[Allotransplantation in utero and immortalization of primate fetal hepatocytes]. / Allotransplantation in utero et immortalisation d'hépatocytes foetaux de primates.

We are developing cell therapy approaches on non-human primates as a preclinical model for the treatment of hepatic metabolic diseases. In foetuses, the tissues, including liver, are in expansion, which should facilitate hepatocytes engraftment, and the immune system becomes fully mature only after birth. We have set out conditions for isolation of fetal hepatocytes from macaca mulatta at the end of the 2nd trimester of gestation (90-100 days), their cryopreservation and retroviral transduction. Two different routes of administration of hepatocytes were evaluated: the umbilical vein which was deleterious for the foetuses, and the intraparenchymatous injection which was well tolerated by the animals. Administration of hepatocytes into the hepatic parenchyma resulted in microchimerism and allogenic cells were visualized 9 days after transplantation. Another approach has been to immortalize simian foetal hepatocytes using a retroviral vector expressing SV40 Large T flanked by lox sites. A cell line has been established for 2 years, which is not tumorigenic when injected subcutaneously into nude mice and display characteristics of bipotent hepatoblasts, precursors of hepatocytes and biliary cells. After orthotopic transplantation into nude mice via the portal vein, these cells expressed albumin until the sacrifice of the animals (17 days). The next steps will be to define conditions for transplantation of retrovirally transduced fetal primary and/or immortalized hepatocytes into young foetuses (60 days of gestation) and post-natally.

[Effect of portal branch ligation on liver regeneration in the rat]. / Effet de la ligature portale partielle sur la régénération hépatique chez le rat.

GOAL: The aim of this study was to assess liver regeneration after partial portal ligation. METHODS: 70% partial portal occlusion was obtained by ligation of the left portal vein branch. Total liver weight ratio were measured 96 hours after partial portal occlusion and in sham operated animals. The kinetics of hepatocytes division was evaluated by measuring the incorporation of 5-bromo-21-deoxyuridine into replicating cells at various time points by immunohistochemistry. RESULTS: Partial portal occlusion did not alter the total liver weight 96 hours after surgery. It resulted in atrophy of the ligated lobes and hypertrophy of the lobes with preserved portal flow. Hypertrophy was associated to an increase of the percentage of replicating hepatocytes. The replication rate was maximum at 28 hours with a peak at 12.5% and was prolonged beyond the 48th hour. CONCLUSIONS: Partial portal occlusion results in major and prolonged regeneration process in the liver lobes with preserved portal flow.