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孕期运动增加雄性后代早期的最大工作负荷能力。

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

机构信息

Department of Cell Biology, Physiology & Immunology, Faculty of Biology, University of Barcelona, 08028 Barcelona, Spain.

Laboratory of Metabolism and Exercise (LaMetEx), Research Centre in Physical Activity, Health and Leisure (CIAFEL), Faculty of Sport, University of Porto, 4200-450 Porto, Portugal.

出版信息

Int J Mol Sci. 2022 Apr 1;23(7):3916. doi: 10.3390/ijms23073916.

DOI:10.3390/ijms23073916
PMID:35409278
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8999565/
Abstract

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.

摘要

母亲在产前采取的策略可以改善子宫内环境,从而降低妊娠相关的并发症。通过挑战母子单元,妊娠运动(GE)可以有利地调节有害刺激,例如高脂肪、高蔗糖(HFHS)饮食对后代的不利影响。我们旨在分析 GE 是否会改变母亲 HFHS 消费对雄性后代最大工作负荷表现(MWP)的影响,以及一些与线粒体生物发生和氧化适应相关的骨骼肌(比目鱼肌-SOL 和胫骨前肌-TA)生物标志物。雄性 Sprague-Dawley 幼鼠根据母亲的饮食和/或运动条件分为实验组:久坐对照饮食喂养或 HFHS 喂养的后代(C-S 或 HFHS-S)和运动 HFHS 喂养的后代(HFHS-E)。尽管母亲 HFHS 并没有显著改变 MWP,但来自 GE 母亲的后代表现出更高的 MWP。HFHS-S 中的 SOL AMPk 水平降低被 GE 逆转。PGC-1α、OXPHOS C-I 和 C-IV 亚基不受母体饮食影响,但在 HFHS-E 后代中增加。此外,GE 防止了与母体饮食相关的 SOL miR-378a 过度表达,同时上调了 miR-34a 的表达。HFHS-S 中 TA C-IV 亚基表达的降低在 HFHS-E 中得到逆转,同时 miR-338 的表达下调。总之,HFHS 喂养的母鼠中的 GE 增加了后代的 MWP,这似乎与 SM 线粒体密度和功能标志物的宫内调节有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b280/8999565/d8334e49e74f/ijms-23-03916-g009.jpg
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