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1.
Elife ; 102021 11 09.
Article in English | MEDLINE | ID: mdl-34751129

ABSTRACT

Usher syndrome type I (USH1) is characterized by deafness, vestibular areflexia, and progressive retinal degeneration. The protein-truncating p.Arg245* founder variant of PCDH15 (USH1F) has an ~2% carrier frequency amongst Ashkenazi Jews accounts for ~60% of their USH1 cases. Here, longitudinal phenotyping in 13 USH1F individuals revealed progressive retinal degeneration, leading to severe vision loss with macular atrophy by the sixth decade. Half of the affected individuals were legally blind by their mid-50s. The mouse Pcdh15R250X variant is equivalent to human p.Arg245*. Homozygous Pcdh15R250X mice also have visual deficits and aberrant light-dependent translocation of the phototransduction cascade proteins, arrestin, and transducin. Retinal pigment epithelium (RPE)-specific retinoid cycle proteins, RPE65 and CRALBP, were also reduced in Pcdh15R250X mice, indicating a dual role for protocadherin-15 in photoreceptors and RPE. Exogenous 9-cis retinal improved ERG amplitudes in Pcdh15R250X mice, suggesting a basis for a clinical trial of FDA-approved retinoids to preserve vision in USH1F patients.


Subject(s)
Cadherins/genetics , Phenotype , Protein Precursors/genetics , Usher Syndromes/therapy , Adolescent , Adult , Aged , Animals , Cadherin Related Proteins , Cadherins/metabolism , Child , Humans , Mice , Middle Aged , Mutation , Photoreceptor Cells/pathology , Protein Precursors/metabolism , Young Adult
2.
J Bone Miner Res ; 34(2): 375-386, 2019 02.
Article in English | MEDLINE | ID: mdl-30395363

ABSTRACT

Polydactyly is a common congenital anomaly of the hand and foot. Postaxial polydactyly (PAP) is characterized by one or more posterior or postaxial digits. In a Pakistani family with autosomal recessive nonsyndromic postaxial polydactyly type A (PAPA), we performed genomewide genotyping, linkage analysis, and exome and Sanger sequencing. Exome sequencing revealed a homozygous nonsense variant (c.478C>T, p.[Arg160*]) in the FAM92A gene within the mapped region on 8q21.13-q24.12 that segregated with the PAPA phenotype. We found that FAM92A is expressed in the developing mouse limb and E11.5 limb bud including the progress zone and the apical ectodermal ridge, where it strongly localizes at the cilia level, suggesting an important role in limb patterning. The identified variant leads to a loss of the FAM92A/Chibby1 complex that is crucial for ciliogenesis and impairs the recruitment and the colocalization of FAM92A with Chibby1 at the base of the cilia. In addition, we show that Fam92a-/- homozygous mice also exhibit an abnormal digit morphology, including metatarsal osteomas and polysyndactyly, in addition to distinct abnormalities on the deltoid tuberosity of their humeri. In conclusion, we present a new nonsyndromic PAPA ciliopathy due to a loss-of-function variant in FAM92A. © 2018 American Society for Bone and Mineral Research.


Subject(s)
Ciliopathies , Codon, Nonsense , Exome , Fingers/abnormalities , Homozygote , Polydactyly , Proteins , Toes/abnormalities , Animals , Carrier Proteins/genetics , Carrier Proteins/metabolism , Ciliopathies/genetics , Ciliopathies/metabolism , Ciliopathies/pathology , Female , Fingers/pathology , Humans , Male , Mice , Mice, Knockout , Nuclear Proteins/genetics , Nuclear Proteins/metabolism , Polydactyly/genetics , Polydactyly/metabolism , Polydactyly/pathology , Proteins/genetics , Proteins/metabolism , Toes/pathology , Exome Sequencing
3.
J Clin Invest ; 128(4): 1509-1522, 2018 04 02.
Article in English | MEDLINE | ID: mdl-29408807

ABSTRACT

A modifier variant can abrogate the risk of a monogenic disorder. DFNM1 is a locus on chromosome 1 encoding a dominant suppressor of human DFNB26 recessive, profound deafness. Here, we report that DFNB26 is associated with a substitution (p.Gly116Glu) in the pleckstrin homology domain of GRB2-associated binding protein 1 (GAB1), an essential scaffold in the MET proto-oncogene, receptor tyrosine kinase/HGF (MET/HGF) pathway. A dominant substitution (p.Arg544Gln) of METTL13, encoding a predicted methyltransferase, is the DFNM1 suppressor of GAB1-associated deafness. In zebrafish, human METTL13 mRNA harboring the modifier allele rescued the GAB1-associated morphant phenotype. In mice, GAB1 and METTL13 colocalized in auditory sensory neurons, and METTL13 coimmunoprecipitated with GAB1 and SPRY2, indicating at least a tripartite complex. Expression of MET-signaling genes in human lymphoblastoid cells of individuals homozygous for p.Gly116Glu GAB1 revealed dysregulation of HGF, MET, SHP2, and SPRY2, all of which have reported variants associated with deafness. However, SPRY2 was not dysregulated in normal-hearing humans homozygous for both the GAB1 DFNB26 deafness variant and the dominant METTL13 deafness suppressor, indicating a plausible mechanism of suppression. Identification of METTL13-based modification of MET signaling offers a potential therapeutic strategy for a wide range of associated hearing disorders. Furthermore, MET signaling is essential for diverse functions in many tissues including the inner ear. Therefore, identification of the modifier of MET signaling is likely to have broad clinical implications.


Subject(s)
Adaptor Proteins, Signal Transducing/metabolism , Hearing Loss, Sensorineural/metabolism , Methyltransferases/metabolism , Mutation, Missense , Sensory Receptor Cells/metabolism , Signal Transduction , Adaptor Proteins, Signal Transducing/genetics , Amino Acid Substitution , Animals , Hearing Loss, Sensorineural/genetics , Hearing Loss, Sensorineural/pathology , Humans , Methyltransferases/genetics , Mice , Mice, Knockout , Proto-Oncogene Mas , Sensory Receptor Cells/pathology , Zebrafish
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