胆汁酸的微生物降解，马棒状杆菌对含六氢茚核的胆酸代谢物的进一步降解。

Microbiological degradation of bile acids, further degradation of a cholic acid metabolite containing the hexahydroindane nucleus by Corynebacterium equi.

作者信息

Hayakawa S, Fujiwara T

出版信息

Biochem J. 1977 Feb 15;162(2):387-97. doi: 10.1042/bj1620387.

DOI:10.1042/bj1620387

PMID:849290

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1164612/

Abstract

The further degradation of a cholic acid (I) metabolite, (4R)-4-[4alpha-(2-carboxyethyl)-3aalpha-hexahydro-7abeta-methyl-5-oxoindan-1beta-yl]valeric acid (IIa), by Corynebacterium equi was investigated. This organism effected ring-opening and gave (4R)-4-[2alpha-(2-carboxyethyl)-3beta-(3-carboxypropionyl)-2beta-methylcyclopent-1beta-yl]valeric acid (VI). The new metabolite was isolated as its trimethyl ester and identified by partical synthesis. It was not utilized by C. equi. 2. (4R)-4[4alpha-(2-Carboxyethyl)-3aalpha-decahydro-8abeta-methyl5-oxa-6-oxoazulen-1beta-yl]valeric acid (IVa), which is a hypothetical initial oxidation product in the above degradation, was not converted by C. equi into the expected metabolite (VI), but into 3 - [2beta - [(2S) - tetrahydro - 5 - oxofur - 2 - yl] - 1beta - methyl - 5 - oxocyclopent - 1alpha - yl]-propionic acid (VIII), the structure of which was established by partial synthesis. 3. Both the possible precursors of the metabolite (VI), an isomer of the epsilon-lactone (IVa), the gamma-lactone (XIa), and the open form of these lactones, the hydroxytricarboxylic acid (V), were also not utilized by C. equi. 4. Under some incubation conditions, C. equi also converted compound (IIa) and 3-(3aalpha-hexahydro-7abeta-methyl-1,5-dioxoindan-4alpha-yl)propionic acid (IIb) into 5-methyl-4-oxo-octane-1,8-dioic acid (III), (4R)-4-(2,3,4,6,6abeta,7,8,9,9aalpha,9bbeta-decahydro-6abeta-methyl-3-oxo-1H-cyclopenta[f]quinolin-7beta-yl)valeric acid (VII) and probably a monohydroxy derivative of compound (IIa) and compound (III), respectively. 5. The possibility that an initial step in the degradation of compound (IIa) by C. equi is oxygenation of the Baeyer-Villiger type, yielding compound (IVa), is discussed. Metabolic pathways of compound (IIa) to compounds (III), (VI), (VII) and (VIII) are also considered.

摘要

研究了马棒状杆菌对胆酸（I）代谢物（4R）-4-[4α-(2-羧乙基)-3aα-六氢-7aβ-甲基-5-氧代茚满-1β-基]戊酸（IIa）的进一步降解。该微生物实现了开环反应并生成了（4R）-4-[2α-(2-羧乙基)-3β-(3-羧丙酰基)-2β-甲基环戊-1β-基]戊酸（VI）。新的代谢物以其三甲酯形式分离出来，并通过部分合成进行了鉴定。马棒状杆菌不能利用它。2. （4R）-4[4α-(2-羧乙基)-3aα-十氢-8aβ-甲基-5-氧杂-6-氧代薁-1β-基]戊酸（IVa）是上述降解过程中假设的初始氧化产物，它没有被马棒状杆菌转化为预期的代谢物（VI），而是转化为了3 - [2β - [(2S)-四氢-5-氧代呋喃-2-基]-1β-甲基-5-氧代环戊-1α-基]丙酸（VIII），其结构通过部分合成得以确定。3. 代谢物（VI）的可能前体，即ε-内酯（IVa）的异构体γ-内酯（XIa）以及这些内酯的开环形式羟基三羧酸（V），马棒状杆菌也不能利用。4. 在某些培养条件下，马棒状杆菌还将化合物（IIa）和3-(3aα-六氢-7aβ-甲基-1,5-二氧代茚满-4α-基)丙酸（IIb）转化为了5-甲基-4-氧代辛烷-1,8-二酸（III）、（4R）-4-(2,3,4,6,6aβ,7,8,9,9aα,9bβ-十氢-6aβ-甲基-3-氧代-1H-环戊[f]喹啉-7β-基)戊酸（VII），可能还有化合物（IIa）和化合物（III）的单羟基衍生物。5. 讨论了马棒状杆菌对化合物（IIa）降解的初始步骤可能是拜耳-维利格型氧化反应生成化合物（IVa）的可能性。还考虑了化合物（IIa）到化合物（III）、（VI）、（VII）和（VIII）的代谢途径。