Therapeutic restoration of miR-96 prevents hearing loss in mice through modulation of noise-induced and genetic pathways

Hearing loss often arises from impairments in multiple genes, complicating therapeutic development. MicroRNAs, as master regulators, offer promising targets for complex diseases. We explored miR-96's roles in hair cell (HC) function and noise-induced hearing loss (NIHL), finding that miR-96 (-/-), not miR-96 (+/-) , mice exhibited progressive hearing loss due to gene regulatory network dysregulation from miR-96 loss in HCs not spiral ganglion neurons (SGNs). Viral-mediated delivery of miR-96 into the inner ear partially rescued hearing of miR-96 (-/-) mice. Tamoxifen-induced depletion of miR-96 in adult UBC (CreERT2/+) ; miR-96 (fl/fl) mice led to hearing loss, with Bach2, Gabra2, Gabra4, and Grk1 upregulation and Tnn, Col11a1, Gjb3, and Hnf4a downregulation. Furthermore, noise trauma reduced miR-96, altering Bach2, Bcl2l1, Slc26a9, Gabrb1, Grk1, Nos2, and Cyp1a1 expression, whereas miR-96 overexpression protected hearing against noise by reversing the expression of Bach2, Bcl2l1, and Cyp1a1. Our findings underscore miR-96's essential role in adult hearing maintenance and NIHL prevention, presenting it as a promising therapeutic target.