Fattinger K, Funk C, Pantze M, Weber C, Reichen J, Stieger B, Meier P J
Division of Clinical Pharmacology and Toxicology, Department of Medicine, University Hospital, Zurich, Switzerland.
Clin Pharmacol Ther. 2001 Apr;69(4):223-31. doi: 10.1067/mcp.2001.114667.
During clinical trials bosentan, the first orally active endothelin receptor antagonist, caused asymptomatic transaminase elevations in some patients. In this study we investigated whether inhibition of the hepatocanalicular bile salt export pump (rodents, Bsep; humans, BSEP ABCB11) could account for bosentan-induced liver injury.
We reanalyzed the safety database of the bosentan trials for cholestatic liver injury, determined the cholestatic potency of bosentan in the rat, and studied the effects of bosentan and its metabolites on Bsep-mediated taurocholate transport in vitro.
Bosentan caused dose-dependent and reversible liver injury in 2% to 18% of patients and caused a significant increase of serum bile salt levels (P <.01). Concomitant administration of glyburide (INN, glibenclamide) enhanced the cholestatic potency of bosentan. Similar effects were seen in rats, in which serum bile salt levels were increased by glyburide less than by bosentan, which increased the levels less than a combination of bosentan and glyburide. In vitro, Bsep-mediated taurocholate transport was inhibited by bosentan (inhibition constant, approximately 12 micromol/L) and metabolites (inhibition constant, approximately 8.5 micromol/L for metabolite Ro 47-8634).
These results indicate that bosentan-induced liver injury is mediated, at least in part, by inhibition of Bsep/BSEP-causing intracellular accumulation of cytotoxic bile salts and bile salt induced liver cell damage. The data further emphasize the pathophysiologic importance of drug-Bsep interactions in acquired forms of cholestatic liver injury.
在临床试验中,首个口服活性内皮素受体拮抗剂波生坦在一些患者中引起了无症状的转氨酶升高。在本研究中,我们调查了肝小管胆汁盐输出泵(啮齿动物为Bsep;人类为BSEP ABCB11)的抑制是否可解释波生坦所致的肝损伤。
我们重新分析了波生坦试验的安全性数据库以查找胆汁淤积性肝损伤情况,确定了波生坦在大鼠中的胆汁淤积效力,并在体外研究了波生坦及其代谢产物对Bsep介导的牛磺胆酸盐转运的影响。
波生坦在2%至18%的患者中引起剂量依赖性且可逆的肝损伤,并导致血清胆汁盐水平显著升高(P<.01)。同时给予格列本脲(国际非专利药品名称,优降糖)可增强波生坦的胆汁淤积效力。在大鼠中也观察到了类似效应,其中格列本脲使血清胆汁盐水平升高的幅度小于波生坦,而波生坦升高水平的幅度小于波生坦与格列本脲联合使用时的幅度。在体外,波生坦(抑制常数约为12 μmol/L)及其代谢产物(代谢产物Ro 47 - 8634的抑制常数约为8.5 μmol/L)抑制了Bsep介导的牛磺胆酸盐转运。
这些结果表明,波生坦所致的肝损伤至少部分是由抑制Bsep/BSEP导致细胞毒性胆汁盐在细胞内蓄积以及胆汁盐诱导肝细胞损伤所介导的。数据进一步强调了药物与Bsep相互作用在获得性胆汁淤积性肝损伤病理生理学中的重要性。
