摄入大豆-乳制品蛋白混合物或乳清蛋白分离物可诱导老年男性运动后雷帕霉素复合物1信号和蛋白质合成反应的相似肌肉机制靶点[34

The Journal of Nutrition Health and Aging Pub Date : 2016-10-26 DOI:10.3945/jn.116.231159

Michael S. Borack, P. Reidy, Syed H Husaini, M. Markofski, R. Deer, Abigail B Richison, B. Lambert, M. Cope, R. Mukherjea, K. Jennings, E. Volpi, B. Rasmussen

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引用次数: 51

摘要

背景:先前的研究表明，大豆-乳制品蛋白混合物(PB)可以延长年轻人在阻力运动后的高氨基酸血症和肌肉蛋白质合成。目的:探讨铅对老年人的影响。我们假设与乳清分离蛋白(WPI)相比，PB可以延长高氨基酸酸血症，增强雷帕霉素复合物1 (mTORC1)信号传导的机制靶点和肌肉蛋白合成代谢。方法:这项双盲、随机对照试验研究了55-75岁的男性。受试者在腿部伸展运动后1小时，从WPI或PB中摄取30 g蛋白质(25%大豆，25%乳清和50%酪蛋白)(8组，每组10次，每次最多重复70%)。采用稳定同位素法测定血液和肌肉氨基酸浓度以及基础和运动后肌肉蛋白质周转。通过免疫印迹法评估肌肉mTORC1信号。结果:两组摄入蛋白质后氨基酸浓度升高(P < 0.05)， mTORC1信号通路升高(P < 0.05)。运动后分数合成率;P≥0.05)，分数击穿率(FBR;P≥0.05)，净平衡组间差异无统计学意义(P = 0.08)。WPI使FSR增加67%(平均值±SEM:其余0.05%±0.01%;运动后:0.09%±0.01%;P < 0.05)， FBR降低46%(其余:0.17%±0.01%;运动后:0.09%±0.03%;P < 0.05)，使净余额减少负(P < 0.05)。摄入铅不增加FSR(其余:0.07%±0.03%;运动后:0.09%±0.01%;P≥0.05)，有使FBR降低42%的趋势(其余:0.25%±0.08%;运动后:0.15%±0.08%;P = 0.08)，使净余额减少负(P < 0.05)。FSR、FBR、净平衡组内变化百分比差异无统计学意义(P≥0.05)。结论:老年男性运动后摄入WPI和PB在高氨基酸酸血症、mTORC1信号传导、肌肉蛋白合成和分解方面有相似的反应。这些数据为使用乳清或大豆-乳制品PBs作为有针对性的营养干预措施来对抗肌肉减少症提供了新的证据。该试验在clinicaltrials.gov注册为NCT01847261。

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Soy-Dairy Protein Blend or Whey Protein Isolate Ingestion Induces Similar Postexercise Muscle Mechanistic Target of Rapamycin Complex 1 Signaling and Protein Synthesis Responses in Older Men1234

Background: Previous work demonstrated that a soy-dairy protein blend (PB) prolongs hyperaminoacidemia and muscle protein synthesis in young adults after resistance exercise. Objective: We investigated the effect of PB in older adults. We hypothesized that PB would prolong hyperaminoacidemia, enhancing mechanistic target of rapamycin complex 1 (mTORC1) signaling and muscle protein anabolism compared with a whey protein isolate (WPI). Methods: This double-blind, randomized controlled trial studied men 55–75 y of age. Subjects consumed 30 g protein from WPI or PB (25% soy, 25% whey, and 50% casein) 1 h after leg extension exercise (8 sets of 10 repetitions at 70% one-repetition maximum). Blood and muscle amino acid concentrations and basal and postexercise muscle protein turnover were measured by using stable isotopic methods. Muscle mTORC1 signaling was assessed by immunoblotting. Results: Both groups increased amino acid concentrations (P < 0.05) and mTORC1 signaling after protein ingestion (P < 0.05). Postexercise fractional synthesis rate (FSR; P ≥ 0.05), fractional breakdown rate (FBR; P ≥ 0.05), and net balance (P = 0.08) did not differ between groups. WPI increased FSR by 67% (mean ± SEM: rest: 0.05% ± 0.01%; postexercise: 0.09% ± 0.01%; P < 0.05), decreased FBR by 46% (rest: 0.17% ± 0.01%; postexercise: 0.09% ± 0.03%; P < 0.05), and made net balance less negative (P < 0.05). PB ingestion did not increase FSR (rest: 0.07% ± 0.03%; postexercise: 0.09% ± 0.01%; P ≥ 0.05), tended to decrease FBR by 42% (rest: 0.25% ± 0.08%; postexercise: 0.15% ± 0.08%; P = 0.08), and made net balance less negative (P < 0.05). Within-group percentage of change differences were not different between groups for FSR, FBR, or net balance (P ≥ 0.05). Conclusions: WPI and PB ingestion after exercise in older men induced similar responses in hyperaminoacidemia, mTORC1 signaling, muscle protein synthesis, and breakdown. These data add new evidence for the use of whey or soy-dairy PBs as targeted nutritional interventions to counteract sarcopenia. This trial was registered at clinicaltrials.gov as NCT01847261.

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The Journal of Nutrition Health and Aging

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