Abstract
Circadian rhythms controlled by clock genes affect plasma lipids. Here we show that global ablation of Bmal1 in Apoe−/− and Ldlr−/− mice and its liver-specific ablation in Apoe−/− (L-Bmal1−/−Apoe−/−) mice increases, whereas overexpression of BMAL1 in L-Bmal1−/−Apoe−/− and Apoe−/−mice decreases hyperlipidaemia and atherosclerosis. Bmal1 deficiency augments hepatic lipoprotein secretion and diminishes cholesterol excretion to the bile. Further, Bmal1 deficiency reduces expression of Shp and Gata4. Reductions in Shp increase Mtp expression and lipoprotein production, whereas reductions in Gata4 diminish Abcg5/Abcg8 expression and biliary cholesterol excretion. Forced SHP expression normalizes lipoprotein secretion with no effect on biliary cholesterol excretion, while forced GATA4 expression increases cholesterol excretion to the bile and reduces plasma lipids in L-Bmal1−/−Apoe−/− and Apoe−/− mice. Thus, our data indicate that Bmal1 modulates lipoprotein production and biliary cholesterol excretion by regulating the expression of Mtp and Abcg5/Abcg8 via Shp and Gata4.
Highlights
Circadian rhythms controlled by clock genes affect plasma lipids
We have shown that plasma lipids and microsomal triglyceride transfer protein (MTP) expression exhibit in sync circadian changes and have suggested that changes in MTP expression contribute to daily variations in plasma lipids[4]
We showed that plasma triglyceride in ClockD19/D19 mice do not exhibit circadian rhythms, instead plasma triglyceride levels are high at all times[16]
Summary
Circadian rhythms controlled by clock genes affect plasma lipids. Here we show that global ablation of Bmal[1] in Apoe À / À and Ldlr À/ À mice and its liver-specific ablation in Apoe À / À (L-Bmal[1] À / À Apoe À / À ) mice increases, whereas overexpression of BMAL1 in L-Bmal[1] À / À Apoe À / À and Apoe À / À mice decreases hyperlipidaemia and atherosclerosis. Reductions in Shp increase Mtp expression and lipoprotein production, whereas reductions in Gata[4] diminish Abcg5/Abcg[8] expression and biliary cholesterol excretion. Forced SHP expression normalizes lipoprotein secretion with no effect on biliary cholesterol excretion, while forced GATA4 expression increases cholesterol excretion to the bile and reduces plasma lipids in L-Bmal[1] À / À Apoe À / À and Apoe À / À mice. Our data indicate that Bmal[1] modulates lipoprotein production and biliary cholesterol excretion by regulating the expression of Mtp and Abcg5/Abcg[8] via Shp and Gata[4]. Mechanistic studies show that Bmal[1] regulates Shp and MTP to regulate hepatic lipoprotein production It regulates the expression of Abcg5/Abcg[8] and biliary cholesterol excretion by modulating the expression of Gata[4]. Bmal[1] is an anti-atherogenic transcription factor that controls hepatic lipoprotein production and biliary cholesterol excretion
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