28. Intravenous Administration of Lentiviral Vectors Expressing Hyperactive Factor IX Converts Severe Into Mild Hemophilia B in a Canine Model

Abstract

Lentiviral vectors (LVs) are attractive vehicles for liver-directed gene therapy by virtue of their ability to stably integrate in the genome of target cells and the lack of pre-existing immunity against vector components in most humans. Over the past years, we have developed a LV platform that can achieve stable transgene expression in the liver, induce transgene-specific immune tolerance and establish correction of hemophilia in mouse models upon systemic administration. This LV is designed to stringently target transgene expression to hepatocytes through transcriptional and microRNA-mediated regulation. We then investigated the efficacy and safety profile of portal vein administration of LVs expressing wild-type, codon-optimized (c.o.) or c.o. and hyperactive factor IX (FIX) in a canine model of hemophilia B. We produced large-scale batches of LVs qualified for in vivo administration and treated adult hemophilia B dog by portal vein administration. We observed long-term stable reconstitution of canine FIX activity up to 1% of normal and significant amelioration of the clinical phenotype in 3 treated dogs (>9 years cumulative follow up). LV infusion was associated with transient signs of inflammation and mild hepatotoxicity, which could be abrogated by pretreatment with anti-inflammatory drugs. There was no detectable long-term toxicity or development of FIX inhibitors. In the perspective of clinical translation and to increase therapeutic efficacy, we next treated an 11-kg, hemophilia B dog by peripheral vein administration of LVs expressing the c.o. and hyperactive canine FIX at a 5-fold higher dose than those previously administered. At the current follow-up (3 months after gene therapy) FIX activity is 6-9% of normal. Intravenous LV administration, coupled with a 1-day anti-inflammatory and anti-histamine pre-treatment, induced mild and selflimiting leukopenia and elevation of aminotransferases. Treatment of more hemophilia B dogs is underway to confirm and extend these results. Overall, our studies, which suggest comparable efficacy of LV by both portal and peripheral vein administration, position LV-mediated liver gene therapy for further pre-clinical development and clinical translation. LVs may thus complement other available vectors to address some of the outstanding challenges posed by liver gene therapy of hemophilia and conceivably other diseases.