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Intellectual disability - microarray and sequencing v3.1519 AP1G1 Ivone Leong Tag Q3_21_rating was removed from gene: AP1G1.
Intellectual disability - microarray and sequencing v3.1519 AP1G1 Sarah Leigh commented on gene: AP1G1
Intellectual disability - microarray and sequencing v3.1519 AP1G1 Ivone Leong Source Expert Review Green was added to AP1G1.
Rating Changed from Amber List (moderate evidence) to Green List (high evidence)
Intellectual disability - microarray and sequencing v3.1293 AP1G1 Arina Puzriakova Mode of inheritance for gene AP1G1 was changed from BOTH monoallelic and biallelic, autosomal or pseudoautosomal to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Intellectual disability - microarray and sequencing v3.1292 AP1G1 Arina Puzriakova Tag Q3_21_rating tag was added to gene: AP1G1.
Intellectual disability - microarray and sequencing v3.1292 AP1G1 Arina Puzriakova Classified gene: AP1G1 as Amber List (moderate evidence)
Intellectual disability - microarray and sequencing v3.1292 AP1G1 Arina Puzriakova Added comment: Comment on list classification: New gene added by Zornitza Stark. Usmani et al., 2021 (PMID: 34102099) identified 9 families with heterozygous and 2 families with homozygous variants in this gene. All individuals (12) had GDD and ID of various severity (mild to severe), except one patient who died at 22 days. Other features include hypotonia (9/10), seizures (6/10) and spasticity (4/10). Some supportive functional data included.

There is sufficient evidence to promote this gene to Green at the next GMS panel update, with 'monoallelic' MOI. Biallelic cases would still be picked up by the Genomics England pipeline - but this may be reviewed if additional cases are discovered.
Intellectual disability - microarray and sequencing v3.1292 AP1G1 Arina Puzriakova Gene: ap1g1 has been classified as Amber List (Moderate Evidence).
Intellectual disability - microarray and sequencing v3.1216 AP1G1 Zornitza Stark gene: AP1G1 was added
gene: AP1G1 was added to Intellectual disability. Sources: Literature
Mode of inheritance for gene: AP1G1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: AP1G1 were set to 34102099
Phenotypes for gene: AP1G1 were set to Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy
Review for gene: AP1G1 was set to GREEN
gene: AP1G1 was marked as current diagnostic
Added comment: Two bi-allelic homozygous missense variants were found in two distinct families with Italian and Pakistani origins; homozygous missense variants.

Eight de novo heterozygous variants were identified in nine isolated affected individuals from nine families; including five missense, two frameshift, and one intronic variant that disrupts the canonical splice acceptor site.

Knocking out AP1G1 Zebrafish model resulted in severe developmental abnormalities and increased lethality.

All individuals had neurodevelopmental disorder (NDD) including global developmental delay and ID, which varied in severity from mild to severe.

GREEN for mono-allelic, AMBER for bi-allelic.
Sources: Literature
Intellectual disability - microarray and sequencing v2.1098 AP1B1 Konstantinos Varvagiannis gene: AP1B1 was added
gene: AP1B1 was added to Intellectual disability. Sources: Literature
Mode of inheritance for gene: AP1B1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: AP1B1 were set to 31630788; 31630791
Phenotypes for gene: AP1B1 were set to Failure to thrive; Abnormality of the skin; Hearing abnormality; Abnormality of copper homeostasis; Global developmental delay; Intellectual disability
Penetrance for gene: AP1B1 were set to Complete
Review for gene: AP1B1 was set to AMBER
Added comment: Boyden et al. (2019 - PMID: 31630788) and Alsaif et al (2019 - PMID: 31630791) report on the phenotype related to biallelic AP1B1 mutations.

Common features included failure to thrive, ichthyosis (with variable palmoplantar keratoderma/erythroderma/abnormal hair) and hearing loss. Each study focused on different additional features eg. thrombocytopenia or photophobia in all individuals reported by Boyden et al, while Alsaif et al. focused on abnormal copper metabolism (low plasma copper and ceruloplasmin) observed in all 3 affected individuals and enteropathy/hepatopathy observed in 2 sibs.

DD was observed in all 3 individuals (2 families) reported by Alsaif et al. and patient 424 reported by Boyden et al. ID was noted in all individuals of relevant age (2 from 2 families) in the study by Alsaif. Boyden commented that ID is not part of the phenotype. The adult (424) - despite his early DD - was noted to have normal intellect and had graduated college. The other patient (1325) was last followed up at 11 months (still DD was not reported).

AP1B1 encodes one of the large subunits (β1) of the adaptor protein complex 1. Each of the AP complexes is a heterotetramer composed of two large (one of γ, α, δ, ε and β1-β4 for AP-1 to AP-4 respectively), one medium (μ1-μ4) and one small (σ1-σ4) adaptin subunit. The complex is involved in vesicle-mediated transport.

Variants were confirmed in probands and carrier parents (NM_001127.3):
Boyden Pat424 (33y) : c.430T>C (p.Cys144Arg) in trans with c.2335delC (p.Leu779Serfs*26)
Boyden Pat1325 (11m) [consanguineous Ashkenazi Jewish family] : homozygosity for c.2374G>T (p.Glu792*)
Alsaif sibs P1,P2 (4y4m, 1y5m) [consanguineous - Pakistani origin] : homozygous for a chr22 75 kb deletion spanning only the promoter and ex1-2 of AP1B1
Alsaif P3 (4y6m) [consanguineous - Saudi origin] : homozygous for a c.38-1G>A

Variant / additional studies :
22q 75-kb deletion: PCR deletion mapping and Sanger delineated the breakpoints of the 22q12.2 del to chr22:29758984-29815476 (hg?). Complete absence of transcript upon RT-PCR (mRNA from fibrolasts).
Splicing variant (c.38-1G>A): RT-PCR confirmed replacement of the normal transcript by an aberrant harboring a 1 bp deletion (r.40del).
Stopgain variant (c.2374G>T): Western blot demonstrated loss of AP1B1 (and marked reduction also for AP1G1) in cultured keratinocytes of the homozygous patient.

Loss-of-function is the effect predicted by variants. Vesicular defects were observed in keratinocytes of an affected individual (homozygous for the nonsense variant). Rescue of these vesicular defects upon transduction with wt AP1B1 lentiviral construct confirmed the LoF effect. [Boyden et al.]

ATP7A and ATP7B, two copper transporters, have been shown to depend on AP-1 for their trafficking. Similar to MEDNIK syndrome, caused by mutations in AP1S1 and having an overlapping phenotype with AP1B1 (also including hypocupremia and hypoceruloplasminemia), fibroblasts from 2 affected individuals (from different families) demonstrated abnormal ATP7A trafficking. [Alsaif et al.]

Proteomic analysis of clathrin coated vesicles (2 ind from 2 fam) demonstrated that AP1B1 was the only AP1/AP2 CCV component consistently reduced in 2 individuals (from 2 families). [Alsaif et al.]

Boyden et al. provided evidence for abnormal differentiation and proliferation in skin from an affected individual. In addition E-cadherin and β-catenin were shown to be mislocalized in keratinocytes from this affected individual.

Loss of ap1b1 in zebrafish is not lethal but lead to auditory defects (/vestibular deficits). The inner ears appear to develop normally, although there is progressive degeneration of ear epithelia. There are no behavioral/neurological phenotypes listed for mouse models. [ http://www.informatics.jax.org/marker/MGI:1096368 ].

AP1B1 is not associated with any phenotype in OMIM/G2P/SysID.

Overall this gene could be considered for inclusion in the ID panel probably with amber rating.
Sources: Literature