Characterising the spectrum of autosomal recessive hereditary hearing loss in Iran.

BACKGROUND: Countries with culturally accepted consanguinity provide a unique resource for the study of rare recessively inherited genetic diseases. Although hereditary hearing loss (HHL) is not uncommon, it is genetically heterogeneous, with over 85 genes causally implicated in non-syndromic hearing loss (NSHL). This heterogeneity makes many gene-specific types of NSHL exceedingly rare. We sought to define the spectrum of autosomal recessive HHL in Iran by investigating both common and rarely diagnosed deafness-causing genes. DESIGN: Using a custom targeted genomic enrichment (TGE) panel, we simultaneously interrogated all known genetic causes of NSHL in a cohort of 302 GJB2-negative Iranian families. RESULTS: We established a genetic diagnosis for 67% of probands and their families, with over half of all diagnoses attributable to variants in five genes: SLC26A4, MYO15A, MYO7A, CDH23 and PCDH15. As a reflection of the power of consanguinity mapping, 26 genes were identified as causative for NSHL in the Iranian population for the first time. In total, 179 deafness-causing variants were identified in 40 genes in 201 probands, including 110 novel single nucleotide or small insertion-deletion variants and three novel CNV. Several variants represent founder mutations. CONCLUSION: This study attests to the power of TGE and massively parallel sequencing as a diagnostic tool for the evaluation of hearing loss in Iran, and expands on our understanding of the genetics of HHL in this country. Families negative for variants in the genes represented on this panel represent an excellent cohort for novel gene discovery.

Carrier Testing in Known Autosomal Recessive Intellectual Disability Genes in an Iranian Healthy Individual Using Exome Sequencing.

BACKGROUND: Intellectual Disability (ID) is one of the most common disabling impairments worldwide. Autosomal recessive ID (ARID), a genetically heterogeneous disorder, is more common in countries such as Iran where the rate of consanguineous marriages is high. Considering the social-economic burden of ARID in our country, it is crucial to find out whether couples who are cousins are carriers for disease causing mutations, in order to prevent the birth of an affected child. METHODS: Using exome sequencing, we screened known ARID genes in a normal individual to identify possible mutations in heterozygous form. RESULTS: We identified four protein coding alleles which possibly affect protein function, in different ID genes: PMM2, RBM28, SLC19A3, and VPS13B. CONCLUSION: These findings can be used to prevent the birth of children with ARID by checking the other partner for possible disease causing variants.