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Citations to this article

Overexpression of Insig-1 in the livers of transgenic mice inhibits SREBP processing and reduces insulin-stimulated lipogenesis
Luke J. Engelking, … , Joseph L. Goldstein, Guosheng Liang
Luke J. Engelking, … , Joseph L. Goldstein, Guosheng Liang
Published April 15, 2004
Citation Information: J Clin Invest. 2004;113(8):1168-1175. https://doi.org/10.1172/JCI20978.
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Article Metabolism

Overexpression of Insig-1 in the livers of transgenic mice inhibits SREBP processing and reduces insulin-stimulated lipogenesis

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Abstract

In the current studies we generated transgenic mice that overexpress human Insig-1 in the liver under a constitutive promoter. In cultured cells Insig-1 and Insig-2 have been shown to block lipid synthesis in a cholesterol-dependent fashion by inhibiting proteolytic processing of sterol regulatory element–binding proteins (SREBPs), membrane-bound transcription factors that activate lipid synthesis. Insig’s exert this action in the ER by binding SREBP cleavage-activating protein (SCAP) and preventing it from escorting SREBPs to the Golgi apparatus where the SREBPs are processed to their active forms. In the livers of Insig-1 transgenic mice, the content of all nuclear SREBPs (nSREBPs) was reduced and declined further upon feeding of dietary cholesterol. The nuclear content of the insulin-induced SREBP isoform, SREBP-1c, failed to increase to a normal extent upon refeeding on a high-carbohydrate diet. The nSREBP deficiency produced a marked reduction in the levels of mRNAs encoding enzymes required for synthesis of cholesterol, fatty acids, and triglycerides. Plasma cholesterol levels were strongly reduced, and plasma triglycerides did not exhibit their normal rise after refeeding. These results provide in vivo support for the hypothesis that nSREBPs are essential for high levels of lipid synthesis in the liver and indicate that Insig’s modulate nSREBP levels by binding and retaining SCAP in the ER.

Authors

Luke J. Engelking, Hiroshi Kuriyama, Robert E. Hammer, Jay D. Horton, Michael S. Brown, Joseph L. Goldstein, Guosheng Liang

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