630. AAV Transduction of a Truncated Dysferlin Improves Dysferlinopathy

Abstract

Dysferlinopathy is a progressive muscular dystrophy caused by the absence of functional Dysferlin. Dysferlin cDNA is over the packaging capacity of adeno-associated viral vectors (AAV), complicating potentially therapeutic gene addition strategies. The use of dual or fragmented AAV vectors, while genetically intriguing, is undesired as these formats demonstrate decreased transduction efficiencies. Therefore, an alternative approach using a panel of smaller dysferlin-like molecules was executed in vitro and in vivo in an AAV vector context. Three of the four “hybrid” dysferlin reading frames produced protein which behaved similar to full length dysferlin in localization studies. Upon AAV vector production, only 1 variant (341) demonstrated intact genome packaging despite final cassettes sizes of approximately 5kb. Intramuscular administration of vectors encoding 341 in dysferlin deficient mice resulted in increased muscle integrity without indications of toxicity. Dysferlin deficient mice receiving AAV9-341 through intravenous injection demonstrated increased rearing activity that was sustained 6 months post-injection. Consistently a trend of decreased muscle damage was observed in these mice. Our data suggest that 341, and additional hybrid dysferlin candidates under evaluation, may find relevance for the treatment of dysferlinopathy.