Optimized in vivo base editing restores auditory function in a DFNA15 mouse model.

Abstract

Genetic mutations cause hereditary deafness, in which mutations in the POU4 transcription factor 3 gene (POU4F3) lead to autosomal dominant non-syndromic deafness 15 (DFNA15), for which no effective clinical treatment currently exists. Gene editing holds promise for precisely repairing mutated nucleotides, thus offering a potential cure for hereditary hearing loss. Here, we establish a Pou4f3mutant mouse model mimicking DFNA15. We develop and screen adenine base editors (ABEs) targeting the Pou4f3allele by fusing diverse adenine deaminases to Cas9 we discovered before. SchABE8e accomplishes highly precise and efficient editing (up to 48.5%) at sgRNA3 in vitro. Neonatal Pou4f3mice are treated via synthetic AAV (Anc80L65)-delivered SchABE8e-sgRNA3, resulting in near-complete hearing recovery, with the effect persisting for at least four months. Biosafety analyses further support the feasibility of base editing, providing a therapeutic strategy for DFNA15.