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Abstract
BackgroundNonsyndromic hearing loss (NSHL) is the most common sensorineural disorder and one of the most common human defects. Autosomal recessive inheritance accounts for a huge percentage of familial cases. Next‐generation sequencing (NGS) is a powerful molecular diagnostic strategy for NSHL. The combination of a microarray gene chip and NGS can better delineate the etiology and genetic cause of deafness in many cases.MethodsOne hundred and thirty‐one unrelated students with NSHL who attend a special education school in Yunnan Province were recruited. Firstly, four common deafness‐related genes (GJB2, GJB3, SLC26A4, and mtDNA 12S rRNA) were evaluated for mutations using a microarray kit. Furthermore, 227 known human deafness genes were sequenced to identify the responsible genetic variant of the proband in three Chinese families with autosomal recessive hearing loss. The mutational status of family members of the probands was validated by Sanger sequencing.ResultsFive novel variants were found in three families using NGS. In family 1, we identified compound heterozygosity at the MYO15A (OMIM, #600316), including an duplication variant c.3866dupC, p.His1290Alafs*25 and a 3‐bp deletion (c.10251_10253del, p.Phe3420del), resulting in protein length changes and premature protein truncation, respectively. In family 2, two affected siblings from a consanguineous Chinese Dai family harbored an c.1274G>C, p.Arg425Pro missense variant in the OTOF (OMIM, #601071). In family 3, we identified compound heterozygosity for c.129_130del, p.His43Glnfs*28 and c.76_79del, p.Lys26* in the RDX gene (OMIM, #611022).ConclusionFive novel variants were found in three families with NSHL. Our findings extend the mutational spectrum in deafness‐related genes and will help physicians in better understanding the etiology of hearing loss.
Highlights
Hearing loss (HL) is a sensory defect that affects 1–3 in every 1,000 newborns worldwide, and half of these cases are attributed to genetic factors (Shen et al, 2017)
We found five novel variants in three genes
Based on their variable C‐terminal binding domain, they are classified as conventional MYO and unconventional MYO
Summary
Hearing loss (HL) is a sensory defect that affects 1–3 in every 1,000 newborns worldwide, and half of these cases are attributed to genetic factors (Shen et al, 2017). HL can be classified according to age of onset, signs and symptoms, severity, and genetic basis. HL is divided into syndromic and nonsyndromic by its accompanying signs and symptoms, and classified into four grades (mild, moderate, severe, and profound) according to severity (Li & Ping, 2002). Nonsyndromic hearing loss (NSHL) makes up a large proportion of HL. A small proportion of cases (1%–2%) show X‐linked or mitochondrial inheritance (Atik, Bademci, Diaz‐Horta, Blanton, & Tekin, 2015). More than 60 genes have been identified and at least 1,949 pathogenic variants have been reported for NSHL (http:// hereditaryhearingloss.org/). We used a microarray kit for the initial screening of four genes, and NGS was applied to explore causal variants in cases for which no variants were detected using the microarray. Five new variants were found in MYO15A, OTOF, and RDX
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