellectual developmental disorder with nasal speech, dysmorphic facies, and variable skeletal anomalies (MIM 618608 - recently added disorder in OMIM). Larger 12q15 deletions, spanning CNOT2 have been reported in patients with similar phenotype. Relevant individuals - most discussed below - include 2 patients with truncating de novo mutation, 1 with de novo intragenic deletion, few with small deletions spanning also 2-3 additional proximal genes and others with larger 12q15 deletions encompassing CNOT2 and several other genes. Overall the phenotype - summarized by Uehara et al. (Ref1 - below) - seems to consist of language delay, mild motor delay (in most), some suggestive facial features (upslanted palpebral fissures, anteverted nares, thin upper lip and micrognathia). Nasal speech has also been reported in some individuals. As commented by Uehara et al. (Ref1), CNOT2 (CCR4-NOT transcription complex subunit 2) is a member of the carbon catabolite repressor 4 complex (CCR4-NOT), the latter having an important role in deadenylation of mRNA and global mRNA expression. Disruption of the complex - which can be caused by loss of one of its components - results in various human disorders incl. neural diseases. siRNA CNOT2 depletion has been shown to induce CCR4-NOT disruption (cited PMIDs: 16284618, 29438013, 31006510, 21299754). The type of variants (truncating, intragenic deletion, larger deletions) and the highly overlapping phenotypes in the respective patients suggest happloinsufficiency as the underlying mechanism. CNOT2 has also a pLI of 1 in gnomAD (o/e =0.06) and a %HI in Decipher of 4.39. The gene appears to have relevant expression (https://www.proteinatlas.org/ENSG00000111596-CNOT2/tissue). Animal models have not been discussed (or phenotypes possibly not sufficiently studied - MGI for Cnot2 : http://www.informatics.jax.org/marker/MGI:1919318). CNOT2 is not associated with any phenotype in G2P. It is listed among the ID candidate genes in SysID. This gene is included in gene panels for ID offered by some diagnostic laboratories (incl. Radboudumc). Overall CNOT2 could be considered for inclusion in the ID panel with amber (DD although outcome is not known, presumed dysfunction of the CCR4-NOT complex, variant studies or animal models not available) or green rating (sufficient cases and variants, consistent phenotype). ----- Individuals with CNOT2-only disruption: [1] PMID: 31512373 (Uehara et al., 2019) - A 6 y.o. male investigated for hypotonia, feeding problems, DD (speech and motor), macrocephaly (+3 SD) and some possibly suggestive facial/other features was found to harbor a de novo stopgain variant (NM_001199302.1: c.946A>T, p.Lys316Ter) after trio exome sequencing. The variant and its de novo occurrence were confirmed by Sanger sequencing. NMD was the predicted effect (variant in ex11 of 21 / effect not further studied). Previous metabolic work-up and chromosomal testing had not revealed an alternative diagnosis. [2] PMID: 31145527 (Alesi et al. 2019) - A 13 y.o. boy with hypotonia, failure to thrive, DD and following a specific schooling program for children with learning difficulties is reported. The authors comment on the facial phenotype (incl. upslanted p-f, anteverted nares, etc). Other features included valvular/supravalvular pulm. stenosis, mid aortic insufficiency, renal anomalies/failure, skeletal anomalies. Speech was nasal. CMA revealed an 85-kb 12q15 deletion spanning only CNOT2 (exons 3-15). Real-time PCR in proband and parents confirmed the variant and its de novo occurrence. [3] PMID: 28135719 (DDD study, 2017) - An individual with developmental disorder and a de novo (validated) frameshift variant was identified [DDD4K.00807 - NM_014515.5:c.1158del / p.(L387Sfs*3)]. Phenotype in Decipher incl. abnormality of head/neck, nervous, skeletal system and growth. [https://decipher.sanger.ac.uk/ddd/research-variant/16b4f7866652f08e25a194f65535b4c5#overview]. Individuals with disruption of additional proximal genes due to CNVs: [4] PMID: 28159701 (Alesi et al. 2017) - The authors report on a 29 y.o. individual with history of DD, learning difficulties, ID (WAIS-R IQ of 48 at the age of 17 y), some dysmorphic facial features. Additional features incl. recurrent infections, nasal voice as well as skeletal anomalies. CMA revealed a 742 kb microdeletion spanning CNOT2, KCNMB4 and PTPRB. Real-time PCR confirmed deletion and it's de novo occurrence in the proband. [5] PMID: 30768759 (Uehara et al. 2019) - A female investigated among others for global DD (walking/1st words at 24m), mild ID, submucosal cleft palate with some distinctive facial features (upslanted p-f, micrognathia, etc) was found to harbor a 1.32-Mb deletion of 12q15 encompassing CNOT2 and 14 other genes. Given the phenotypic resemblance to patients with 12q15 deletions, the previously defined smallest region of overlap (ref 4,6), the LoF SNV in Decipher the authors suggested that CNOT2 is the critical gene for the phenotype of 12q15 deletion syndrome. Larger deletions defining the smallest region of overlap [6] PMID: 21505450 (Vergult et al. 2011) - 3 patients with de novo microdeletions of ~ 2.5 Mb in size with a 1.34 MB common region of overlap are reported. Learning diability, DD, nasal speech and hypothyroidism were among the common features. [7] PMID: 18076123 (Schluth et al. 2008) - A girl with large (~10 Mb) de novo deletion of 12q15 - q21.2 identified by BAC array was described. The phenotype consisted of hypotonia, DD, moderate ID, growth delay and facial dysmorphic features. [8] PMID: 22247066 (Lopez et al. 2012) - A patient with ID and features of Floating-Harbor syndrome was found to harbor a 4.7 Mb de novo 12q15-q21.1 deletion spanning CNOT2 and 18 additional genes. [..] Sources: Literature, Radboud University Medical Center, Nijmegen |
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| Intellectual disability v2.482 | ITPR1 | Louise Daugherty Classified gene: ITPR1 as Green List (high evidence) | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v2.482 | ITPR1 | Louise Daugherty Gene: itpr1 has been classified as Green List (High Evidence). | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability v2.468 | ITPR1 | Louise Daugherty Source Victorian Clinical Genetics Services was added to ITPR1. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability | ITPR1 | BRIDGE consortium edited their review of ITPR1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability | ITPR1 | BRIDGE consortium edited their review of ITPR1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual disability | ITPR1 | BRIDGE consortium reviewed ITPR1 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||