Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice

24S- and 27-hydroxycholesterol (24OHC and 27OHC) are potent regulators of different biochemical systems in vitro and are the major circulating oxysterols. A small fraction of these oxysterols has been reported to be sulphated but there are no detailed studies. We considered the possibility that sulp...

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Autores principales: Acimovic, Jure, Lövgren-Sandblom, Anita, Olin, Maria, Ali, Zeina, Heverin, Maura, Schüle, Rebecca, Schöls, Ludger, Fischler, Björn, Fickert, Peter, Trauner, Michael, Björkhem, Ingemar
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3700920/
https://www.ncbi.nlm.nih.gov/pubmed/23844150
http://dx.doi.org/10.1371/journal.pone.0068031
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author Acimovic, Jure
Lövgren-Sandblom, Anita
Olin, Maria
Ali, Zeina
Heverin, Maura
Schüle, Rebecca
Schöls, Ludger
Fischler, Björn
Fickert, Peter
Trauner, Michael
Björkhem, Ingemar
author_facet Acimovic, Jure
Lövgren-Sandblom, Anita
Olin, Maria
Ali, Zeina
Heverin, Maura
Schüle, Rebecca
Schöls, Ludger
Fischler, Björn
Fickert, Peter
Trauner, Michael
Björkhem, Ingemar
author_sort Acimovic, Jure
collection PubMed
description 24S- and 27-hydroxycholesterol (24OHC and 27OHC) are potent regulators of different biochemical systems in vitro and are the major circulating oxysterols. A small fraction of these oxysterols has been reported to be sulphated but there are no detailed studies. We considered the possibility that sulphatation is a protective mechanism preventing accumulation of free oxysterols. Using an accurate assay we found the sulphated fraction of 24OHC and 27OHC in circulation of adults to be less than 15% of total. In two patients with a mutation in CYP7B1 and markedly increased levels of 27OHC the sulphated fraction was 8% and 10% respectively. Infants with severe neonatal cholestasis had however markedly increased sulphate fraction of the above oxysterols. In untreated mice the degree of sulphatation of 24OHC and 27OHC in serum varied between 0 and 16%. Similar degree of sulphatation was found in two mouse models with markedly increased levels of 27OHC and 24OHC respectively. Bile duct ligated mice had higher levels of oxysterols than sham-operated controls but the sulphate fraction was not increased. We conclude that a primary increase in the levels of the oxysterols due to increased synthesis or reduced metabolism in adults and mice does not induce increased sulphatation.
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spelling pubmed-37009202013-07-10 Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice Acimovic, Jure Lövgren-Sandblom, Anita Olin, Maria Ali, Zeina Heverin, Maura Schüle, Rebecca Schöls, Ludger Fischler, Björn Fickert, Peter Trauner, Michael Björkhem, Ingemar PLoS One Research Article 24S- and 27-hydroxycholesterol (24OHC and 27OHC) are potent regulators of different biochemical systems in vitro and are the major circulating oxysterols. A small fraction of these oxysterols has been reported to be sulphated but there are no detailed studies. We considered the possibility that sulphatation is a protective mechanism preventing accumulation of free oxysterols. Using an accurate assay we found the sulphated fraction of 24OHC and 27OHC in circulation of adults to be less than 15% of total. In two patients with a mutation in CYP7B1 and markedly increased levels of 27OHC the sulphated fraction was 8% and 10% respectively. Infants with severe neonatal cholestasis had however markedly increased sulphate fraction of the above oxysterols. In untreated mice the degree of sulphatation of 24OHC and 27OHC in serum varied between 0 and 16%. Similar degree of sulphatation was found in two mouse models with markedly increased levels of 27OHC and 24OHC respectively. Bile duct ligated mice had higher levels of oxysterols than sham-operated controls but the sulphate fraction was not increased. We conclude that a primary increase in the levels of the oxysterols due to increased synthesis or reduced metabolism in adults and mice does not induce increased sulphatation. Public Library of Science 2013-07-03 /pmc/articles/PMC3700920/ /pubmed/23844150 http://dx.doi.org/10.1371/journal.pone.0068031 Text en © 2013 Acimovic et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Acimovic, Jure
Lövgren-Sandblom, Anita
Olin, Maria
Ali, Zeina
Heverin, Maura
Schüle, Rebecca
Schöls, Ludger
Fischler, Björn
Fickert, Peter
Trauner, Michael
Björkhem, Ingemar
Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title_full Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title_fullStr Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title_full_unstemmed Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title_short Sulphatation Does Not Appear to Be a Protective Mechanism to Prevent Oxysterol Accumulation in Humans and Mice
title_sort sulphatation does not appear to be a protective mechanism to prevent oxysterol accumulation in humans and mice
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3700920/
https://www.ncbi.nlm.nih.gov/pubmed/23844150
http://dx.doi.org/10.1371/journal.pone.0068031
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