In a number of mouse models of hereditary deafness, therapeutic transgene delivery to the cochlea and vestibular organs using adeno-associated viral vectors (AAVs) has shown striking rescue of hearing and balance. However, only a subset of AAV capsids have shown efficacy in transducing both inner hair cells and outer hair cells, and it is also not clear which of these can be translated to treatment of human inner ear. We recently reported efficient transgene expression of a GFP reporter in a non-human primate cochlea, in both inner and outer hair cells, following injection of the AAV9 capsid variant PHP.B via the round window membrane (RWM). However efficiency was poor at a lower dose. To further define the transduction potential of AAV9-PHP.B, we have performed a dosing study in the cynomolgus monkey and assessed vector-encoded GFP expression. Three animals were injected in both ears and four doses were tested. We describe a transmastoid surgical approach needed to access the RWM of this common primate model. We found that AAV9-PHP.B transduced nearly 100% of both IHCs and OHCs, from base to apex, at the higher doses (3.5 × 1011 and 7 × 1011 vector genomes). However, at lower doses there was a steep reduction in viral transduction. Thus, AAV9-PHP.B efficiently transduces the IHCs and OHCs of nonhuman primates, and should be considered as an AAV capsid for inner ear gene therapy in humans.
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