Vessey D A
Biochem J. 1978 Aug 15;174(2):621-6. doi: 10.1042/bj1740621.
All animals, except for the placental mammals, conjugate their bile acids exclusively with taurine. However, in certain of the placental mammals, glycine conjugates are also found. The basis for the appearance of glycine conjugation among the placental mammals was investigated. The reaction of choloyl-CoA with glycine and taurine, as catalysed by the soluble fraction from guinea-pig liver, had a high affinity for taurine and a poor affinity for glycine. The predominant synthesis of glycine conjugates in the guinea pig can be related to the fact that guinea-pig liver contains an unusually low concentration of taurine and a high concentration of glycine. Rabbits make exclusively glycine conjugates and their livers also contain low concentrations of taurine. However, the biochemical basis for their glycine conjugation is more straightforward than in the guinea pig in that the soluble fraction from rabbit liver has a high affinity for glycine and a poor affinity for taurine. Alternative-substrate-inhibition studies with glycine and taurine in soluble fractions from guinea-pig and rabbit liver revealed that glycine and taurine were mutually inhibitory. This suggests that there is only one enzyme for glycine and taurine conjugation in these tissues. The soluble fractions from bovine liver and human liver also made both glycine and taurine conjugates and evidence is presented that suggests that there is only one enzyme in these tissues too. Even the rat, which excretes mostly taurine conjugates, could make both glycine and taurine conjugates in vitro. However, in contrast with all of the placental mammals studied, the supernatant fraction from liver of the chicken, and other non-mammals, could not make glycine conjugates even in the presence of very high concentrations of glycine.
除胎盘哺乳动物外,所有动物的胆汁酸仅与牛磺酸结合。然而,在某些胎盘哺乳动物中也发现了甘氨酸结合物。对胎盘哺乳动物中出现甘氨酸结合的基础进行了研究。豚鼠肝脏可溶性部分催化的胆酰辅酶A与甘氨酸和牛磺酸的反应,对牛磺酸具有高亲和力,对甘氨酸具有低亲和力。豚鼠中甘氨酸结合物的主要合成可能与以下事实有关:豚鼠肝脏中牛磺酸浓度异常低,而甘氨酸浓度高。兔子只产生甘氨酸结合物,其肝脏中牛磺酸浓度也低。然而,它们甘氨酸结合的生化基础比豚鼠更直接,因为兔肝脏的可溶性部分对甘氨酸具有高亲和力,对牛磺酸具有低亲和力。用豚鼠和兔肝脏可溶性部分中的甘氨酸和牛磺酸进行的替代底物抑制研究表明,甘氨酸和牛磺酸相互抑制。这表明这些组织中甘氨酸和牛磺酸结合只有一种酶。牛肝脏和人肝脏的可溶性部分也产生甘氨酸和牛磺酸结合物,并且有证据表明这些组织中也只有一种酶。甚至大鼠,其主要排泄牛磺酸结合物,在体外也能产生甘氨酸和牛磺酸结合物。然而,与所有研究的胎盘哺乳动物不同,鸡和其他非哺乳动物肝脏的上清液部分即使在存在非常高浓度甘氨酸的情况下也不能产生甘氨酸结合物。