Physical training, UCP1 expression, mitochondrial density, and coupling in adipose tissue from women with obesity

Background Exercise training may improve energy expenditure, thermogenesis, and oxidative capacities. Therefore, we hypothesized that physical training enhances white adipose tissue mitochondrial oxidative capacity from obese women. Objective To evaluate mitochondrial respiratory capacity, mitochond...

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Published in:Scandinavian journal of medicine & science in sports 2019-11, Vol.29 (11), p.1699-1706
Main Authors: Brandao, Camila Fernanda Cunha, Carvalho, Flavia Giolo, Souza, Anderson de Oliveira, Junqueira‐Franco, Márcia Varella Morandi, Batitucci, Gabriela, Couto‐Lima, Carlos Antonio, Fett, Carlos Alexandre, Papoti, Marcelo, Freitas, Ellen Cristini de, Alberici, Luciane Carla, Marchini, Julio Sergio
Format: Article
Language:English
Subjects:
Adipose Tissue, White - physiology
Adult
Basal Metabolism
Body Composition
citrate synthase
Exercise
Female
Gene expression
human energy metabolism
Humans
Lipid Metabolism
Lipids
Metabolism
mitochondria
Mitochondria - physiology
Obesity
Obesity - metabolism
Oxidation
Oxidation-Reduction
Oxygen Consumption
Physical fitness
physical training
Respiration
uncoupling protein 1
Uncoupling Protein 1 - metabolism
white adipose tissue
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Summary:Background Exercise training may improve energy expenditure, thermogenesis, and oxidative capacities. Therefore, we hypothesized that physical training enhances white adipose tissue mitochondrial oxidative capacity from obese women. Objective To evaluate mitochondrial respiratory capacity, mitochondrial content, and UCP1 gene expression in white adipose tissue from women with obesity before and after the physical training program. Methods Women (n = 14, BMI 33 ± 3 kg/m2, 35 ± 6 years, mean ± SD) were submitted to strength and aerobic exercises (75%‐90% maximum heart rate and multiple repetitions), 3 times/week during 8 weeks. All evaluated subjects were paired, before and after training for resting metabolic rate (RMR), substrate oxidation (lipid and carbohydrate) by indirect calorimeter, deuterium oxide body composition, and aerobic maximum velocity (Vmax) test. At the beginning and at the ending of the protocol, abdominal subcutaneous adipose tissue was collected to measure the mitochondrial respiration by high‐resolution respirometry, mitochondrial content by citrate synthase (CS) activity, and UCP1 gene expression by RT‐qPCR. Results Combined physical training increased RMR, lipid oxidation, and Vmax but did not change body weight/composition. In WAT, exercise increased CS activity, decreased mitochondrial uncoupled respiration and mRNA of UCP1. RMR was positively correlated with fat‐free mass. Conclusion Physical training promotes an increase in mitochondrial content without changing tissue respiratory capacity, a reduction in mitochondrial uncoupling degree and UCP1 mRNA expression in WAT. Finally, it improved the resting metabolic rate, lipid oxidation and physical performance, independent of the body changing free, or fat mass in obese women.
ISSN:0905-7188
1600-0838
DOI:10.1111/sms.13514