Biosafety in ex vivo gene therapy and conditional ablation of lentivirally transduced hepatocytes in nonhuman primates.

Ex vivo gene therapy is an interesting alternative to orthotopic liver transplantation (OLT) for treating metabolic liver diseases. In this study, we investigated its efficacy and biosafety in nonhuman primates. Hepatocytes isolated from liver lobectomy were transduced in suspension with a bicistronic liver-specific lentiviral vector and immediately autotransplanted (SLIT) into three cynomolgus monkeys. The vector encoded cynomolgus erythropoietin (EPO) and the conditional suicide gene herpes simplex virus-thymidine kinase (HSV-TK). Survival of transduced hepatocytes and vector dissemination were evaluated by detecting transgene expression and vector DNA. SLIT was safely performed within a day in all three subjects. Serum EPO and hematocrit rapidly increased post-SLIT and their values returned to baseline within about 1 month. Isoforms of EPO detected in monkeys' sera differed from the physiological renal EPO. In liver biopsies at months 8 and 15, we detected EPO protein, vector mRNA and DNA, demonstrating long-term survival and functionality of transplanted lentivirally transduced hepatocytes. Valganciclovir administration resulted in complete ablation of the transduced hepatocytes. We demonstrated the feasibility and biosafety of SLIT, and the long term (>1 year) functionality of lentivirally transduced hepatocytes in nonhuman primates. The HSV-TK/valganciclovir suicide strategy can increase the biosafety of liver gene therapy protocols by safely and completely ablating transduced hepatocytes on demand.

A step toward liver gene therapy: efficient correction of the genetic defect of hepatocytes isolated from a patient with Crigler-Najjar syndrome type 1 with lentiviral vectors.

BACKGROUND: Ex vivo liver gene therapy may be a future alternative to orthotopic liver transplantation for the treatment of some liver diseases. We previously described the transduction in suspension with lentiviral vectors and immediate hepatocyte transplantation (SLIT) protocol and its high transduction rate with normal human hepatocytes. We also reported SLIT efficiency in the animal model of Crigler-Najjar type 1 syndrome (CN-1), the Gunn rat. Here, we evaluated SLIT efficiency with diseased human hepatocytes. METHODS: Hepatocytes of the liver from a 4-year-old patient presenting CN-1 were isolated. They were transduced with liver-specific lentiviral vectors expressing uridine-diphosphate-glucuronosyltransferase (hUGT1A1) or green fluorescent protein, and then analyzed in vitro for transduction efficiency and hUGT1A1 expression, or transplanted in nonobese diabetic/severe combined immunodeficiency (SCID) mice to evaluate long-term survival of transplanted cells. RESULTS: More than 90% of CN-1 hepatocytes were transduced. Hepatocytes produced hUGT1A1 protein after lentiviral transduction. After having been subjected to the SLIT, lentivirally transduced CN-1 hepatocytes engrafted long term (up to 26 weeks posttransplantation) in recipient livers and expressed green fluorescent protein or hUGT1A1 vector. CONCLUSION: The SLIT protocol allowed for a high transduction of CN-1 hepatocytes and restoration of the expression of the deficient protein. Furthermore, long-term survival of lentivirally transduced CN-1 hepatocytes in the liver of immunodeficient mice was demonstrated. This study is therefore an important step toward human application of lentiviral gene therapy.