SLC26A4 C.919-2A>G Varies Among Chinese Ethnic Groups As a Cause of Hearing Loss

Overview

Journal Genet Med

Publisher Elsevier

Specialty Genetics

Date 2008 Jul 22

PMID 18641518

Citations 31

Authors

Pu Dai

Qi Li

Deliang Huang

Yongyi Yuan

Dongyang Kang

David T Miller

Hong Shao

Qingwen Zhu

Jia He

Fei Yu

Xin Liu

Bing Han

Huijun Yuan

Orah S Platt

Dongyi Han

Bai-Lin Wu

Affiliations

Soon will be listed here.

Abstract

Purpose: Mutations in the SLC26A4 gene are second only to GJB2 mutations as a currently identifiable genetic cause of sensorineural hearing loss. In most areas of China, genetic testing for sensorineural hearing loss is unavailable because of limited knowledge of the mutation spectrum. Although SLC26A4 c.919-2A>G (IVS7-2A>G) is a common mutation among some Asian populations, the mutation prevalence among various ethnic groups within China has not been studied.

Methods: DNA specimens from 3271 subjects with moderate to profound sensorineural hearing loss from 27 regions of China were genotyped for the c.919-2A>G mutation by polymerase chain reaction/restriction-fragment-length polymorphism. Normal hearing controls from Han (n = 185) and Uigur (n = 152) populations were also tested.

Results: Overall, 408 subjects with sensorineural hearing loss (12.5%) carried at least one c.919-2A>G allele, with 158 (4.8%) homozygotes and 250 (7.6%) heterozygotes. Within the subpopulations examined, the rate varies from 0% to 12.2% for c.919-2A>G homozygotes and from 0% to 17.6% for heterozygotes. Based on this cohort, Chinese subjects with sensorineural hearing loss seem to have a relatively higher c.919-2A>G frequency than that of other Asian populations.

Conclusion: These results demonstrate that a simple and efficient genetic test for the c.919-2A>G mutation alone would identify the molecular cause in up to 8-12% of individuals with sensorineural hearing loss in a few eastern and central regions of China. Those who are negative for the c.919-2A>G mutation would be candidates for further mutational analysis of SLC26A4 or other deafness-related genes. This would greatly improve genetic diagnosis and counseling for a huge number of Chinese individuals and family members with sensorineural hearing loss in China, and many more ethnic Chinese in other countries, which might be up to one million.

Citing Articles

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CRISPR/Cas9-mediated exon skipping to restore premature translation termination in a DFNB4 mouse model.

Huang C, Tsai Y, Cheng Y, Wu P, Chuang Y, Huang P Gene Ther. 2024; 31(11-12):531-540.

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Low frequency of SLC26A4 c.919-2A > G variant among patients with nonsyndromic hearing loss in Yunnan of Southwest China.

Li Y, Ma H, Wang Q, Liu D, Wang W, Li S BMC Med Genomics. 2024; 17(1):55.

PMID: 38378613 PMC: 10877886. DOI: 10.1186/s12920-024-01829-3.

Carrier frequencies, trends, and geographical distribution of hearing loss variants in China: The pooled analysis of 2,161,984 newborns.

Feng J, Zeng Z, Luo S, Liu X, Luo Q, Yang K Heliyon. 2024; 10(3):e24850.

PMID: 38322914 PMC: 10845244. DOI: 10.1016/j.heliyon.2024.e24850.

Insight into the Natural History of Pathogenic Variant c.919-2A>G in the Gene Involved in Hearing Loss: The Evidence for Its Common Origin in Southern Siberia (Russia).

Danilchenko V, Zytsar M, Maslova E, Orishchenko K, Posukh O Genes (Basel). 2023; 14(4).

PMID: 37107686 PMC: 10137394. DOI: 10.3390/genes14040928.