Conjugation with taurine prevents side-chain desaturation of ursodeoxycholic and β-muricholic acids in bile fistula rats

The metabolism of intravenously infused bile salts, tauroursodeoxycholate, tauro‐β‐muricholate and their corresponding unconjugated forms in the liver was investigated in bile salt‐depleted bile fistula rats. The biliary bile salt composition was determined by gas chromatography–mass spectrometry us...

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Bibliographic Details
Published in:Fundamental & clinical pharmacology 2004-08, Vol.18 (4), p.457-464
Main Authors: Guitaoui, Mustapha, Parquet, Michel, Aubert, Claude, Montet, Anne-Marie, Montet, Jean-Claude
Format: Article
Language:English
Subjects:
Animals
Bile Acids and Salts - deficiency
Bile Acids and Salts - metabolism
bile salts
Biliary Fistula - metabolism
Biological and medical sciences
Biotransformation
Gas Chromatography-Mass Spectrometry
Liver - drug effects
Liver - metabolism
Male
Medical sciences
Pharmacology. Drug treatments
Rats
Rats, Sprague-Dawley
Taurine - pharmacology
taurine conjugation
ursodeoxycholic acid
β-muricholic acid
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Summary:The metabolism of intravenously infused bile salts, tauroursodeoxycholate, tauro‐β‐muricholate and their corresponding unconjugated forms in the liver was investigated in bile salt‐depleted bile fistula rats. The biliary bile salt composition was determined by gas chromatography–mass spectrometry using chemical positive ionization and electron‐impact methods. For an infusion rate of 2 μmol/min/kg, all bile salts were efficiently secreted in bile, inducing similar choleresis. Only tauroconjugated bile salts were recovered; no glucuronide or glyco derivatives were detected. The infusion of free ursodeoxycholate led to the appearance of a metabolite identified as a Δ22 derivative (12%). A similar biotransformation rate (11%) was observed following free β‐muricholate infusion. In contrast, no metabolite was observed after infusion of the tauroconjugated form of ursodeoxycholate and β‐muricholate. The unsaturation process probably depends on the availability of the carboxyl group for the starting step of the β‐oxidation mechanism. In conclusion, the current in vivo study demonstrates a hepatic origin for Δ22 bile salts. It also shows that free bile salts were sensitive to Δ22 formation while conjugation with taurine totally prevented the side‐chain oxidation of the two 7β‐hydroxylated bile salts.
ISSN:0767-3981
1472-8206
DOI:10.1111/j.1472-8206.2004.00266.x