母亲在怀孕前和怀孕期间的运动不会影响小鼠后代的运动或身体成分。

Scott A Kelly, Kunjie Hua, Jennifer N Wallace, Sarah E Wells, Derrick L Nehrenberg, Daniel Pomp
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引用次数: 14

摘要

背景:基因组、环境及其相互作用同时调节着复杂的性状,如身体成分和自愿运动水平。这种环境影响之一是产妇环境(即子宫内环境或产妇护理)。母体环境的变化可能直接影响母亲,同时也有可能影响子代在子宫内、出生后和成年后的生理和/或行为。在这里,我们利用一个小鼠模型来研究在整个发育过程中(~3周龄~ ~9周龄),母体环境对子代体重和身体组成(%脂肪组织和%瘦肉组织)的影响,包括自愿运动(不进行轮式跑步、妊娠前轮式跑步和妊娠前轮式跑步)。此外,我们检查了~6周的母亲运动(怀孕前和怀孕期间)对~9周龄后代运动水平的影响。结果:我们观察到,在整个发育过程中,母亲的运动对随后的雄性或雌性后代的身体组成没有实质性的影响,也没有对后代参与自愿跑轮的倾向产生实质性影响。在个体水平上,相关分析揭示了母亲和后代运动水平之间的一些统计上显著的关系,可能反映了先前已知的对这些特征的遗传力估计。结论:目前的结果与先前在人类和小鼠模型中发现的结果相冲突,表明母体运动有可能改变后代的表型。我们在母体运动的时间和后代内检查表型的生物组织水平的背景下讨论我们的负面发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Maternal exercise before and during pregnancy does not impact offspring exercise or body composition in mice.

Maternal exercise before and during pregnancy does not impact offspring exercise or body composition in mice.

Maternal exercise before and during pregnancy does not impact offspring exercise or body composition in mice.

Maternal exercise before and during pregnancy does not impact offspring exercise or body composition in mice.

Background: The genome, the environment, and their interactions simultaneously regulate complex traits such as body composition and voluntary exercise levels. One such environmental influence is the maternal milieu (i.e., in utero environment or maternal care). Variability in the maternal environment may directly impact the mother, and simultaneously has the potential to influence the physiology and/or behavior of offspring in utero, post birth, and into adulthood. Here, we utilized a murine model to examine the effects of the maternal environment in regard to voluntary exercise (absence of wheel running, wheel running prior to gestation, and wheel running prior to and throughout gestation) on offspring weight and body composition (% fat tissue and % lean tissue) throughout development (~3 to ~9 weeks of age). Additionally, we examined the effects of ~6 weeks of maternal exercise (prior to and during gestation) on offspring exercise levels at ~9 weeks of age.

Results: We observed no substantial effects of maternal exercise on subsequent male or female offspring body composition throughout development, or on the propensity of offspring to engage in voluntary wheel running. At the level of the individual, correlational analyses revealed some statistically significant relationships between maternal and offspring exercise levels, likely reflecting previously known heritability estimates for such traits.

Conclusions: The current results conflict with previous findings in human and mouse models demonstrating that maternal exercise has the potential to alter offspring phenotypes. We discuss our negative findings in the context of the timing of the maternal exercise and the level of biological organization of the examined phenotypes within the offspring.

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