Interactions of unconjugated bilirubin with bile salts

The rate of peroxidation of unbound, unconjugated bilirubin (UCB) was used to assess the interactions of UCB with four taurine-conjugated bile salts at pH 8.2, 37 degrees C, and an ionic strength of 0.15. Each of the four structurally different bile salts markedly decreased the rate of peroxidation...

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Main Authors: R V Rege, C C Webster, J D Ostrow
Format: Article
Language:English
Published: Elsevier 1988-10-01
Series:Journal of Lipid Research
Online Access:http://www.sciencedirect.com/science/article/pii/S002222752038439X
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spelling doaj-8d34fe9186d24be0ba97e04287506a2b2021-04-25T04:19:12ZengElsevierJournal of Lipid Research0022-22751988-10-01291012891296Interactions of unconjugated bilirubin with bile saltsR V Rege0C C Webster1J D Ostrow2Department of Surgery, Northwestern University, Chicago, IL.Department of Surgery, Northwestern University, Chicago, IL.Department of Surgery, Northwestern University, Chicago, IL.The rate of peroxidation of unbound, unconjugated bilirubin (UCB) was used to assess the interactions of UCB with four taurine-conjugated bile salts at pH 8.2, 37 degrees C, and an ionic strength of 0.15. Each of the four structurally different bile salts markedly decreased the rate of peroxidation of UCB in the presence of horseradish peroxidase (HRP); 30% of UCB was bound even at low, premicellar bile salt concentrations (1 mM). At high bile salt concentrations (75 mM), taurocholate (TC) and tauro-3 alpha,7 alpha-dihydroxy-12-oxo-5 beta-cholan-24-oate (T12-OXO) exhibited the highest degree of inhibition of UCB peroxidation; only 0.6% and 1.1% of UCB were unbound, respectively. Taurochenodeoxycholate (TCDC) yielded somewhat less inhibition with 2.0% of UCB unbound. Taurodehydrocholate (TDHC), a bile salt that does not form micelles but does form dimers, was comparable to TC and T12-OXO with unbound UCB of 1.0%. With TC and T12-OXO, apparent affinity for UCB was at least four times greater above the published critical micellar concentration (CMC) than in the premicellar range. TCDC was only studied above its CMC value and only one region of UCB binding was noted. Interaction of UCB with TDHC was similar to premicellar interactions with TC and T12-OXO below 25 mM, but increased to values intermediate between monomer and micelle above 40 mM TDHC, compatible with formation of TDHC dimers above 20 mM. These data show that there are differences in the ability of bile salts to bind UCB. Thus, alterations in bile salt profile in bile might lead to higher concentrations of free UCB in bile predisposing to pigment gallstones.http://www.sciencedirect.com/science/article/pii/S002222752038439X
collection DOAJ
language English
format Article
sources DOAJ
author R V Rege
C C Webster
J D Ostrow
spellingShingle R V Rege
C C Webster
J D Ostrow
Interactions of unconjugated bilirubin with bile salts
Journal of Lipid Research
author_facet R V Rege
C C Webster
J D Ostrow
author_sort R V Rege
title Interactions of unconjugated bilirubin with bile salts
title_short Interactions of unconjugated bilirubin with bile salts
title_full Interactions of unconjugated bilirubin with bile salts
title_fullStr Interactions of unconjugated bilirubin with bile salts
title_full_unstemmed Interactions of unconjugated bilirubin with bile salts
title_sort interactions of unconjugated bilirubin with bile salts
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 1988-10-01
description The rate of peroxidation of unbound, unconjugated bilirubin (UCB) was used to assess the interactions of UCB with four taurine-conjugated bile salts at pH 8.2, 37 degrees C, and an ionic strength of 0.15. Each of the four structurally different bile salts markedly decreased the rate of peroxidation of UCB in the presence of horseradish peroxidase (HRP); 30% of UCB was bound even at low, premicellar bile salt concentrations (1 mM). At high bile salt concentrations (75 mM), taurocholate (TC) and tauro-3 alpha,7 alpha-dihydroxy-12-oxo-5 beta-cholan-24-oate (T12-OXO) exhibited the highest degree of inhibition of UCB peroxidation; only 0.6% and 1.1% of UCB were unbound, respectively. Taurochenodeoxycholate (TCDC) yielded somewhat less inhibition with 2.0% of UCB unbound. Taurodehydrocholate (TDHC), a bile salt that does not form micelles but does form dimers, was comparable to TC and T12-OXO with unbound UCB of 1.0%. With TC and T12-OXO, apparent affinity for UCB was at least four times greater above the published critical micellar concentration (CMC) than in the premicellar range. TCDC was only studied above its CMC value and only one region of UCB binding was noted. Interaction of UCB with TDHC was similar to premicellar interactions with TC and T12-OXO below 25 mM, but increased to values intermediate between monomer and micelle above 40 mM TDHC, compatible with formation of TDHC dimers above 20 mM. These data show that there are differences in the ability of bile salts to bind UCB. Thus, alterations in bile salt profile in bile might lead to higher concentrations of free UCB in bile predisposing to pigment gallstones.
url http://www.sciencedirect.com/science/article/pii/S002222752038439X
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AT ccwebster interactionsofunconjugatedbilirubinwithbilesalts
AT jdostrow interactionsofunconjugatedbilirubinwithbilesalts
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