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Fish Oil Supplementation Mitigates High-Fat Diet-Induced Obesity: Exploring Epigenetic Modulation and Genes Associated with Adipose Tissue Dysfunction in Mice
de Jesus Simão, J.; de Sousa Bispo, A.F.; Plata, V.T.G.; Armelin-Correa, L.M.; Alonso-Vale, M.I.C. Fish Oil Supplementation Mitigates High-Fat Diet-Induced Obesity: Exploring Epigenetic Modulation and Genes Associated with Adipose Tissue Dysfunction in Mice. Pharmaceuticals2024, 17, 861.
de Jesus Simão, J.; de Sousa Bispo, A.F.; Plata, V.T.G.; Armelin-Correa, L.M.; Alonso-Vale, M.I.C. Fish Oil Supplementation Mitigates High-Fat Diet-Induced Obesity: Exploring Epigenetic Modulation and Genes Associated with Adipose Tissue Dysfunction in Mice. Pharmaceuticals 2024, 17, 861.
de Jesus Simão, J.; de Sousa Bispo, A.F.; Plata, V.T.G.; Armelin-Correa, L.M.; Alonso-Vale, M.I.C. Fish Oil Supplementation Mitigates High-Fat Diet-Induced Obesity: Exploring Epigenetic Modulation and Genes Associated with Adipose Tissue Dysfunction in Mice. Pharmaceuticals2024, 17, 861.
de Jesus Simão, J.; de Sousa Bispo, A.F.; Plata, V.T.G.; Armelin-Correa, L.M.; Alonso-Vale, M.I.C. Fish Oil Supplementation Mitigates High-Fat Diet-Induced Obesity: Exploring Epigenetic Modulation and Genes Associated with Adipose Tissue Dysfunction in Mice. Pharmaceuticals 2024, 17, 861.
Abstract
This study investigated the effects of fish oil (FO) treatment, particularly enriched with eicosapentaenoic acid (EPA), on obesity induced by a high-fat diet (HFD) in mice. The investigation focused on elucidating the impact of FO on epigenetic modifications in white adipose tissue (WAT) and the involvement of adipose-derived stem cells (ASCs). C57BL/6j mice were submitted to a control diet or a HFD for 16 weeks, treated (or not) with FO for the last 8 weeks. WAT was removed for RNA and protein extraction, while ASCs were isolated, cultured, and treated with Leptin. All samples were analyzed using functional genomics tools, including PCR-array, RT-PCR and Western Blot assays. Mice receiving HFD displayed increased body mass, fat accumulation, and altered gene expression associated with WAT inflammation and dysfunction. FO supplementation attenuated these effects, a potential protective role against HFD-induced obesity. Analysis of H3K27 revealed HFD-induced changes in histone, which were partially reversed by FO treatment. The study further explored leptin signaling in ASCs, suggesting a potential mechanism for ASC dysfunction in the leptin-rich environment of obese WAT. Overall, FO supplementation demonstrated efficacy in mitigating HFD-induced obesity, influencing epigenetic and molecular pathways, and shedding light on the role of ASCs and leptin signaling in WAT dysfunction associated with obesity.
Biology and Life Sciences, Biochemistry and Molecular Biology
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