Functional evaluation of GJB2 variants in nonsyndromic hearing loss

Soo Young Choi, Kyu Yup Lee, Hyun Jin Kim, Hyo Kyeong Kim, Qing Chang, Hong Joon Park, Chang Jin Jeon, Xi Lin, Jinwoong Bok, Un Kyung Kim

Research output: Contribution to journalArticlepeer-review

29 Scopus citations

Abstract

Mutations in the gap junction β2 (GJB2) gene, encoding the connexin26 (CX26) protein, are the most common cause of non-syndromic hearing loss (HL) in many populations. In the East Asian population, two variants, p.V27I (c.79G>A) and p.E114G (c.341G>A), are considered benign polymorphisms since these variants have been identified in both HL patients and normal hearing controls. However, some studies have postulated that homozygotes carrying both p.V27Iand p.E114Gvariants could cause HL. To elucidate possible roles of these variants, we used in vitro approaches to directly assess the pathogenicity of four haplo-types generated by the two polymorphisms: VE (wild type), I*E (p.V27I variant only), VG* (p.E114G variant only), I*G* (both variants). In biochemical coupling assays, the gap junctions (GJs) composed of VG* and I*G* types displayed defective channel activities compared with those of VE wild types or I*E types, which showed normal channel activities. Interestingly, the defect in hemichannel activity was a bit less severe in I*G* type than VG* type, suggesting that I* variant (p.V27I) may compensate for the deleterious effect of G* variant (p.E114G) in hemichannel activities. Our population studies using 412 Korean individuals showed that I*G* type was detected at around 20% in both HL patients and normal controls, suggesting that I*G* type may not be a pathogenic polymorphism. In contrast, VG* type was very rare (3/824) and detected only in HL patients, suggesting that VG* ho-mozygotes (VG*/VG*) or compound heterozygotes carrying VG* type with other mutations may cause HL.

Original languageEnglish
Pages (from-to)550-556
Number of pages7
JournalMolecular Medicine
Volume17
Issue number5-6
DOIs
StatePublished - May 2011

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