CHD7 and SOX2 act in a common gene regulatory network during mammalian semicircular canal and cochlear development

Inner ear morphogenesis requires tightly regulated epigenetic and transcriptional control of gene expression. CHD7, an ATP-dependent chromodomain helicase DNA-binding protein, and SOX2, an SRY-related HMG box pioneer transcription factor, are known to contribute to vestibular and auditory system dev...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2024-03, Vol.121 (10), p.e2311720121
Main Authors: Gao, Jingxia, Skidmore, Jennifer M, Cimerman, Jelka, Ritter, K Elaine, Qiu, Jingyun, Wilson, Lindsey M Q, Raphael, Yehoash, Kwan, Kelvin Y, Martin, Donna M
Format: Article
Language:English
Subjects:
Animals
Auditory system
Biological Sciences
Cell proliferation
Cells (biology)
Cochlea
Critical period
DNA helicase
DNA-binding protein
Ear
Ear canal
Enhancers
Epigenetics
Gene expression
Gene Expression Regulation, Developmental
Gene Regulatory Networks
Gene sequencing
Genomes
Hair cells
Haploinsufficiency
Inner ear
Mammals
Mice
Morphogenesis
Otx2 protein
Pax2 protein
Progenitor cells
Semicircular Canals
Transcription Factors
Vestibular system
Vestibule, Labyrinth
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Summary:Inner ear morphogenesis requires tightly regulated epigenetic and transcriptional control of gene expression. CHD7, an ATP-dependent chromodomain helicase DNA-binding protein, and SOX2, an SRY-related HMG box pioneer transcription factor, are known to contribute to vestibular and auditory system development, but their genetic interactions in the ear have not been explored. Here, we analyzed inner ear development and the transcriptional regulatory landscapes in mice with variable dosages of and/or . We show that combined haploinsufficiency for and results in reduced otic cell proliferation, severe malformations of semicircular canals, and shortened cochleae with ectopic hair cells. Examination of mice with conditional, inducible loss by reveals a critical period (~E9.5) of susceptibility in the inner ear to combined and loss. Data from genome-wide RNA-sequencing and CUT&Tag studies in the otocyst show that CHD7 regulates expression and acts early in a gene regulatory network to control expression of key otic patterning genes, including and . CHD7 and SOX2 directly bind independently and cooperatively at transcription start sites and enhancers to regulate otic progenitor cell gene expression. Together, our findings reveal essential roles for and in early inner ear development and may be applicable for syndromic and other forms of hearing or balance disorders.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.2311720121