血红素分解代谢的机制。通过[18O]氧标记在活体大鼠中形成胆红素。
The mechanism of haem catabolism. Bilirubin formation in living rats by [18O]oxygen labelling.
作者信息
Brown S B, King R F
出版信息
Biochem J. 1978 Feb 15;170(2):297-311. doi: 10.1042/bj1700297.
Abstract
- The pathway of haem breakdown in living rats was studied by using 18O in the oxygen that the animals consumed. By cannulation of the common bile duct and collection of bile, labelled bilirubin was isolated and its mass spectrum determined. One set of results was obtained for a rat to which haemoglobin had been intravenously administered and another set obtained for a rat that was not given exogenous haem. Isomerization of bilirubin IXalpha to the XIIIalpha and IIIalpha isomers did not occur to any significant extent. The 18O-labelling pattern obtained in the bilirubin was consistent with a Two-Molecule Mechanism, whereby the terminal lactam oxygen atoms of bilirubin are derived from different oxygen molecules. The consequences of this mechanism are discussed in terms of the possible intermediates of the catabolic pathway. 2. 18O-labelled bilirubin appeared in the bile in less than 10 min after exposure of the animals to labelled oxygen. This result suggests that all of the chemical transformations involving production of biliverdin, reduction to bilirubin and conjugation of the bilirubin are fast processes. 3. The quantitative recovery of label obtained in the experiments suggests that there is little or no exchange of newly synthesized bilirubin with existing bilirubin pools in the animal.
摘要
- 通过在动物消耗的氧气中使用(^{18}O),研究了活体大鼠体内血红素分解的途径。通过插管至胆总管并收集胆汁,分离出标记胆红素并测定其质谱。对静脉注射血红蛋白的大鼠获得了一组结果,对未给予外源性血红素的大鼠获得了另一组结果。胆红素IXα向XIIIα和IIIα异构体的异构化在任何显著程度上均未发生。胆红素中获得的(^{18}O)标记模式与双分子机制一致,据此胆红素的末端内酰胺氧原子源自不同的氧分子。根据分解代谢途径的可能中间体讨论了该机制的后果。2. 在动物暴露于标记氧气后不到10分钟,(^{18}O)标记的胆红素就出现在胆汁中。该结果表明,所有涉及胆绿素产生、还原为胆红素以及胆红素结合的化学转化都是快速过程。3. 实验中获得的标记物的定量回收率表明,动物体内新合成的胆红素与现有胆红素池之间几乎没有或不存在交换。
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