PPARα deficiency reduces insulin resistance and atherosclerosis in apoE-null mice
Karen Tordjman, … , Daniel P. Kelly, Clay F. Semenkovich
Karen Tordjman, … , Daniel P. Kelly, Clay F. Semenkovich
Published April 15, 2001
Citation Information: J Clin Invest. 2001;107(8):1025-1034. https://doi.org/10.1172/JCI11497.
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Article

PPARα deficiency reduces insulin resistance and atherosclerosis in apoE-null mice

Abstract

PPARα is a ligand-dependent transcription factor expressed at high levels in the liver. Its activation by the drug gemfibrozil reduces clinical events in humans with established atherosclerosis, but the underlying mechanisms are incompletely defined. To clarify the role of PPARα in vascular disease, we crossed PPARα-null mice with apoE-null mice to determine if the genetic absence of PPARα affects vascular disease in a robust atherosclerosis model. On a high-fat diet, concentrations of atherogenic lipoproteins were higher in PPARα–/–apoE–/– than in PPARα+/+apoE–/– mice, due to increased VLDL production. However, en face atherosclerotic lesion areas at the aortic arch, thoracic aorta, and abdominal aorta were less in PPARα-null animals of both sexes after 6 and 10 weeks of high-fat feeding. Despite gaining as much or more weight than their PPARα+/+apoE–/– littermates, PPARα–/–apoE–/– mice had lower fasting levels of glucose and insulin. PPARα-null animals had greater suppression of endogenous glucose production in hyperinsulinemic clamp experiments, reflecting less insulin resistance in the absence of PPARα. PPARα–/–apoE–/– mice also had lower blood pressures than their PPARα+/+apoE–/– littermates after high-fat feeding. These results suggest that PPARα may participate in the pathogenesis of diet-induced insulin resistance and atherosclerosis.

Authors

Karen Tordjman, Carlos Bernal-Mizrachi, Laura Zemany, Sherry Weng, Chu Feng, Fengjuan Zhang, Teresa C. Leone, Trey Coleman, Daniel P. Kelly, Clay F. Semenkovich

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Lipoprotein metabolism studies in PPARα–/–apoE–/– mice (open symbols, br...
Lipoprotein metabolism studies in PPARα–/–apoE–/– mice (open symbols, broken line) and PPARα+/+apoE–/– littermates (filled symbols, solid line). (a) For the VLDL clearance data high-fat fed mice were injected with radiolabeled VLDL that was synthesized in vivo by administering [9,10-3H] palmitic acid in corn oil to PPARα+/+apoE–/– mice. After injection of radiolabeled VLDL at time 0, mice underwent venipuncture at 0.5, 1, 2, 5, and 20 minutes. Data are expressed as the percentage of radioactivity at the 0.5-minute time point. Data from 20 minutes were identical to those at 5 minutes and are excluded for clarity; n = 4 for each genotype. The same results were seen in two independent experiments. (b) For the triglyceride production data, fasting triglyceride levels were determined at time 0, mice were injected with Triton WR 1339 to inhibit systemic lipolysis, and venipuncture was performed at 15 and 30 minutes. Data are expressed as the percentage of the fasting triglyceride levels (mean triglycerides at time 0 were 129 mg/dl for PPARα+/+apoE–/– and 236 mg/dl for PPARα–/–apoE–/– in this experiment). AP = 0.0165 vs. PPARα+/+apoE–/–; n = 4 for each genotype. The same results were seen in two independent experiments.