摄入牛奶可刺激抗阻运动后净肌肉蛋白合成。

Milk ingestion stimulates net muscle protein synthesis following resistance exercise.

作者信息

Elliot Tabatha A, Cree Melanie G, Sanford Arthur P, Wolfe Robert R, Tipton Kevin D

机构信息

Metabolism Unit, Shriners Hospitals for Children and Department of Surgery, The University of Texas Medical Branch, Galveston, TX, USA.

出版信息

Med Sci Sports Exerc. 2006 Apr;38(4):667-74. doi: 10.1249/01.mss.0000210190.64458.25.

DOI:10.1249/01.mss.0000210190.64458.25

PMID:16679981

Abstract

PURPOSE

Previous studies have examined the response of muscle protein to resistance exercise and nutrient ingestion. Net muscle protein synthesis results from the combination of resistance exercise and amino acid intake. No study has examined the response of muscle protein to ingestion of protein in the context of a food. This study was designed to determine the response of net muscle protein balance following resistance exercise to ingestion of nutrients as components of milk.

METHOD

Three groups of volunteers ingested one of three milk drinks each: 237 g of fat-free milk (FM), 237 g of whole milk (WM), and 393 g of fat-free milk isocaloric with the WM (IM). Milk was ingested 1 h following a leg resistance exercise routine. Net muscle protein balance was determined by measuring amino acid balance across the leg.

RESULTS

Arterial concentrations of representative amino acids increased in response to milk ingestion. Threonine balance and phenylalanine balance were both > 0 following milk ingestion. Net amino acid uptake for threonine was 2.8-fold greater (P < 0.05) for WM than for FM. Mean uptake of phenylalanine was 80 and 85% greater for WM and IM, respectively, than for FM, but not statistically different. Threonine uptake relative to ingested was significantly (P < 0.05) higher for WM (21 +/- 6%) than FM (11 +/- 5%), but not IM (12 +/- 3%). Mean phenylalanine uptake/ingested also was greatest for WM, but not significantly.

CONCLUSIONS

Ingestion of milk following resistance exercise results in phenylalanine and threonine uptake, representative of net muscle protein synthesis. These results suggest that whole milk may have increased utilization of available amino acids for protein synthesis.

摘要

目的

以往的研究探讨了肌肉蛋白质对阻力运动和营养摄入的反应。净肌肉蛋白质合成是阻力运动和氨基酸摄入共同作用的结果。尚无研究在食物背景下考察肌肉蛋白质对蛋白质摄入的反应。本研究旨在确定阻力运动后净肌肉蛋白质平衡对作为牛奶成分的营养物质摄入的反应。

方法

三组志愿者分别饮用三种牛奶饮品之一：237克脱脂牛奶（FM）、237克全脂牛奶（WM）和与WM等热量的393克脱脂牛奶（IM）。在腿部进行阻力运动常规训练1小时后饮用牛奶。通过测量腿部的氨基酸平衡来确定净肌肉蛋白质平衡。

结果

摄入牛奶后，代表性氨基酸的动脉浓度升高。摄入牛奶后，苏氨酸平衡和苯丙氨酸平衡均>0。WM组苏氨酸的净氨基酸摄取量比FM组高2.8倍（P<0.05）。WM组和IM组苯丙氨酸的平均摄取量分别比FM组高80%和85%，但差异无统计学意义。相对于摄入量，WM组苏氨酸的摄取量（21±6%）显著高于FM组（11±5%），但IM组（12±3%）与FM组无显著差异。WM组苯丙氨酸的平均摄取量/摄入量也最高，但差异不显著。

结论

阻力运动后摄入牛奶可导致苯丙氨酸和苏氨酸摄取，这代表了净肌肉蛋白质合成。这些结果表明，全脂牛奶可能提高了可利用氨基酸用于蛋白质合成的利用率。

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摄入牛奶可刺激抗阻运动后净肌肉蛋白合成。

Milk ingestion stimulates net muscle protein synthesis following resistance exercise.

作者信息

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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