1. Mimp/Mtch2, an Obesity Susceptibility Gene, Induces Alteration of Fatty Acid Metabolism in Transgenic Mice.
- Author
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Bar-Lev, Yamit, Moshitch-Moshkovitz, Sharon, Tsarfaty, Galia, Kaufman, Dafna, Horev, Judith, Resau, James H., and Tsarfaty, Ilan
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OBESITY , *DISEASE susceptibility , *FATTY acids , *METABOLIC disorders , *LABORATORY mice , *INSULIN resistance - Abstract
Objective: Metabolic dysfunctions, such as fatty liver, obesity and insulin resistance, are among the most common contemporary diseases worldwide, and their prevalence is continuously rising. Mimp/Mtch2 is a mitochondrial carrier protein homologue, which localizes to the mitochondria and induces mitochondrial depolarization. Mimp/Mtch2 single-nucleotide polymorphism is associated with obesity in humans and its loss in mice muscle protects from obesity. Our aim was to study the effects of Mimp/Mtch2 overexpression in vivo. Methods: Transgenic mice overexpressing Mimp/Mtch2-GFP were characterized and monitored for lipid accumulation, weight and blood glucose levels. Transgenic mice liver and kidneys were used for gene expression analysis. Results: Mimp/Mtch2-GFP transgenic mice express high levels of fatty acid synthase and of β-oxidation genes and develop fatty livers and kidneys. Moreover, high-fat diet–fed Mimp/Mtch2 mice exhibit high blood glucose levels. Our results also show that Mimp/Mtch2 is involved in lipid accumulation and uptake in cells and perhaps in human obesity. Conclusions: Mimp/Mtch2 alters lipid metabolism and may play a role in the onset of obesity and development of insulin resistance. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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