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MINOR (NR4A3) Overexpression in Mouse Skeletal Muscle Enhances Insulin Action

Abstract

Wei Zhang, John Garvey W, Nanlan Luo, W Timothy Garvey and Yuchang Fu

MINOR (Mitogen-Inducible Nuclear Orphan Receptor) is one member of the NR4A3 nuclear orphan receptor family which are immediate early gene products involved in neuroendocrine regulation, neural differentiation, liver regeneration, cell apoptosis, and mitogenic and inflammatory stimulation in different cell types. We have found that MINOR can modulate insulin action and the glucose transport system in 3T3-L1 adipocytes; however, MINOR is highly expressed in skeletal muscle and its function in vivo is not well understood. To determine the role of MINOR in vivo, we have generated a mouse model that has the MINOR gene specifically expressed in the skeletal muscle using a muscle creatine kinase (MCK) promoter, and investigated whether the gene functions of MINOR would be linked to insulin action in vivo since skeletal muscle is one of the primary target tissues for insulin action. We demonstrate that these MCK-MINOR transgenic mice have reduced body weight due to a reduction of fat mass inside the body. Mice with MINOR overexpression also have improved insulin and glucose tolerances, reduced plasma levels of triglyceride, cholesterol and free fatty acid as well as enhanced expression of genes which are related to insulin action and its signaling pathways. Thus, MINOR functions in skeletal muscle act to improve insulin sensitivity and glucose intolerances and regulate insulin action and lipid and energy expenditure process.

 

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