Hamada Y, Karjalainen A, Setchell B A, Millard J E, Bygrave F L
Division of Biochemistry and Molecular Biology, School of Life Sciences, Faculty of Science, Australian National University, Canberra.
Biochem J. 1992 Apr 15;283 ( Pt 2)(Pt 2):575-81. doi: 10.1042/bj2830575.
The effects were investigated of the choleretic bile salt glycoursodeoxycholate (G-UDCA) and of the cholestatic bile salt taurochenodeoxycholate (T-CDCA) on changes in perfusate Ca2+, glucose and oxygen and in bile calcium and bile flow induced by the administration of (a) vasopressin, (b) glucagon and (c) glucagon plus vasopressin together to the perfused rat liver [Hamada, Karjalainen, Setchell, Millard & Bygrave (1992) Biochem. J. 281, 387-392]. G-UDCA itself increased the secretion of calcium in the bile several-fold, but its principal effect was to augment each of the above-mentioned metabolic events except glucose and oxygen output; particularly noteworthy was its ability to augment the 'transients' in bile calcium and bile flow seen immediately after the administration of vasopressin with or without glucagon. T-CDCA, by contrast, produced opposite effects and attenuated all of the parameters measured, and in particular the transients in bile calcium and bile flow. The data provide evidence of a strong correlation between calcium fluxes occurring on both the sinusoidal and the bile-canalicular membranes and that all are modifiable by glucagon, Ca(2+)-mobilizing hormones and bile salts.
研究了利胆胆汁盐甘氨熊去氧胆酸(G-UDCA)和致胆汁淤积胆汁盐牛磺鹅去氧胆酸(T-CDCA)对灌注大鼠肝脏在给予(a)血管加压素、(b)胰高血糖素以及(c)胰高血糖素加血管加压素后灌流液中Ca2+、葡萄糖和氧气的变化,以及胆汁中钙和胆汁流量变化的影响[滨田、卡尔亚莱宁、塞切尔、米勒德和拜格雷夫(1992年)《生物化学杂志》281卷,387 - 392页]。G-UDCA本身使胆汁中钙的分泌增加了几倍,但其主要作用是增强上述除葡萄糖和氧气输出外的各项代谢事件;特别值得注意的是,它能够增强在给予血管加压素(无论有无胰高血糖素)后立即出现的胆汁钙和胆汁流量的“瞬变”。相比之下,T-CDCA产生相反的作用,使所有测量参数减弱,尤其是胆汁钙和胆汁流量的瞬变。这些数据证明了在肝血窦膜和胆小管膜上发生的钙通量之间存在很强的相关性,并且所有这些都可被胰高血糖素、钙动员激素和胆汁盐所改变。