Institute of Sports Medicine Copenhagen, Department of Orthopedic Surgery M, Bispebjerg Hospital, Copenhagen, Denmark; Department of Biomedical Sciences, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.
Institute of Sports Medicine Copenhagen, Department of Orthopedic Surgery M, Bispebjerg Hospital, Copenhagen, Denmark.
Clin Nutr. 2020 Dec;39(12):3652-3662. doi: 10.1016/j.clnu.2020.03.017. Epub 2020 Mar 26.
BACKGROUND & AIMS: Availability of dietary protein-derived amino acids (AA) is an important determinant for their utilization in metabolism and for protein synthesis. Intrinsic labeling of protein is the only method to directly trace availability and utilization. The purpose of the present study was to produce labeled milk and meat proteins and investigate how dietary protein-derived AA availability is affected by the protein-meal matrix.
Four lactating cows were infused with L-[ring-d]phenylalanine and one with L-[N]phenylalanine for 72 h. Milk was collected, and three of the [d]phenylalanine cows were subsequently slaughtered. Two human studies were performed to explore plasma AA availability properties utilizing the labeled proteins. One study compared the intake of whey protein either alone or together with carbohydrates-fat food-matrix. The other study compared the intake of meat hydrolysate with minced beef. Cow blood, milk, meat and human blood samples were collected and analyzed by mass spectrometry.
Whey and caseinate acquired label to 15-20 mol percent excess (MPE), and the meat proteins reached 0.41-0.73 MPE. The [d]phenylalanine appeared fast in plasma and peaked 30 min after whey protein alone and meat hydrolysate intake, whereas whey protein with a food-matrix and the meat minced beef postponed the [d]phenylalanine peak until 2 and 1 h, respectively.
Phenylalanine stable isotope-labeled milk and meat were produced and proved a valuable tool to investigate AA absorption characteristics. Dietary protein in food-matrices showed delayed postprandial plasma AA availability as compared to whey protein alone and meat hydrolysate.
饮食蛋白质衍生氨基酸(AA)的可利用性是其在代谢和蛋白质合成中利用的重要决定因素。蛋白质的内源性标记是直接追踪可利用性和利用率的唯一方法。本研究的目的是生产标记的牛奶和肉类蛋白质,并研究饮食蛋白质衍生 AA 的可利用性如何受蛋白质-膳食基质的影响。
4 头泌乳奶牛连续 72 小时输注 L-[ring-d]苯丙氨酸,1 头输注 L-[N]苯丙氨酸。收集牛奶,随后屠宰 3 头[ d]苯丙氨酸奶牛。进行了两项人类研究,利用标记蛋白质来探索血浆 AA 可利用性特性。一项研究比较了单独摄入乳清蛋白或与碳水化合物-脂肪食物基质一起摄入乳清蛋白。另一项研究比较了摄入肉水解物与碎牛肉。采集牛血、牛奶、肉和人血样,并用质谱分析法进行分析。
乳清蛋白和酪蛋白获得了 15-20 mol%过剩(MPE)的标记,而肉类蛋白质达到了 0.41-0.73 MPE。[d]苯丙氨酸在血浆中迅速出现,单独摄入乳清蛋白和肉水解物后 30 分钟达到峰值,而乳清蛋白与食物基质和碎牛肉摄入后,[d]苯丙氨酸峰值分别延迟至 2 小时和 1 小时。
生产了苯丙氨酸稳定同位素标记的牛奶和肉类蛋白质,并证明了这是一种研究 AA 吸收特性的有价值工具。与单独摄入乳清蛋白和肉水解物相比,食物基质中的蛋白质显示出餐后血浆 AA 可利用性的延迟。
