Abstract
Postlingual progressive hearing loss, affecting primarily the high frequencies, is the clinical finding in most cases of autosomal dominant nonsyndromic hearing loss (ADNSHL). The molecular genetic etiology of ADNSHL is extremely heterogeneous. We applied whole-exome sequencing to reveal the genetic etiology of high-frequency hearing loss in a mid-sized Korean family without any prior linkage data. Whole-exome sequencing of four family members (two affected and two unaffected), together with our filtering strategy based on comprehensive bioinformatics analyses, identified 21 potential pathogenic candidates. Sanger validation of an additional five family members excluded 20 variants, leaving only one novel variant, TECTA c.710C>T (p.T237I), as the strongest candidate. This variant resides in the entactin (ENT) domain and co-segregated perfectly with non-progressive high-frequency hearing loss in the family. It was absent among 700 ethnically matched control chromosomes, and the T237 residue is conserved among species, which supports its pathogenicity. Interestingly, this finding contrasted with a previously proposed genotype-phenotype correlation in which variants of the ENT domain of TECTA were associated with mid-frequency hearing loss. Based upon what we observed, we propose a novel “genotype to phenotype” correlation in the ENT domain of TECTA. Our results shed light on another important application of whole-exome sequencing: the establishment of a novel genotype-phenotype in the molecular genetic diagnosis of autosomal dominant hearing loss.
Highlights
Postlingual progressive hearing loss, primarily affecting higher frequencies, is the clinical finding in most cases of autosomal dominant nonsyndromic hearing loss (ADNSHL) [1]
TECTA has been identified as the causative gene for DFNA8/12 [2,3] as well as DFNB21 [4]
The majority of missense mutations that cause hearing loss related to TECTA reside in the zona pellucida and zonadhesin domains of the gene [16]
Summary
Postlingual progressive hearing loss, primarily affecting higher frequencies, is the clinical finding in most cases of autosomal dominant nonsyndromic hearing loss (ADNSHL) [1]. 64 loci and 27 autosomal genes have been identified (http://hereditaryhearingloss.org). Mutation screening is rarely offered to patients, owing to the extreme clinical and genetic heterogeneity of ADNSHL. Regarding this heterogeneity, TECTA has been identified as the causative gene for DFNA8/12 [2,3] as well as DFNB21 [4]. Alpha-tectorin, a major non-collagenous component of the tectorial membrane, is encoded by the TECTA gene located on human chromosome 11q22-24 [3,5,6]. Autosomal dominant missense mutations in TECTA give rise to various hearing loss phenotypes, depending on the protein domains in which the mutations reside, in contrast with autosomal recessive mutations that show similar phenotypes [3,9,10,11,12,13,14,15,16,17,18,19,20]
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