384. AAV9 -Frataxin Reduces the Symptoms and Prolongs the Life of Friedreich Ataxia Mouse Models

Friedreich ataxia (FRDA) is a genetic disease due to increased repeats of the GAA trinucleotide in intron 1 of the frataxin gene. This mutation leads to a reduced expression of frataxin. We have produced an AAV9 coding for human frataxin (AAV9-hFXN). This AAV was delivered by intra-peritoneal injection to young conditionally knockout mice in which the frataxin gene had been knocked-out in some tissues during embryogenesis by breeding them with mice expressing the Cre recombinase gene under the MCK or the NSE promoter. In the first part of the study different doses of virus were tested from 6×1011 v.p. to 6×109 v.p. in NSE-cre mice and all leading to an increase in life spent of the mice. The higher and the lower dose were also tested in MCK-cre mice. A single administration of the AAV9-hFXN at 6×1011 v.p. more than doubled the life of these mice. In fact the MCK-cre mice treated with the AAV9-hFXN were sacrificed for further molecular investigations at the age of 29 weeks without apparent symptoms. Echography analysis of the heart function clearly indicated that the cardiac systolic function was better preserved in the mice that received 6×1011 v.p. of AAV9-hFXN. The human frataxin protein was detected by ELISA in the heart, brain, muscles, kidney and liver with the higher dose of virus in both mouse models. Thus gene therapy with an AAV9-hFXN is a potential treatment of FRDA.