肥胖小鼠在足月妊娠时子宫收缩力下降,子宫内的能量代谢发生改变。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Kevin K Prifti, Ronald McCarthy, Xiaofeng Ma, Brian N Finck, Sarah K England, Antonina I Frolova
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引用次数: 0

摘要

在美国,超过 35% 的育龄妇女患有肥胖症,这增加了她们因分娩异常而引发多种产科并发症的风险。虽然孕产妇肥胖与分娩异常之间的关系已被充分证实,但对造成这种情况的机制仍缺乏研究。子宫平滑肌(即子宫肌层)在分娩过程中需要大量能量来促进子宫规律收缩。然而,子宫肌层满足其能量需求的确切机制尚未确定。在此,我们的目标是确定肥胖对分娩过程中子宫肌层能量利用的影响。我们建立了母体饮食诱发肥胖(DIO)的小鼠模型,发现这些小鼠的难产率高于以饲料喂养的对照组(CON)小鼠。此外,与对照组小鼠相比,DIO小鼠在临产前和分娩过程中的体内自发性子宫收缩力都较低。非靶向转录组和代谢组分析表明,DIO与子宫中长链脂肪酸的摄取和利用率升高有关,但也与中链脂肪酸的积累有关。DIO子宫中长链特异性β氧化酶的丰度也有所增加,这可能是观察到的长链脂肪酸利用率增加的原因。这种能量底物利用的改变可能是导致观察到的收缩功能障碍的一个因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Obese mice have decreased uterine contractility and altered energy metabolism in the uterus at term gestation†.

Over 35% of reproductive-age women in the USA have obesity, putting them at increased risk for numerous obstetric complications due to abnormal labor. While the association between maternal obesity and abnormal labor has been well documented, the mechanisms responsible for this remain understudied. The uterine smooth muscle, myometrium, has high energy needs in order to fuel regular uterine contractions during parturition. However, the precise mechanisms by which the myometrium meets its energy demands has not been defined. Here, our objective was to define the effects of obesity on energy utilization in the myometrium during labor. We generated a mouse model of maternal diet-induced obesity and found that these mice had a higher rate of dystocia than control chow-fed mice. Moreover, compared to control chow-fed mice, DIO mice at term, both before and during labor had lower in vivo spontaneous uterine contractility. Untargeted transcriptomic and metabolomic analyses suggest that diet-induced obesity is associated with elevated long-chain fatty acid uptake and utilization in the uterus, but also an accumulation of medium-chain fatty acids. Diet-induced obesity uteri also had an increase in the abundance of long chain-specific beta-oxidation enzymes, which may be responsible for the observed increase in long-chain fatty acid utilization. This altered energy substrate utilization may be a contributor to the observed contractile dysfunction.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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