Human gastrointestinal conditions affect in vitro digestibility of peanut and bread proteins

As plant proteins are increasingly used as a source of amino acids in the diet, studies on in vitro digestion of plant proteins are key to understand the different factors affecting proteolysis, with the ultimate goal of optimising the nutritional composition/intake of plant protein-rich products. M...

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Bibliographic Details
Published in:Food & function 2020-08, Vol.11 (8), p.6921-6932
Main Authors: Torcello-Gómez, Amelia, Dupont, Didier, Jardin, Julien, Briard-Bion, Valérie, Deglaire, Amélie, Risse, Kerstin, Mechoulan, Elodie, Mackie, Alan
Format: Article
Language:English
Subjects:
Adult
Amino acids
Arachis - chemistry
Bread
Chromatography, Liquid
Digestibility
Digestion
Digestive system
Electrophoresis, Polyacrylamide Gel
Food
Food and Nutrition
Food matrix
Food production
Gastrointestinal tract
Gastrointestinal Tract - metabolism
Gel electrophoresis
Gliadin
Gliadin - metabolism
Globulins
Humans
Hydrogen-Ion Concentration
Infant
Intestine
Life Sciences
Nuts
Peanuts
Plant Proteins - chemistry
Protein composition
Proteins
Proteolysis
Seed Storage Proteins - metabolism
Sodium lauryl sulfate
Spectrophotometry
Tandem Mass Spectrometry
Triticum - chemistry
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Summary:As plant proteins are increasingly used as a source of amino acids in the diet, studies on in vitro digestion of plant proteins are key to understand the different factors affecting proteolysis, with the ultimate goal of optimising the nutritional composition/intake of plant protein-rich products. More realistic scenarios including the most likely food matrix and physiologically relevant gastrointestinal (GI) conditions should be considered when assessing the in vitro digestion of proteins. The research described here compares the extent of hydrolysis of proteins from peanuts and wheat bread, in particular the vicilin-like 7S globulin (Ara h 1) and gliadin, respectively, with three GI scenarios simulating either infant, early phase adult (fed state) or late phase adult (fasted state) conditions. The digestibility of these proteins, in isolation or when naturally present in the respective food matrix, has been evaluated with SDS-PAGE, LC-MS/MS and a spectrophotometric assay. Results from the food matrices showed lower extent of total protein GI digestion under simulated infant conditions, intermediate behaviour under fed state adult conditions and larger extent under fasted state adult conditions. This was also the case for isolated gliadin. However, isolated Ara h 1 only showed lower extent of proteolysis in the gastric phase under infant conditions, reaching a similar extent to both adult conditions over the course of the intestinal phase. The food matrix seems to have delayed the proteolysis. Choosing an appropriate GI scenario as well as the matrix of the end food product is paramount when assessing in vitro protein digestion.
ISSN:2042-6496
2042-650X
DOI:10.1039/d0fo01451f