On the regulatory importance of 27-hydroxycholesterol in mouse liver

•Under basal conditions 27-hydroxycholesterol has little regulatory effects.•27-Hydroxycholesterol mediates effect of dietary cholesterol on some LXR target genes.•Thee above effects of 27-hydroxycholesterol are not always seen at the protein level. 27-Hydroxycholesterol (27OH) is a strong suppresso...

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Published in:The Journal of steroid biochemistry and molecular biology 2017-05, Vol.169, p.10-21
Main Authors: Heverin, Maura, Ali, Zeina, Olin, Maria, Tillander, Veronika, Joibari, Masoumeh Motamedi, Makoveichuk, Elena, Leitersdorf, Eran, Warner, Margret, Olivercrona, Gunilla, Gustafsson, Jan-Åke, Björkhem, Ingemar
Format: Article
Language:English
Subjects:
ABCA1 protein
Abcg8
Animals
ATP Binding Cassette Transporter, Subfamily G, Member 8 - metabolism
ATP-binding protein
Biosynthesis
Cholestanetriol 26-Monooxygenase - genetics
Cholesterol
Cholesterol metabolism
Cholic acid
Cyp27-/- mice
Cytochrome P-450
Cytochrome P450 Family 7 - genetics
Effects
Gene expression
Gene Expression Profiling
Genes
Hydroxycholesterols - metabolism
Lipoprotein lipase
Lipoprotein Lipase - metabolism
Lipoproteins - metabolism
Liver
Liver - metabolism
Liver X Receptors - metabolism
Lxr
Male
Medicin och hälsovetenskap
Mice
Mice, Inbred C57BL
Mice, Knockout
Nuclear receptor
OXysterols
Receptors, Cytoplasmic and Nuclear - metabolism
Srebp1c
Steroid Hydroxylases - genetics
Sterol Regulatory Element Binding Protein 1 - metabolism
Sterol regulatory element-binding protein
Studies
Transcription
Transcription, Genetic
Transgenic mice
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Summary:•Under basal conditions 27-hydroxycholesterol has little regulatory effects.•27-Hydroxycholesterol mediates effect of dietary cholesterol on some LXR target genes.•Thee above effects of 27-hydroxycholesterol are not always seen at the protein level. 27-Hydroxycholesterol (27OH) is a strong suppressor of cholesterol synthesis and a weak activator of LXR in vitro. The regulatory importance of 27OH in vivo is controversial. Here we utilized male mice with increased levels of 27OH either due to increased production (CYP27A1 transgenic mice) or reduced metabolism (Cyp7b1-/- mice). We also used mice lacking 27OH due to a knockout of Cyp27a1. The latter mice were treated with cholic acid to compensate for reduced bile acid synthesis. The effects of the different levels of 27OH on Srebp- and other LXR-regulated genes in the liver were investigated. In the liver of CYP27tg mice we found a modest increase of the mRNA levels corresponding to the LXR target genes Cyp7b1 and Abca1. A number of other LXR-regulated genes were not affected. The effect on Abca1 mRNA was not seen in the liver of Cyp7b1-/- mice. There were little or no effects on cholesterol synthesis. In the liver of the Cyp27-/- mice treated with 0.025% cholic acid there was no significant effect of the knockout on the LXR target genes. In a previous work triple-knockout mice deficient in the biosynthesis of 24S-hydroxycholesterol, 25-hydroxycholesterol and 27OH were shown to have impaired response to dietary cholesterol, suggesting side-chain oxidized oxysterols to be mediators in cholesterol-induced effects on LXR target genes at a transcriptional level (Chen W. et al., Cell Metab. 5 (2007) 73–79). The hydroxylated oxysterol responsible for the effect was not defined. We show here that treatment of wildtype mice with dietary cholesterol under the same conditions as in the above study induced the LXR target genes Lpl, Abcg8 and Srebp1c in wild type mice but failed to activate the same genes in mice lacking 27-hydroxycholesterol due to a knockout of Cyp27. We failed to demonstrate the above effects at the protein level (Abcg8) or at the activity level (Lpl). The results suggest that 27OH is not an important regulator of Srebp- or LXR regulated genes under basal conditions in mouse liver. On the other hand 27OH appears to mediate cholesterol-induced effects on some LXR target genes at a transcriptional level under some in vivo conditions.
ISSN:0960-0760
1879-1220
1879-1220
DOI:10.1016/j.jsbmb.2016.02.001