Biallelic variants of SEMA3F are associated with nonsyndromic hearing loss

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Authors: Sun Young Joo ; Hyehyun Min ; Jung Ah Kim ; Se Jin Kim ; Seung Hyun Jang ; Ho Lee ; Kyu Min Kim ; Je Kyung Seong ; Jae Young Choi ; Jinsei Jung ; Jinwoong Bok ; Heon Yung Gee

MeSH: Alleles ; Animals ; Deafness* / genetics ; Female ; Human Umbilical Vein Endothelial Cells ; Humans ; Male ; Membrane Proteins* / genetics ; Membrane Proteins* / metabolism ; Mice ; Mice, Knockout ; Nerve Tissue Proteins* / genetics ; Nerve Tissue Proteins* / metabolism ; Pedigree

Keywords: Exome sequencing ; Hearing loss ; Outer hair cell ; SEMA3F ; Spiral ganglion neuron

Abstract: It is crucial to manage hearing loss and its associated public health impacts. In this study, we aimed to understand the role of Sema3f in the development and maintenance of the auditory system. Inner ear-specific Sema3f knockout mice exhibited hearing loss at 8 weeks with an elevated threshold for auditory brainstem response and an absent threshold for distortion product optoacoustic emission tests. Additionally, an increased number of outer hair cells and abnormal patterns of spiral ganglion neuron projections in the outer hair cell regions were observed. Through the analyses of sequencing data from 558 families with hearing loss, we identified biallelic variants of SEMA3F, which encodes semaphorin-3F, in one of the families. In the family, the proband showed profound progressive nonsyndromic hearing loss with congenital onset. In vitro analysis revealed that the identified missense variants decreased the furin-mediated processing of SEMA3F and abolished the cellular abilities of SEMA3F, which collapsed the filamentous actin cytoskeleton in human umbilical vein-derived endothelial cells. Our data suggest that SEMA3F is essential for normal hearing and is associated with nonsyndromic hearing loss in humans.