Rapid proteolysis of gluten-derived immunogenic peptides in bread by actinidin in a combined in vivo and in vitro oro-gastrointestinal digestion model

This study aimed to determine the ability of actinidin, a cysteine protease in green kiwifruit ( ), to hydrolyse wheat proteins and gluten-derived immunogenic peptides from a commonly consumed food matrix (bread) using a combined an oro-gastrointestinal tract (GIT) model. A chewed and spat composite...

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Bibliographic Details
Published in:Food & function 2022-05, Vol.13 (10), p.5654-5666
Main Authors: Jayawardana, Isuri A, Boland, Mike J, Loo, Trevor S, McNabb, Warren C, Montoya, Carlos A
Format: Article
Language:English
Subjects:
Actinidia deliciosa
Amino groups
Bread
Cysteine proteinase
Digestion
Digestive system
Emptying
Epitopes
Food
Food matrix
Gastric emptying
Gastrointestinal system
Gastrointestinal tract
Gluten
Hydrolysis
Immunogenicity
In vivo methods and tests
Intestine
Kiwifruit
Markers
Mass spectrometry
Mass spectroscopy
Monoclonal antibodies
Peptides
Proteins
Proteolysis
Simulation
Wheat
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Summary:This study aimed to determine the ability of actinidin, a cysteine protease in green kiwifruit ( ), to hydrolyse wheat proteins and gluten-derived immunogenic peptides from a commonly consumed food matrix (bread) using a combined an oro-gastrointestinal tract (GIT) model. A chewed and spat composite bolus of bread was digested with or without purified actinidin using a human gastric simulator (HGS). Gastric digestion was conducted for 150 min with gastric emptying occurring at different time points. Emptied samples were immediately digested under simulated small intestinal conditions. Gastric and small intestinal aliquots were collected to quantify peptide profiles and nine marker immunogenic peptides (by untargeted and targeted mass spectrometry, respectively), R5 epitopes (by monoclonal antibody-based competition assay), and free amino groups released by digestion (by the -phthaldialdehyde method). There was a significant effect ( < 0.05) of actinidin and digestion time on the hydrolysis of wheat proteins and the amount of gluten R5 epitopes of that material emptying the HGS. Actinidin accelerated 1.2-fold the gastric hydrolysis of wheat proteins during the first 20 min of digestion, which was reflected in a faster (5.5 μg min ) reduction in the evolution of R5 epitopes. Actinidin accelerated ( < 0.05) the rate of disappearance of most of the immunogenic marker peptides. For example, in the first 20 min of small intestinal digestion, the 33-mer peptide decreased ( < 0.05) 2-fold faster (0.25 . 0.12 μg g of bread per min) in the presence of actinidin than in the control. Untargeted peptidomics showed actinidin decreased the amounts of known immunogenic peptides in the simulated small intestinal digestion. These findings demonstrated that actinidin accelerates the hydrolysis of wheat proteins and known gluten immunogenic peptides in a commonly consumed food matrix (bread) in a combined an oro-GIT digestion model.
ISSN:2042-6496
2042-650X
DOI:10.1039/d1fo03740d