Azzaroli Francesco, Mehal Wajahat, Soroka Carol J, Wang Lin, Lee John, Crispe Ian Nicholas, Boyer James L
Liver Center, Department of Internal Medicine and Immunology, Yale University School of Medicine, 333 Cedar Street, New Haven, CT 06520-8019, USA.
Hepatology. 2002 Jul;36(1):49-54. doi: 10.1053/jhep.2002.34511.
Ursodeoxycholic acid (UDCA) can protect hepatocytes from apoptosis induced by a variety of stimuli including anti-Fas antibody. However, in vivo the Fas receptor is activated by its natural ligand, Fas-L, whereas anti-Fas antibodies are not a physiologic stimulus. We therefore have assessed the anti-apoptotic effects of UDCA and other bile acids in a novel coculture model where apoptosis is induced in murine hepatocytes by membrane-bound Fas-L expressing fibroblasts. Primary hepatocytes were cultured overnight on collagen-coated coverslips with increasing concentrations of different bile acids and overlaid with either NIH 3T3 Fas-L(+) or Fas-L(-) expressing fibroblasts. After 6 hours cells were fixed and apoptosis was evaluated by TUNEL assay and DAPI staining using digital imaging. Fas-L protein expression and Fas trimerization were evaluated by Western blot analysis. FITC-UDCA and Mitotracker Red were used to evaluate UDCA localization with mitochondria. UDCA (up to 100 micromol/L, P <.0001), TUDCA (up to 400 micromol/L, P <.0001), and TCDCA (up to 200 micromol/L, P <.0001), but not TCA (up to 500 micromol/L), significantly protected hepatocytes in Fas-L(+) cocultures. UDCA had no significant effect on hepatocytes in Fas-L(-) cocultures. TUDCA, 50 micromol/L (P <.001) and TCDCA up to 200 micromol/L (P <.0001) also reduced the hepatocytes apoptotic rate in Fas-L(-) cocultures. Bile acids did not affect Fas-L expression in fibroblasts or Fas trimerization. FITC-UDCA colocalized with the mitochondrial probe. In conclusion, UDCA, TUDCA, and TCDCA but not TCA are capable of protecting hepatocytes from Fas-L-induced apoptosis. This protective effect is not associated with reductions in Fas trimerization, but may be related to a direct effect on the mitochondrial membrane.
熊去氧胆酸(UDCA)可保护肝细胞免受包括抗Fas抗体在内的多种刺激所诱导的细胞凋亡。然而,在体内Fas受体是由其天然配体Fas-L激活的,而抗Fas抗体并非生理刺激因素。因此,我们在一种新型共培养模型中评估了UDCA和其他胆汁酸的抗凋亡作用,在该模型中,表达膜结合Fas-L的成纤维细胞可诱导小鼠肝细胞发生凋亡。将原代肝细胞在涂有胶原蛋白的盖玻片上培养过夜,加入浓度递增的不同胆汁酸,然后覆盖表达NIH 3T3 Fas-L(+)或Fas-L(-)的成纤维细胞。6小时后固定细胞,通过TUNEL检测和使用数字成像的DAPI染色评估细胞凋亡情况。通过蛋白质印迹分析评估Fas-L蛋白表达和Fas三聚化。使用FITC-UDCA和线粒体红色荧光探针评估UDCA在线粒体中的定位。UDCA(高达100微摩尔/升,P<.0001)、牛磺熊去氧胆酸(TUDCA,高达400微摩尔/升,P<.0001)和牛磺去氧胆酸(TCDCA,高达200微摩尔/升,P<.0001),但不是胆酸(TCA,高达500微摩尔/升),在Fas-L(+)共培养中能显著保护肝细胞。UDCA对Fas-L(-)共培养中的肝细胞无显著影响。50微摩尔/升的TUDCA(P<.001)和高达200微摩尔/升的TCDCA(P<.0001)也降低了Fas-L(-)共培养中肝细胞的凋亡率。胆汁酸不影响成纤维细胞中Fas-L的表达或Fas三聚化。FITC-UDCA与线粒体探针共定位。总之,UDCA、TUDCA和TCDCA而非TCA能够保护肝细胞免受Fas-L诱导的凋亡。这种保护作用与Fas三聚化的减少无关,但可能与对线粒体膜的直接作用有关。
