Usher syndrome: Hearing loss, retinal degeneration and associated abnormalities

Background/Aims: Our laboratory discovered a Kunming mouse with enormous electroretinogram (ERG) defects. Its auditory brainstem response (ABR) threshold was significantly elevated and closely resembled the features of Usher syndrome (USH). This study sought to cross these USH-like mice (named KMush/ush mice) with CBA/CaJ mice to establish recombinant inbred strains and identify their phenotypes and genotypes. Methods: KMush/ush mice were crossed with CBA/CaJ mice to establish inbred strains by sibling mating. ERG, ABR, ocular fundus morphology, histological examinations of the retina and inner ear, quantitative real-time polymerase chain reaction, western blotting, and exon sequencing were performed to assess the phenotypes and genotypes of the offspring strains. Results: The F1 hybrids from crossing KMush/ush and CBA/CaJ mice had normal ERG and ABR responses. The F2 offspring from intercrossing the F1 mice showed a segregation of the retinitis pigmentosa (RP) and hearing loss phenotypes. The CBA-1ush/ush mice had an RP phenotype that was characterized by a vanished ERG waveform and loss of the outer nuclear layer. Their Pde6b gene had a nonsense mutation that resulted in the failure of protein production in western blotting. However, the ABR threshold of this strain of mice was normal. The CBA-2ush/ush mice had normal retinal function and architecture. Their ABR threshold was increased, with a dramatic degeneration of the stereocilia bundles in the outer hair cells of the inner ear. Whole exome sequencing and exon sequencing revealed a deletion of one base pair in exon 31 of the Adgrv1 gene, which would result in the premature termination of protein encoding. The level of Adgrv1 mRNA was reduced in the CBA-2ush/ush mice. The CBA-3ush/ush mice had phenotypes of RP, elevated ABR threshold, and degeneration of the stereocilia bundles in the outer hair cells. They were closely associated with the nonsense mutations of Pde6b and Adgrv1, respectively. Conclusion: We isolated a mouse strain with hearing loss from inbred mice with retinal degeneration and established it as a recombinant inbred strain with a spontaneous mutation in Adgrv1, the human Usher syndrome 2C gene. The retinal degeneration was cause by a mutation in Pde6b, while the hearing loss was caused by a mutation in Adgrv1.

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Unraveling the genetic complexities of combined retinal dystrophy and hearing impairment

Human Genetics ◽

10.1007/s00439-021-02303-1 ◽

2021 ◽

Author(s):

Paulina Bahena ◽

Narsis Daftarian ◽

Reza Maroofian ◽

Paola Linares ◽

Daniel Villalobos ◽

...

Keyword(s):

Hearing Loss ◽

Retinal Degeneration ◽

Hearing Impairment ◽

Molecular Diagnosis ◽

Usher Syndrome ◽

Retinal Dystrophy ◽

Treatment Modalities ◽

Ophthalmological Examination ◽

Sensory Impairment ◽

Dual Sensory Impairment

AbstractUsher syndrome, the most prevalent cause of combined hereditary vision and hearing impairment, is clinically and genetically heterogeneous. Moreover, several conditions with phenotypes overlapping Usher syndrome have been described. This makes the molecular diagnosis of hereditary deaf–blindness challenging. Here, we performed exome sequencing and analysis on 7 Mexican and 52 Iranian probands with combined retinal degeneration and hearing impairment (without intellectual disability). Clinical assessment involved ophthalmological examination and hearing loss questionnaire. Usher syndrome, most frequently due to biallelic variants in MYO7A (USH1B in 16 probands), USH2A (17 probands), and ADGRV1 (USH2C in 7 probands), was diagnosed in 44 of 59 (75%) unrelated probands. Almost half of the identified variants were novel. Nine of 59 (15%) probands displayed other genetic entities with dual sensory impairment, including Alström syndrome (3 patients), cone-rod dystrophy and hearing loss 1 (2 probands), and Heimler syndrome (1 patient). Unexpected findings included one proband each with Scheie syndrome, coenzyme Q10 deficiency, and pseudoxanthoma elasticum. In four probands, including three Usher cases, dual sensory impairment was either modified/aggravated or caused by variants in distinct genes associated with retinal degeneration and/or hearing loss. The overall diagnostic yield of whole exome analysis in our deaf–blind cohort was 92%. Two (3%) probands were partially solved and only 3 (5%) remained without any molecular diagnosis. In many cases, the molecular diagnosis is important to guide genetic counseling, to support prognostic outcomes and decisions with currently available and evolving treatment modalities.

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A small molecule mitigates hearing loss in a mouse model of Usher syndrome III

Nature Chemical Biology ◽

10.1038/nchembio.2069 ◽

2016 ◽

Vol 12 (6) ◽

pp. 444-451 ◽

Cited By ~ 27

Author(s):

Kumar N Alagramam ◽

Suhasini R Gopal ◽

Ruishuang Geng ◽

Daniel H-C Chen ◽

Ina Nemet ◽

...

Keyword(s):

Hearing Loss ◽

Mouse Model ◽

Small Molecule ◽

Usher Syndrome

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Genetic hearing loss: a study of 228 Brazilian patients

Genetics and Molecular Biology ◽

10.1590/s1415-47572000000100004 ◽

2000 ◽

Vol 23 (1) ◽

pp. 25-27 ◽

Cited By ~ 3

Author(s):

Silvia Bragagnolo Longhitano ◽

Décio Brunoni

Keyword(s):

Hearing Loss ◽

Autosomal Recessive ◽

Autosomal Dominant ◽

Autosomal Recessive Inheritance ◽

Recessive Inheritance ◽

Dominant Inheritance ◽

Genetic Etiology ◽

Parental Consanguinity ◽

Genetic Hearing Loss ◽

Associated Abnormalities

We studied 228 patients, with suspected or confirmed genetic hearing loss, in order to determine the clinical and genetic diagnoses and etiology of each case. Deafness with no associated abnormalities was found in 146 patients (64%) belonging to 112 families. Syndromic deafness was diagnosed in 82 patients (36%) belonging to 76 families. The genetic etiology was as follows: autosomal recessive inheritance in 40.8% of syndromics and non-syndromics, autosomal dominant inheritance in 13.2% and X-linked recessive in 1.3%. In 44.7% of the cases, the etiology of the hearing loss could not be determined. Monogenic causes are the most possible etiology in the latter cases. Parental consanguinity was found in 22.4% of the cases, and deafness was bilateral, profound and neurosensorial in 47.4% of the patients. An early onset of hearing loss (< 2 years of age) occurred in 46.5% of the cases. These results are similar to previous literature reports.

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Identification of Novel CDH23 Variants Causing Moderate to Profound Progressive Nonsyndromic Hearing Loss

Genes ◽

10.3390/genes11121474 ◽

2020 ◽

Vol 11 (12) ◽

pp. 1474

Author(s):

Khushnooda Ramzan ◽

Nouf S. Al-Numair ◽

Sarah Al-Ageel ◽

Lina Elbaik ◽

Nadia Sakati ◽

...

Keyword(s):

Hearing Loss ◽

Phenotypic Variability ◽

Usher Syndrome ◽

Three Dimensional ◽

Homozygosity Mapping ◽

Dimensional Structure ◽

Molecular Testing ◽

Compound Heterozygous ◽

Nonsyndromic Hearing Loss ◽

Missense Variants

Mutant alleles of CDH23, a gene that encodes a putative calcium-dependent cell-adhesion glycoprotein with multiple cadherin-like domains, are responsible for both recessive DFNB12 nonsyndromic hearing loss (NSHL) and Usher syndrome 1D (USH1D). The encoded protein cadherin 23 (CDH23) plays a vital role in maintaining normal cochlear and retinal function. The present study’s objective was to elucidate the role of DFNB12 allelic variants of CDH23 in Saudi Arabian patients. Four affected offspring of a consanguineous family with autosomal recessive moderate to profound NSHL without any vestibular or retinal dysfunction were investigated for molecular exploration of genes implicated in hearing impairment. Parallel to this study, we illustrate some possible pitfalls that resulted from unexpected allelic heterogeneity during homozygosity mapping due to identifying a shared homozygous region unrelated to the disease locus. Compound heterozygous missense variants (p.(Asp918Asn); p.(Val1670Asp)) in CDH23 were identified in affected patients by exome sequencing. Both the identified missense variants resulted in a substitution of the conserved residues and evaluation by multiple in silico tools predicted their pathogenicity and variable disruption of CDH23 domains. Three-dimensional structure analysis of human CDH23 confirmed that the residue Asp918 is located at a highly conserved DXD peptide motif and is directly involved in “Ca2+” ion contact. In conclusion, our study identifies pathogenic CDH23 variants responsible for isolated moderate to profound NSHL in Saudi patients and further highlights the associated phenotypic variability with a genotypic hierarchy of CDH23 mutations. The current investigation also supports the application of molecular testing in the clinical diagnosis and genetic counseling of hearing loss.

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Novel USH1G homozygous variant underlying USH2-like phenotype of Usher syndrome

European Journal of Ophthalmology ◽

10.1177/1120672119879392 ◽

2019 ◽

pp. 112067211987939

Author(s):

Fabiana D’Esposito ◽

Viviana Randazzo ◽

Gilda Cennamo ◽

Nicola Centore ◽

Paolo Enrico Maltese ◽

...

Keyword(s):

Hearing Loss ◽

Retinitis Pigmentosa ◽

Sensorineural Hearing Loss ◽

Hearing Impairment ◽

Usher Syndrome ◽

Age At Onset ◽

Vestibular Dysfunction ◽

Sensorineural Hearing ◽

Type I ◽

Missense Variation

Purpose: Usher syndrome (USH) is an autosomal recessive disorder characterized by congenital sensorineural hearing impairment and retinitis pigmentosa. Classification distinguishes three clinical types of which type I (USH1) is the most severe, with vestibular dysfunction as an added feature. To date, 15 genes and 3 loci have been identified with the USH1G gene being an uncommon cause of USH. We describe an atypical USH1G-related phenotype caused by a novel homozygous missense variation in a patient with profound hearing impairment and relatively mild retinitis pigmentosa, but no vestibular dysfunction. Methods: A 26-year-old female patient with profound congenital sensorineural hearing loss, nyctalopia and retinitis pigmentosa was studied. Audiometric, vestibular and ophthalmologic examination was performed. A panel of 13 genes was tested by next-generation sequencing (NGS). Results: While the hearing loss was confirmed to be profound, the vestibular function resulted normal. Although typical retinitis pigmentosa was present, the age at onset was unusually late for USH1 syndrome. A novel homozygous missense variation (c.1187T>A, p.Leu396Gln) in the USH1G gene has been identified as causing the disease in our patient. Conclusions: Genetic and phenotypic heterogeneity are very common in both isolated and syndromic retinal dystrophies and sensorineural hearing loss. Our findings widen the spectrum of USH allelic disorders and strength the concept that variants in genes that are classically known as underlying one specific clinical USH subtype might result in unexpected phenotypes.

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