Pea and soy fortified with leucine stimulates muscle protein synthesis comparable to whey in a murine ageing model.

IF 4.1 2区医学 Q2 NUTRITION & DIETETICS European Journal of Nutrition Pub Date : 2024-11-21 DOI:10.1007/s00394-024-03506-8

Francina J Dijk, Miriam van Dijk, Justin Roberts, Ardy van Helvoort, Matthew J W Furber

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Abstract

Purpose: To meet the global dietary protein demands, a trend towards plant-based protein (PBP) sources to replace animal-derived protein is currently ongoing. However, PBPs may not have the same anabolic capacity to stimulate muscle protein synthesis (MPS) as dairy proteins. For vulnerable populations with specific medical needs, it is especially important to validate the anabolic properties of PBPs. In this study, a blend of pea and soy protein isolate, with or without additional leucine, was compared to whey protein isolate on MPS in aged mice.

Methods: 25-Months aged C57BL/6J-mice received an oral gavage with 70 mg of whey protein isolate (W), PS protein isolate (PS; ratio 51:49), PS fortified with 19% leucine (PS + L), or 0.5mL water (F). Mice were subcutaneously injected with puromycin (0.04 µmol/g body weight, t = 30 min) and sacrificed 60 min thereafter. Left m. tibialis anterior (TA) was used to analyse MPS by the SUnSET method and mTOR signal transduction proteins. Amino acid concentrations were determined in plasma and right TA. Dried blood spots (DBS) were analysed for postprandial dynamics of amino acids at 10-20-45-60-min.

Results: MPS was significantly increased by W and PS + L (p < 0.003), however not by PS. Pathway protein 4EBP1 showed significant increases with W, PS and PS + L to F (p < 0.0002). W and PS + L increased plasma and muscle free leucine equally, which was confirmed by DBS.

Conclusion: A PS blend fortified with leucine stimulates MPS comparable to whey protein in this acute murine ageing model. Leucine appears to be the main driver for the anabolic responses observed.

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在小鼠老化模型中，强化亮氨酸的豌豆和大豆刺激肌肉蛋白质合成的效果与乳清相当。

目的：为满足全球对膳食蛋白质的需求，目前正在出现一种趋势，即用植物性蛋白质（PBP）来替代动物性蛋白质。然而，植物性蛋白质在刺激肌肉蛋白质合成（MPS）方面的合成代谢能力可能不如乳制品蛋白质。对于有特殊医疗需求的弱势群体来说，验证 PBPs 的合成代谢特性尤为重要。方法：25 个月大的 C57BL/6J 小鼠口服 70 毫克分离乳清蛋白（W）、分离 PS 蛋白（PS；比例为 51:49）、强化 19% 亮氨酸的 PS（PS + L）或 0.5 毫升水（F）。小鼠皮下注射嘌呤霉素（0.04 µmol/g 体重，t = 30 分钟），60 分钟后处死。用 SUnSET 法分析左胫骨前肌（TA）的 MPS 和 mTOR 信号转导蛋白。测定血浆和右胫骨前肌（TA）中的氨基酸浓度。在 10-20-45-60 分钟内，对干血点（DBS）进行餐后氨基酸动态分析：结果：W 和 PS + L 能明显增加 MPS（p 结论：W 和 PS + L 能明显增加 MPS：在这种急性小鼠老化模型中，添加亮氨酸的 PS 混合物对 MPS 的刺激作用与乳清蛋白相当。亮氨酸似乎是所观察到的合成代谢反应的主要驱动力。

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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来源期刊

European Journal of Nutrition 医学-营养学

CiteScore

10.20

自引率

2.00%

发文量

295

审稿时长

6 months

期刊介绍： The European Journal of Nutrition publishes original papers, reviews, and short communications in the nutritional sciences. The manuscripts submitted to the European Journal of Nutrition should have their major focus on the impact of nutrients and non-nutrients on immunology and inflammation, gene expression, metabolism, chronic diseases, or carcinogenesis, or a major focus on epidemiology, including intervention studies with healthy subjects and with patients, biofunctionality of food and food components, or the impact of diet on the environment.