热处理和均化处理对牛初乳蛋白在生长猪(成人体模型)胃消化的影响。
Heat Treatment and Homogenization Influence the Gastric Digestion of Bovine Milk Protein in Growing Pigs as an Adult Human Model.
机构信息
Riddet Institute, Massey University, Palmerston North, New Zealand; School of Food and Advanced Technology, Massey University, Palmerston North, New Zealand; Smart Foods and Bioproducts Group, AgResearch Ltd, Palmerston North, New Zealand.
Riddet Institute, Massey University, Palmerston North, New Zealand; Smart Foods and Bioproducts Group, AgResearch Ltd, Palmerston North, New Zealand.
出版信息
J Nutr. 2024 Jul;154(7):2097-2107. doi: 10.1016/j.tjnut.2024.04.035. Epub 2024 May 3.
BACKGROUND
Bovine milk processing influences the structure of the curd formed during gastric digestion, which may alter gastric protein hydrolysis and impact amino acid (AA) release into the small intestine.
OBJECTIVES
This study aimed to determine the influence of heat treatment and homogenization on the gastric protein digestion and AA emptying of bovine milk.
METHODS
Nine-wk-old pigs (n = 144) consumed either raw, pasteurized nonhomogenized (PNH), pasteurized homogenized (PH), or ultra-high-temperature homogenized (UHT) bovine milk for 10 d. On day 11, fasted pigs received the milk treatment (500 mL) before gastric contents were collected at 0, 20, 60, 120, 180, and 300 min postprandially. The apparent degree of gastric protein hydrolysis (based on the release of free amino groups), apparent gastric disappearance of individual proteins [based on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) gel band intensity], and the gastric emptying of digested protein and AA were determined.
RESULTS
During the first 60 min, the rate of apparent gastric protein hydrolysis was fastest in pigs fed UHT milk (0.29%/min compared with on average 0.07%/min in pigs fed raw, PNH, and PH milk). Differences in the apparent degree of gastric protein hydrolysis and emptying were reflected in the rate of digested protein entering the small intestine. The AA gastric emptying half-time was generally shorter in pigs fed PH and UHT milk than in pigs fed raw and PNH milk. For example, the gastric release of total essential AA was >2-fold faster (P < 0.01) in pigs fed PH or UHT milk than that in pigs fed raw or PNH milk (i.e., homogenized compared with nonhomogenized milk).
CONCLUSIONS
Heat treatment and homogenization increased the apparent gastric degree of protein hydrolysis and the release of digested protein into the small intestine. However, the rate of AA entering the small intestine was mainly increased by homogenization.
背景
牛奶加工会影响胃消化过程中凝乳的结构,这可能会改变胃蛋白水解,并影响氨基酸(AA)在小肠中的释放。
目的
本研究旨在确定热处理和均质化对牛奶胃蛋白消化和 AA 排空的影响。
方法
9 周龄猪(n=144)连续 10 天分别饮用生牛乳、巴氏杀菌非均质化牛奶(PNH)、巴氏杀菌均质化牛奶(PH)或超高温均质化牛奶(UHT)。第 11 天,空腹猪在胃内容物收集前 500 毫升(mL)接受牛奶处理,然后在餐后 0、20、60、120、180 和 300 分钟收集胃内容物。通过释放游离氨基基团的量来确定胃蛋白水解的表观程度、个体蛋白质的表观胃排空[基于十二烷基硫酸钠聚丙烯酰胺凝胶电泳(SDS-PAGE)凝胶带强度]以及消化蛋白和 AA 的胃排空。
结果
在最初的 60 分钟内,UHT 牛奶喂养的猪胃蛋白水解的表观速度最快(0.29%/min,而生牛乳、PNH 和 PH 牛奶喂养的猪平均为 0.07%/min)。胃蛋白水解的表观程度和排空的差异反映在进入小肠的消化蛋白速率上。PH 和 UHT 牛奶喂养的猪的 AA 胃排空半衰期通常短于生牛乳和 PNH 牛奶喂养的猪。例如,PH 或 UHT 牛奶喂养的猪胃中总必需 AA 的释放速度快 2 倍以上(P<0.01),而 PH 或 UHT 牛奶喂养的猪胃中总必需 AA 的释放速度快 2 倍以上(P<0.01)生牛乳或 PNH 牛奶喂养的猪(即均质化牛奶与非均质化牛奶相比)。
结论
热处理和均质化增加了胃蛋白水解的表观程度和消化蛋白在小肠中的释放。然而,AA 进入小肠的速度主要是通过均质化来提高的。
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