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  • Sulphatation does not appear to be a protective mechanism to prevent oxysterol accumulation in humans and mice.

Sulphatation does not appear to be a protective mechanism to prevent oxysterol accumulation in humans and mice.

PloS one (2013-07-12)
Jure Acimovic, Anita Lövgren-Sandblom, Maria Olin, Zeina Ali, Maura Heverin, Rebecca Schüle, Ludger Schöls, Björn Fischler, Peter Fickert, Michael Trauner, Ingemar Björkhem
ABSTRACT

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.

MATERIALS
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Brand
Product Description

Sigma-Aldrich
Sulfur trioxide trimethylamine complex