Heat Treatment and Homogenization Influence the Gastric Digestion of Bovine Milk Protein in Growing Pigs as an Adult Human Model

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. This study aimed to determine the influence of heat treatment and homogenization on the gastric protein...

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Bibliographic Details
Published in:The Journal of nutrition 2024-07, Vol.154 (7), p.2097-2107
Main Authors: Ahlborn, Natalie G, Montoya, Carlos A, Roy, Nicole C, Ye, Aiqian, Samuelsson, Linda M, Wieliczko, Robert J, McNabb, Warren C
Format: Article
Language:English
Subjects:
Amino acids
Amino groups
bovine milk
Cattle
Cow's milk
digested protein gastric emptying
Digestion
Digestive system
Electrophoresis
Emptying
gastric amino acid emptying
Gastric emptying
Heat treatment
Heat treatments
High temperature
Homogenization
Hydrolysis
Intestine
Milk
Nutrition
Pasteurization
Polyacrylamide
Protein folding
protein hydrolysis
Protein structure
Proteins
Small intestine
Sodium dodecyl sulfate
Sodium lauryl sulfate
Swine
Ultrahigh temperature
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Summary: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. This study aimed to determine the influence of heat treatment and homogenization on the gastric protein digestion and AA emptying of bovine milk. 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. 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). 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.
ISSN:0022-3166
1541-6100
1541-6100
DOI:10.1016/j.tjnut.2024.04.035