肝细胞色素P-450催化麻醉氟酮(2,2,2-三氟乙基乙烯醚)代谢的研究。

J A Marsh, K M Ivanetich, J J Bradshaw, G G Harrison, B L Webber, L S Kaminsky
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引用次数: 0

摘要

研究了不同的细胞色素P-450在麻醉剂氟酮代谢中的作用,以及麻醉前对动物进行贝诺巴比妥预处理后产生毒性效应的机制。用氟醚、2,2,2-三氟乙醚或乙基乙烯醚麻醉雄性大鼠,试图确定这三种麻醉剂的体内毒性作用。由此产生的肝脏组织学报告。本文还研究了大鼠肝微粒体对氟罗西尼的结合和代谢。我们的结论是,在苯巴比妥治疗的动物中,细胞色素P-450水平的升高增强了氟辛麻醉的毒性,而细胞色素P-448不会结合或代谢氟辛。氟芴分子的潜在毒性被认为存在于三氟乙基部分,而氟芴的乙烯基似乎在观察到的肝损伤中起作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An investigation into the hepatic cytochrome P-450 catalysed metabolism of the anaesthetic fluroxene (2,2,2-trifluoroethyl vinyl ether).

The role of the different cytochromes P-450 in the metabolism of the anaesthetic agent fluroxene, and the mechanism of production of toxic effects seen after pre-treatment of the animals with pehnobarbital prior to anaesthesia, have been investigated. Male rats were anaesthetized with fluroxene, or with 2,2,2-trifluroethyl ethyl ether, or with ethyl vinyl ether in an attempt to ascertain the in vivo toxic effects of the three anaesthetic agents. The resultant hepatic histology is reported. A study of the binding and metabolism of fluroxene by isolated rat hepatic microsomes was also made. We conclude that it is elevated levels of cytochrome P-450 which potentiate the toxicity of fluroxene anaesthesia in phenobarbital treated animals and that cytochrome P-448 does not bind or metabolize fluroxene. The potential toxicity of the fluroxene molecule is considered to reside in the trifluoroethyl moiety, while the vinyl group of fluroxene appears to play a role in the observed liver damage.

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