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Literature DB >> 28926107

Fenofibrate reverses changes induced by high-fat diet on metabolism in mice muscle and visceral adipocytes.

Flávia de T Frias¹, Karina C E Rocha¹, Mariana de Mendonça¹, Gilson M Murata², Hygor N Araujo^3,4, Luís G O de Sousa¹, Érica de Sousa¹, Sandro M Hirabara⁵, Nayara de C Leite^3,4, Everardo M Carneiro^3,4, Rui Curi^2,5, Leonardo R Silveira^3,4, Alice C Rodrigues¹.

Abstract

The effect of fenofibrate on the metabolism of skeletal muscle and visceral white adipose tissue of diet-induced obese (DIO) mice was investigated. C57BL/6J male mice were fed either a control or high-fat diet for 8 weeks. Fenofibrate (50 mg/Kg BW, daily) was administered by oral gavage during the last two weeks of the experimental period. Insulin-stimulated glucose metabolism in soleus muscles, glucose tolerance test, insulin tolerance test, indirect calorimetry, lipolysis of visceral white adipose tissue, expression of miR-103-3p in adipose tissue, and miR-1a, miR-133a/b, miR-206, let7b-5p, miR-23b-3p, miR-29-3p, miR-143-3p in soleus muscle, genes related to glucose and fatty acid metabolism in adipose tissue and soleus muscle, and proteins (phospho-AMPKα2, Pgc1α, Cpt1b), intramuscular lipid staining, and activities of fatty acid oxidation enzymes in skeletal muscle were investigated. In DIO mice, fenofibrate prevented weight gain induced by HFD feeding by increasing energy expenditure; improved whole body glucose homeostasis, and in skeletal muscle, increased insulin dependent glucose uptake, miR-1a levels, reduced intramuscular lipid accumulation, and phospho-AMPKα2 levels. In visceral adipose tissue of obese mice, fenofibrate decreased basal lipolysis rate and visceral adipocytes hypertrophy, and induced the expression of Glut-4, Irs1, and Cav-1 mRNA and miR-103-3p suggesting a higher insulin sensitivity of the adipocytes. The evidence is presented herein that beneficial effects of fenofibrate on body weight, glucose homeostasis, and muscle metabolism might be related to its action in adipose tissue. Moreover, fenofibrate regulates miR-1a-3p in soleus and miR-103-3p in adipose tissue, suggesting these microRNAs might contribute to fenofibrate beneficial effects on metabolism.

Entities: Chemical Disease Gene Species

Keywords: AMPK; MicroRNA; fatty acid oxidation; insulin resistance; obesity

Mesh：

Substances：

Year: 2017 PMID： 28926107 DOI： 10.1002/jcp.26203

Source DB: PubMed Journal: J Cell Physiol ISSN： 0021-9541 Impact factor: 6.384

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