Myofibrillar protein synthesis rates do not differ with low and high estradiol concentrations across the menstrual cycle.

The Journal of clinical endocrinology and metabolism Pub Date : 2025-07-18 DOI:10.1210/clinem/dgaf410

Marianna C A Apicella, Tom S O Jameson, Alistair J Monteyne, George F Pavis, Doaa R Abdelrahman, Andrew J Murton, Nima Alamdari, Marlou L Dirks, Benjamin T Wall, Francis B Stephens

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Abstract

Context: Skeletal muscle can respond and adapt to sex hormones; however, the degree to which fluctuations in endogenous estradiol across the menstrual cycle (MC) influences rates of myofibrillar protein synthesis (MyoPS) is not clear.

Objective: We compared MyoPS in postabsorptive and postprandial postexercise states, during the early follicular (EF; low estradiol) and late follicular (LF; high estradiol) phases of the MC.

Design, setting, participants and intervention: Seventeen healthy females (age: 28±7 y; BMI: 24±3 kg.m2), participated in a randomized, cross-over trial, during the EF (day 4±1; estradiol, 183±78 pmol.L-1) and LF (day 15±3; estradiol, 855±571 pmol.L-1) phases. Following a resistance exercise bout, participants ingested an amino acid (AA) drink. Blood and muscle samples were collected, pre and postexercise and AA ingestion.

Main outcome measure: Following primed-continuous infusion of L-[ring-2H5]-phenylalanine, MyoPS was measured prior to and during a 4 h postprandial postexercise period.

Results: MyoPS increased above postabsorptive rates between 0-2 h to 0.111±0.049 and 0.117±0.058 %⋅h-1, (P<0.001) but not between 2-4 h (P=0.522), for EF and LF, respectively, with no interactions observed (P=0.971). Moderate correlations were shown between total and free testosterone and 0-4 h MyoPS (r=0.364, P=0.048; r=0.369, P=0.045, respectively). Expression of several genes associated with protein synthesis, muscle remodeling and inflammation were increased in LF vs EF (P<0.050), whereas protein breakdown genes were decreased.

Conclusions: Despite a gene expression profile consistent with muscle growth, MyoPS did not differ with elevated estradiol concentrations. Hence, estradiol does not seem to be important for acutely regulating muscle mass in eumenorrheic females.

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在月经周期中，肌原纤维蛋白合成率与雌二醇浓度高低没有差别。

背景：骨骼肌可以对性激素作出反应和适应；然而，内源性雌二醇在月经周期（MC）中的波动对肌原纤维蛋白合成（MyoPS）率的影响程度尚不清楚。目的：比较卵泡早期（EF）吸收后和餐后运动后状态的MyoPS；低雌二醇)和卵泡晚期(LF；设计、设置、参与者和干预：17名健康女性(年龄：28±7岁；BMI: 24±3 kg.m2)，参加了一项随机交叉试验，在EF期间(第4±1天；雌二醇，183±78 pmol.L-1)和LF（第15±3天）；雌二醇，855±571 pmol.L-1)相。在一次抗阻运动之后，参与者摄入了一种氨基酸饮料。采集血液和肌肉样本，运动前后和AA摄入情况。主要观察指标：L-[ring-2H5]-苯丙氨酸启动连续输注后，在餐后运动后4小时及餐前测量MyoPS。结果：MyoPS在0-2 h之间增加至0.111±0.049和0.117±0.058 %·h-1, (p结论：尽管基因表达谱与肌肉生长一致，但MyoPS与雌二醇浓度升高没有差异。因此，雌二醇似乎对痛经女性的肌肉质量的急剧调节并不重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of clinical endocrinology and metabolism

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