Fricker G, Dubost V, Finsterwald K, Boyer J L
Mount Desert Island Biological Laboratory, Salsbury Cove, ME 04672.
Biochem J. 1994 May 1;299 ( Pt 3)(Pt 3):665-70. doi: 10.1042/bj2990665.
The substrate specificity for the transporter that mediates the hepatic uptake of organic anions in freshly isolated hepatocytes of the elasmobranch little skate (Raja erinacea) was determined for bile salts and bile alcohols. The Na(+)-independent transport system exhibits a substrate specificity, which is different from the specificity of Na(+)-dependent bile salt transport in mammals. Unconjugated and conjugated di- and tri-hydroxylated bile salts inhibit uptake of cholyltaurine and cholate competitively. Inhibition is significantly greater with unconjugated as opposed to glycine- or taurine-conjugated bile salts. However, the number of hydroxyl groups in the steroid moiety of the bile salts has only minor influences on the inhibition by the unconjugated bile salts. Since the transport system seems to represent an archaic organic-anion transport system, other anions, such as dicarboxylates, amino acids and sulphate, were also tested, but had no inhibitory effect on bile salt uptake. To clarify whether bile alcohols, the physiological solutes in skate bile, share this transport system, cholyltaurine transport was studied after addition of 5 beta-cholestane-3 beta,5 alpha,6 beta-triol, 5 alpha-cholestan-3 beta-ol and 5 beta-cholestane-3 alpha, 7 alpha, 12 alpha-triol. These bile alcohols inhibit cholyltaurine uptake non-competitively. In contrast, uptake of 5 beta-cholestane-3 alpha,7 alpha,12 alpha-triol, which is Na(+)-independent, is not inhibited by cholyltaurine. The findings further characterize a Na(+)-independent organic-anion transport system in skate liver cells, which is not shared by bile alcohols and has preference for unconjugated lipophilic bile salts.
测定了板鳃亚纲小鳐(Raja erinacea)新鲜分离肝细胞中介导有机阴离子肝摄取的转运体对胆汁盐和胆汁醇的底物特异性。该不依赖于Na⁺的转运系统表现出一种底物特异性,这与哺乳动物中依赖于Na⁺的胆汁盐转运特异性不同。未结合和结合的二羟基和三羟基胆汁盐竞争性抑制牛磺胆酸和胆酸盐的摄取。与甘氨酸或牛磺酸结合的胆汁盐相比,未结合胆汁盐的抑制作用明显更强。然而,胆汁盐甾体部分中的羟基数量对未结合胆汁盐的抑制作用影响较小。由于该转运系统似乎代表一种古老的有机阴离子转运系统,还测试了其他阴离子,如二羧酸盐、氨基酸和硫酸盐,但它们对胆汁盐摄取没有抑制作用。为了阐明板鳃亚纲动物胆汁中的生理溶质胆汁醇是否共享该转运系统,在加入5β-胆甾烷-3β,5α,6β-三醇、5α-胆甾烷-3β-醇和5β-胆甾烷-3α,7α,12α-三醇后研究了牛磺胆酸转运。这些胆汁醇非竞争性抑制牛磺胆酸摄取。相反,不依赖于Na⁺的5β-胆甾烷-3α,7α,12α-三醇的摄取不受牛磺胆酸抑制。这些发现进一步表征了板鳃亚纲动物肝细胞中一种不依赖于Na⁺的有机阴离子转运系统,该系统不被胆汁醇共享,且对未结合的亲脂性胆汁盐具有偏好性。