Metabolic mitochondrial alterations prevail in the female rat heart 8 weeks after exercise cessation

Metabolic mitochondrial alterations prevail in the female rat heart 8 weeks after exercise cessation

The consumption of high-caloric diets strongly contributes to the development of non-communicable diseases (NCDs), including cardiovascular disease, the leading cause of mortality worldwide. Exercise (along with diet intervention) is one of the primary non-pharmacological approaches to promote a hea...

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Published in:European journal of clinical investigation Vol. 53; no. 11; p. e14069
Main Authors: Tocantins, Carolina, Martins, João D, Rodrigues, Óscar M, Grilo, Luís F, Diniz, Mariana S, Stevanovic-Silva, Jelena, Beleza, Jorge, Coxito, Pedro, Rizo-Roca, David, Santos-Alves, Estela, Rios, Manoel, Carvalho, Lina, Moreno, António J, Ascensão, António, Magalhães, José, Oliveira, Paulo J, Pereira, Susana P
Format: Journal Article
Language:English
Published: England 01-11-2023
Subjects:
cardiac remodelling
female
exercise cessation
high-fat high-sugar diet
mitochondria
metabolic dysfunction
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Summary:The consumption of high-caloric diets strongly contributes to the development of non-communicable diseases (NCDs), including cardiovascular disease, the leading cause of mortality worldwide. Exercise (along with diet intervention) is one of the primary non-pharmacological approaches to promote a healthier lifestyle and counteract the rampant prevalence of NCDs. The present study evaluated the effects of exercise cessation after a short period training on the cardiac metabolic and mitochondrial function of female rats. Seven-week-old female Sprague-Dawley rats were fed a control or a high-fat, high-sugar (HFHS) diet and, after 7 weeks, the animals were kept on a sedentary lifestyle or submitted to endurance exercise for 3 weeks (6 days per week, 20-60 min/day). The cardiac samples were analysed 8 weeks after exercise cessation. The consumption of the HFHS diet triggered impaired glucose tolerance, whereas the HFHS diet and physical exercise resulted in different responses in plasma adiponectin and leptin levels. Cardiac mitochondrial respiration efficiency was decreased by the HFHS diet consumption, which led to reduced ATP and increased NAD(P)H mitochondrial levels, which remained prevented by exercise 8 weeks after cessation. Exercise training-induced cardiac adaptations in redox balance, namely increased relative expression of Nrf2 and downstream antioxidant enzymes persist after an eight-week exercise cessation period. Endurance exercise modulated cardiac redox balance and mitochondrial efficiency in female rats fed a HFHS diet. These findings suggest that exercise may elicit cardiac adaptations crucial for its role as a non-pharmacological intervention for individuals at risk of developing NCDs.
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ISSN:0014-2972
1365-2362
DOI:10.1111/eci.14069