Abstract
Several genes guide inner ear development, and mutations in these genes can cause malformations that result in congenital hearing loss. However, the contribution of noncoding regulatory elements remains largely unclear. This study investigates the function of distal enhancer elements in the transcriptional regulation of GDF6, a gene implicated in cochlear development. Using mouse models with targeted deletions, human inner ear organoids, and CRISPR interference (CRISPRi), we identified a downstream regulatory interval harboring a developmental enhancer required to maintain GDF6 expression during otic epithelial maturation and cochlear morphogenesis. Deletion of this regulatory region or targeting of CRISPRi-based repressors to these regions resulted in decreased GDF6 expression, failure of otic-epithelium development, and prevention of hair cell-like differentiation, reflecting cochlear aplasia observed in patients with corresponding genomic deletions. These findings highlight the contribution of long-range regulatory elements to auditory development and illustrate how their disruption contributes to human deafness.
Authors
Mohammad Faraz Zafeer, Clemer Abad, Havva Ortabozkoyun, Memoona Ramzan, Guney Bademci, Maria C. Robayo, Duygu Duman, Rolen M. Quadros, Shengru Guo, Juan I. Young, Anthony J. Griswold, Channabasavaiah B. Gurumurthy, Derek M. Dykxhoorn, Katherina Walz, Mustafa Tekin
