Abstract
Obesity, diabetes, insulin resistance, and hyperinsulinemia are frequently associated with a cluster of closely related lipid abnormalities such as low plasma levels of high density lipoprotein (HDL) and elevated levels of triglyceride, both known to increase the risk of developing atherosclerotic disease. The molecular mechanisms linking obesity, insulin resistance, and hyperinsulinemia to low HDL levels are incompletely understood. Here we demonstrate that insulin, through a Foxa2-mediated mechanism, inhibited the expression of apolipoprotein M (apoM), an important determinant of plasma pre-beta-HDL and alpha-HDL concentrations. Obese mice had decreased apoM expression and plasma pre-beta-HDL levels due to inactivation of Foxa2 in hyperinsulinemic states. Nuclear reexpression of Foxa2 with a phosphorylation-deficient mutant Foxa2T156A (Ad-T156A) activated apoM expression and increased plasma pre-beta-HDL and alpha-HDL levels. In contrast, haploinsufficient Foxa2(+/-) mice exhibited decreased hepatic apoM expression and plasma pre-beta-HDL and HDL levels. The increase in plasma HDL levels and pre-beta-HDL formation by Foxa2 was mediated exclusively by apoM, as constitutive active expression of Foxa2 in apoM(-/-) mice had no effect on plasma HDL levels. Our results identify a fundamental mechanism by which insulin regulates plasma HDL levels in physiological and insulin-resistant states and thus have important implications for novel therapeutic approaches to prevent atherosclerosis.
Highlights
Mouse models of obesity and insulin resistance have been used extensively to study the molecular and genetic mechanisms of lipoprotein metabolism and atherosclerotic plaque formation
To test the hypothesis that reduced apolipoprotein M (apoM) levels are a common feature of hyperinsulinemic animals, we compared apolipoprotein levels in wildtype, ob/ob, db/db, and high fat diet-induced obese C57Bl/6 animals (HF) by measuring hepatic mRNA and protein expression as well as plasma protein levels
Since apoM is required for the formation of pre--high density lipoprotein (HDL) [31], we tested whether pre--HDL levels were affected in obese/diabetic mice by analyzing the HDL particle composition by native agarose gel electrophoresis and Western blotting
Summary
Mouse models of obesity and insulin resistance have been used extensively to study the molecular and genetic mechanisms of lipoprotein metabolism and atherosclerotic plaque formation. We measured an ϳ4-fold decrease in apoM mRNA in livers of obese mice compared with lean wild-type littermates, whereas no significant difference was detected in the expression of apoAI, -AII, and -CIII.
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