期刊
JOURNAL OF MOLECULAR MEDICINE-JMM
卷 92, 期 6, 页码 651-663出版社
SPRINGER
DOI: 10.1007/s00109-014-1128-3
关键词
DFNB8/10; TMPRSS3 mutations; Cochlear implantation; Ski-slope audiogram
资金
- Seoul National University Bundang Hospital research fund
- SK Telecom (health connect) [06-2013-094]
- Korean Health Technology R&D project, Ministry for Health, Welfare and Family Affairs, Republic of Korea [A111377]
- Korea Health Promotion Institute [A111377] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
Appropriate customized auditory rehabilitation for hearing impaired subjects requires prediction of residual hearing and progression of hearing loss. Mutations in TMPRSS3 encoding a transmembrane serine protease were reported to be associated with two different autosomal recessive nonsyndromic hearing loss (arNSHL) phenotypes, DFNB8 and DFNB10, in terms of residual hearing that may mandate different rehabilitation. We aimed to reveal the genetic contribution of TMPRSS3 mutations among Korean populations and to correlate the clinical phenotype with TMPRSS3 genotypes. Fifty families that segregated arNSHL and have visited our clinic recently for 2 years were recruited for TMPRSS3 screening. Novel TMPRSS3 variants detected in our cohort were modeled using a predicted three-dimensional (3D) structure of the serine protease domain. The prevalence reached up to 11.2 % (3/27) among subjects with either prelingual hearing loss but retaining some degree of language development or with postlingual ski-slope hearing loss. We also found that a p.A306T allele is a founder allele in this population. Based upon the 3D modeling, we were able to correlate significant retention of residual low-frequency hearing and slower progression of its loss to this novel variant p.T248M that was predicted to have milder pathogenicity. A yeast-based protease assay confirmed a mild pathogenic potential of the p.T248M variant and a tight correlation between the protease activity and the residual hearing. Preservation of this low-frequency hearing should be of utmost importance when considering auditory rehabilitation. Our results significantly narrow down the candidate population for TMPRSS3 sequencing for more efficient genetic diagnosis. More importantly, genotype-phenotype correlation of this gene observed in our cohort suggests that TMPRSS3 can be an appropriate candidate for personalized and customized auditory rehabilitation.
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