In vivo adenine base editing ameliorates Rho-associated autosomal dominant retinitis pigmentosa.

Mutations in the Rhodopsin (RHO) gene are the main cause of autosomal dominant retinitis pigmentosa (adRP), 84% of which are pathogenic gain-of-function point mutations. Treatment strategies for adRP typically involve silencing or ablating the pathogenic allele, while normal RHO protein replacement has no meaningful therapeutic benefit. Here, we present an adenine base editor (ABE)-mediated therapeutic approach for adRP caused by RHO point mutations in vivo. The correctable pathogenic mutations are screened and verified, including T17M, Q344ter, and P347L. Two adRP animal models are created carrying the class 1 (Q344ter) and class 2 (T17M) mutations, and dual AAV-delivered ABE can effectively repair both mutations in vivo. The early intervention of ABE8e efficiently corrects the Q344ter mutation that causes a severe form of adRP, delays photoreceptor death, and restores retinal function and visual behavior. These results suggest that ABE is a promising alternative to treat RHO mutation-associated adRP. Our work provides an effective spacer-mediated point mutation correction therapy approach for dominantly inherited ocular disorders.