Effects of IL-6/STAT3 activation on the proliferation of biliary epithelial cell following liver transplantation in rat
- VernacularTitle:IL-6/STAT3活化在大鼠肝移植胆管上皮细胞增殖中的作用
- Author:
Liping CHEN
;
Yibin GUO
;
Ruiwu DAI
- Publication Type:Journal Article
- Keywords:
liver transplantation;
biliary epithelial cell;
interleukin-6;
STAT3;
proliferation
- From:
Medical Journal of Chinese People's Liberation Army
1983;0(02):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the effects of IL-6/STAT3 activation on the proliferation of biliary epithelial cell following liver transplantation in rat.Methods Based on the classic "two-cuff" technique for orthotopic liver transplantation in rat,end-to-end anastomosis between the common hepatic arteries of donor and recipient by the modified "Gao stent" was performed to reconstruct hepatic artery blood flow.Wistar rats were then randomly divided into CP1h group and CP12h group(grafts were preserved in UW solution at 4℃ for 1h and 12h respectively),RPM group(CP12h group treated by rapamycin,RPM)and C group(control).At 1,3,7,14d after operation,liver IL-6 mRNA expression was analyzed by real-time RT-PCR.STAT3 activation was determined using laser confocal scan microscopy(LSM).BEC proliferation was detected by immunohistochemistry.Results In the CP1h group,expression of IL-6 mRNA was upregulated one day after operation(0.41?0.03),and then fell to the C group level subsequently(0.28?0.03,0.23?0.03 and 0.27?0.05 at 3,7 and 14d after operation).STAT3 activation in the BEC(94?8,61?6,39?4 and 34?3)and proliferation of the BEC following liver transplantation(2.1%?0.3%,5.9%?0.5%,2.6%?0.5% and 2.3%?0.5%)showed a similar trend.Compared with the CP1h and C group,the CP12h group demonstrated a significant and persistent up-regulation of IL-6 mRNA(0.60?0.03,0.73?0.02,0.38?0.02 and 0.30?0.04)and STAT3 activation(167?17,247?13,110?9 and 74?8).BEC proliferation in CP12h group were 7.0%?0.5%,27.8%?1.8%,23.1%?1.6% and 17.8%?1.2%,there was a direct correlation between IL-6 mRNA expression and STAT3 activation(r=0.95,P