BACKGROUND: In vitro differentiation of embryonic stem cells into hepatocytes has been successfully reported to a certain degree; however, whether embryonic stem cells are able to effectively enter hepatic plate of host after intrahepatic transplantation, whether embryonic stem cells can further differentiate into hepatocytes and express hepatocyte function, and risk factors for neoplastic formation are still unclear at present. OBJECTIVE: To study the intrahepatic transplantation of embryonic stem cells-derived hepatic stem cells in therapeutic liver repopulation models, and to investigate the liver tissue replacement, growth and differentiation in vivo, and neoplastic formation.DESIGN: Randomized controlled animal study.SETTING: Department of Pediatric Surgery, the Second Hospital affiliated to Sun Yat-sen University. MATERIALS: Twenty-four BALB/c mice, 6-8 weeks old, weighing 20-35 g, irrespective of gender, were provided by Guangzhou Experimental Animal Center. Embryonic stem cells-derived hepatic stem cells were differentiated from embryonic stem cells. E14 was provided by Stem cell Center of our hospital. METHODS: This study was performed at the Stem Cell Center, the Second Hospital affiliated to Sun Yat-sen University from July 2006 to June 2007. Twenty-four mice were randomly divided into a liver repopulation model + stem cell transplantation group (group A) and a liver resection + stem cell transplantation group (group B), with 12 mice in each group. Mice in the group A were intraperitoneally injected with 50 mg/kg retrorsine once every two weeks for totally twice. Four weeks after the second injection, about 70% liver was resected. And then, the embryonic stem cells-derived hepatic stem cells, labeled by 1×105 carboxy fluoresce in diacetate succinimidyl ester (CFDA-SE), were transplanted into mouse liver through portal vein. On the other hand, 70% liver of mice in the group B was resected and embryonic stem cells-derived hepatic stem cells were transplanted into mouse liver. MAIN OUTCOME MEASURES: The distribution, incorporation, and proliferation of transplanted cells were observed under fluorescent microscopy. Two weeks later, hepatic function was stained with albumin fluorescence immunoassay (double fluorescence staining) and assayed by level of serum albumin. Embryonic stem cells-derived hepatic stem cells were poured into liver of remedial liver regeneration mice, and undifferentiated embryonic stem cells were transplanted into subcutaneous tissue in axillary region as the controls to observe neoplastic formation in embryonic stem cells-derived hepatic stem cells. RESULTS: ① Growth of hepatic stem cells in recipient mice: One week after transplantation of CFDA-SE-labeled embryonic stem cells-derived hepatic stem cells, some scattered region was green under fluorescent microscopy. The area of green region increased apparently in 2 weeks, and cord-like structure could be observed. ② Liver function: Immunofluorescent staining of albumin (double fluorescence staining) demonstrated that labeled cells expressed positive albumin (yellow fluorescence) in liver tissue of recipient mice, but there was not significant difference in serum albumin level between group A and group B (P > 0.05). ③ Reliability of hepatic stem cell transplantation: Teratoma did not form over 6 months; however, transplantation of undifferentiated embryonic stem cells in the axillary region could cause formation of teratoma after 6 weeks. CONCLUSION: The transplantation of embryonic stem cells-derived hepatic stem cells in therapeutic liver repopulation model mice can effectively and further grow and differentiate, or even partially express hepatocyte function; in particular, the transplantation is safe.

0.05).No teratoma was formed in the experimental group,while a large teratoma was observed in control group in 6 weeks post-transplantation.CONCLUSION:The ESC-derived hepatic stem cells are normally incorporated into mouse liver parenchymal structure,proliferate and differentiate further in vivo and possess some hepatic functions without forming teratomas.

Objective To observe the influence of human umbilical cord mesenchymal stem cells (hUCMSC) transplanted into the tail vein of diabetic rats on apoptosis of retinal neurons and the retinal expression level of glial fibrillary acidic protein (GFAP).Methods Seventy clean male Sprague-Dawley rats were randomly divided into the normal control group (group A),diabetes mellitus (DM) only group (group B),DM + balanced salt solution (BSS) group (group C),DM + hUCMSC group (group D),with 10 rats in each group.DM rats were induced by intraperitoneal injection of streptozotocin.Apoptosis of retinal cells was assayed by dUTP nick end labeling.Immunohistochemistry and Western blot was performed to detect the retinal expressions of GFAP in rats.Results Compared with group A,large numbers of apoptotic cells could be found in the retinal ganglion cell layer (GCL) and inner nuclear layer (INL) of group B and group C,however the apoptotic cells in group D were significantly reduced than group B and C.The expression of GFAP was mainly located in the retinal GCL and retinal nerve fibre layer (RNFL) in group A,throughout the inner plexiform layer (IPL) in group B and C,only distributed in RNFL and GCL in group D.It was obvious that the expression of GFAP in group B and C was higher than group A.Compared with group B and C,the expression of GFAP in group D was significantly reduced.The difference of GFAP expression among the 4 groups was significant (F=79.635,P＜0.05).Conclusion hUCMSC could inhibit the apoptosis of retinal cells and activation of glial cells in early DM rats.