Rare KCNQ4 variants found in public databases underlie impaired channel activity that may contribute to hearing impairment

Jinsei Jung,Haiyue Lin,Wan Namkung,Kunhi Ryu,Jae Young Choi,Hak Joon Lee,Seyoung Yu,Ji Hyun Lee,Young Ik Koh,Hyunsoo Jin,Hye-Youn Kim,Joon Suk Lee,Heon Yung Gee,Min Goo Lee,John Hoon Rim,Hye Ji Choi

doi:10.1038/s12276-019-0300-9

Abstract

KCNQ4 is frequently mutated in autosomal dominant non-syndromic hearing loss (NSHL), a typically late-onset, initially high-frequency loss that progresses over time (DFNA2). Most KCNQ4 mutations linked to hearing loss are clustered around the pore region of the protein and lead to loss of KCNQ4-mediated potassium currents. To understand the contribution of KCNQ4 variants to NSHL, we surveyed public databases and found 17 loss-of-function and six missense KCNQ4 variants affecting amino acids around the pore region. The missense variants have not been reported as pathogenic and are present at a low frequency (minor allele frequency < 0.0005) in the population. We examined the functional impact of these variants, which, interestingly, induced a reduction in potassium channel activity without altering expression or trafficking of the channel protein, being functionally similar to DFNA2-associated KCNQ4 mutations. Therefore, these variants may be risk factors for late-onset hearing loss, and individuals harboring any one of these variants may develop hearing loss during adulthood. Reduced channel activity could be rescued by KCNQ activators, suggesting the possibility of medical intervention. These findings indicate that KCNQ4 variants may contribute more to late-onset NSHL than expected, and therefore, genetic screening for this gene is important for the prevention and treatment of NSHL.

Highlights

KCNQ4 (KV7.4), a voltage-gated potassium channel, plays a critical role in the auditory function of the inner ear by regulating K+ recycling and homeostasis, together with other K+ ion channels (KCNQ1/KCNE1), gap junctions (GJB2, GJB3, and GJB6), and transporters (Na+/ K+/2Cl−)[1,2]
DFNA2-associated KCNQ4 variants In HGMD Professional, 36 KCNQ4 variants have been reported, with most of them linked to ADNSHL except the c
Of the 278 missense KCNQ4 variants in Genome Aggregation Database (gnomAD), we examined the changing amino acid residues between the transmembrane domains (TM) 5 and 6 surrounding the pore region, as most known KCNQ4 variants linked to hearing loss are clustered around this region[7]

Summary

Introduction

KCNQ4 (KV7.4), a voltage-gated potassium channel, plays a critical role in the auditory function of the inner ear by regulating K+ recycling and homeostasis, together with other K+ ion channels (KCNQ1/KCNE1), gap junctions (GJB2, GJB3, and GJB6), and transporters (Na+/ K+/2Cl−)[1,2]. The KCNQ4 gene was first cloned and KCNQ4 is one of the most commonly mutated genes in ADNSHL5. 30 pathologic mutations in KCNQ4 have been identified as the cause of DFNA2 The KCNQ4 channel consists of six transmembrane domains, a pore region, and two intracellular termini[6]. The mutation hotspots in KCNQ4 associated with DFNA2 are clustered around the pore. Official journal of the Korean Society for Biochemistry and Molecular Biology. Jung et al Experimental & Molecular Medicine (2019) 51:99. G296S, which correspond to changes around the pore region of KCNQ4, induced a loss of channel function or decreased membrane expression of the channel protein[4,8,9,10,11,12,13,14,15]

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