Mutations in TMEM43 cause autosomal dominant auditory neuropathy spectrum disorder via interaction with connexin-mediated passive conductance channels
Author:
Jang Minwoo Wendy, Oh Doo-Yi, Yi Eunyoung, Liu Xuezhong, Ling Jie, Kim Nayoung, Sharma Kushal, Kim Tai Young, Lee Seungmin, Kim Ah-Reum, Kim Min Young, Kim Min-A, Lee Mingyu, Han Jin-Hee, Han Jae Joon, Park Hye-Rim, Kim Bong Jik, Lee Sang-Yeon, Woo Dong Ho, Oh Jayoung, Oh Soo-Jin, Du Tingting, Koo Ja-Won, Oh Seung Ha, Shin Hyun Woo, Seong Moon-Woo, Lee Kyu Yup, Kim Un-Kyung, Shin Jung Bum, Sang Shushan, Cai Xinzhang, Mei Lingyun, He Chufeng, Blanton Susan H., Chen Zheng-Yi, Chen Hongsheng, Liu Xianlin, Nourbakhsh Aida, Huang Zaohua, Park Woong-Yang, Feng Yong, Lee C. JustinORCID, Choi Byung Yoon
Abstract
AbstractGenes that are primarily expressed in cochlear glia-like supporting cells (GLSs) have never been clearly associated with progressive deafness. Herein, we present a novel deafness locus mapped to chromosome 3p25.1 and a new auditory neuropathy spectrum disorder (ANSD) gene TMEM43 mainly expressed in GLSs. We identify p.R372X of TMEM43 by linkage analysis and exome sequencing in two large Asian families. The knock-in (KI) mouse with p.R372X mutation recapitulates a progressive hearing loss with histological abnormalities exclusively in GLSs. Mechanistically, TMEM43 interacts with Cx26 and Cx30 gap junction channels, disrupting the passive conductance current in GLSs in a dominant-negative fashion when the p.R372X mutation is introduced. Based on the mechanistic insights, cochlear implant was performed on two patients and speech discrimination was successfully restored. Our study highlights a pathological role of cochlear GLSs by identifying a novel deafness gene and its causal relationship with ANSD.
Publisher
Cold Spring Harbor Laboratory
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