The subsequent follow-up showed that 13 of 15 FHF pigs that received a transplantation of 3 × 107 cells through the intraportal route survived for at least 6 months. In contrast, all 15 of the animals treated with D-gal that received a sham IPT without cells died within 4 days of FHF. Moreover, all of the animals that received the same number of cells
through the peripheral vein died within 4 days. This http://www.selleckchem.com/products/pexidartinib-plx3397.html result was confirmed by biochemical analysis, which showed that the animals in the IPT group demonstrated significantly improved liver function during the initial 4 days of cell transplantation compared with the control and PVT groups. These results indicate that 3 × 107 purified hBMSCs are sufficient to prevent death from FHF in pigs (approximately 10 kg) and that IPT is a suitable see more delivery approach for hBMSCs to reach the injury site and promote hepatocyte differentiation. The contribution of BMSCs to liver regeneration via spontaneous transdifferentiation or cell fusion has been widely demonstrated in animals and humans.24, 29-31 Recently, Chamberlain et al.19 demonstrated that hBMSC-derived hepatocytes exhibited widespread distribution in the liver parenchyma 56-70 days after hBMSC intrahepatic transplantation
into fetal sheep. However, other investigators demonstrated that hepatocyte replacement after bone marrow transplantation occurred at a low frequency and that hBMSC-derived hepatocytes were only rarely detected 4 weeks after transplantation in a model of acute liver injury with hBMSC transfusion.32, 33 In our study, all 13 surviving animals exhibited a nearly normal liver structure at week 3 after hBMSC IPT. Approximately 30% of the transplanted hBMSC-derived hepatocytes were widely distributed in the repopulated selleck products liver, as demonstrated by immunohistochemistry and validated by ELISA and qPCR at weeks 2, 5, and 10 after IPT. Although the FHF animals completely recovered, the number of hBMSC-derived hepatocytes decreased to undetectable
levels by week 20, which may have been the result of the natural death of the transplanted human-derived hepatocytes in recipient animals (the average life span of hepatocytes is 5 months). These results indicate that transplanted hBMSCs play a significant role in repopulating the liver in several types of damage in FHF. To augment the function of the damaged recipient liver, the transplanted hBMSCs may quickly home to the toxic, proapoptotic/necrotic liver and participate in liver regeneration via proliferation and transdifferentiation into hepatocytes, and they may stimulate the regeneration of endogenous hepatocytes via secreted molecules. We could not unequivocally demonstrate that sufficient human hepatocytes were generated from hBMSCs to significantly support the liver function and rescue the FHF animals during the initial 4 days.