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Gestational Exercise Increases Male Offspring's Maximal Workload Capacity Early in Life.

International journal of molecular sciences (2022-04-13)
Jorge Beleza, Jelena Stevanović-Silva, Pedro Coxito, Hugo Rocha, Paulo Santos, António Ascensão, Joan Ramon Torrella, José Magalhães
RÉSUMÉ

Mothers' antenatal strategies to improve the intrauterine environment can positively decrease pregnancy-derived intercurrences. By challenging the mother-fetus unit, gestational exercise (GE) favorably modulates deleterious stimuli, such as high-fat, high-sucrose (HFHS) diet-induced adverse consequences for offspring. We aimed to analyze whether GE alters maternal HFHS-consumption effects on male offspring's maximal workload performance (MWP) and in some skeletal muscle (the soleus-SOL and the tibialis anterior-TA) biomarkers associated with mitochondrial biogenesis and oxidative fitness. Infant male Sprague-Dawley rats were divided into experimental groups according to mothers' dietary and/or exercise conditions: offspring of sedentary control diet-fed or HFHS-fed mothers (C-S or HFHS-S, respectively) and of exercised HFHS-fed mothers (HFHS-E). Although maternal HFHS did not significantly alter MWP, offspring from GE dams exhibited increased MWP. Lower SOL AMPk levels in HFHS-S were reverted by GE. SOL PGC-1α, OXPHOS C-I and C-IV subunits remained unaltered by maternal diet, although increased in HFHS-E offspring. Additionally, GE prevented maternal diet-related SOL miR-378a overexpression, while upregulated miR-34a expression. Decreased TA C-IV subunit expression in HFHS-S was reverted in HFHS-E, concomitantly with the downregulation of miR-338. In conclusion, GE in HFHS-fed dams increases the offspring's MWP, which seems to be associated with the intrauterine modulation of SM mitochondrial density and functional markers.

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Protease Inhibitor Cocktail powder, for general use, lyophilized powder
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Phosphatase Inhibitor Cocktail Set II, Lyophilized, The Phosphatase Inhibitor Cocktail Set II, Lyophilized controls the activity of Phosphatase. This small molecule/inhibitor is primarily used for Phosphorylation & Dephosphorylation applications.