TY - JOUR
T1 - Degree of hydrolysis is a poor predictor of the sensitizing capacity of whey- and casein-based hydrolysates in a Brown Norway rat model of cow's milk allergy
AU - Bøgh, Katrine Lindholm
AU - Nielsen, Ditte Møller
AU - Mohammad-Beigi, Hossein
AU - Christoffersen, Heidi Frahm
AU - Jacobsen, Lotte Neergaard
AU - Norrild, Rasmus Krogh
AU - Svensson, Birte
AU - Schmidthaler, Klara
AU - Szépfalusi, Zsolt
AU - Upton, Julia
AU - Eiwegger, Thomas
AU - Bertelsen, Hans
AU - Buell, Alexander Kai
AU - Sørensen, Laila Vestergaard
AU - Larsen, Jeppe Madura
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2024/4
Y1 - 2024/4
N2 - The use of infant formulas (IFs) based on hydrolyzed cow's milk proteins to prevent cow's milk allergy (CMA) is highly debated. The risk of sensitization to milk proteins induced by IFs may be affected by the degree of hydrolysis (DH) as well as other physicochemical properties of the cow's milk-based protein hydrolysates within the IFs. The immunogenicity (specific IgG1 induction) and sensitizing capacity (specific IgE induction) of 30 whey- or casein-based hydrolysates with different physicochemical characteristics were compared using an intraperitoneal model of CMA in Brown Norway rats. In general, the whey-based hydrolysates demonstrated higher immunogenicity than casein-based hydrolysates, inducing higher levels of hydrolysate-specific and intact-specific IgG1. The immunogenicity of the hydrolysates was influenced by DH, peptide size distribution profile, peptide aggregation, nano-sized particle formation, and surface hydrophobicity. Yet, only the surface hydrophobicity was found to affect the sensitizing capacity of hydrolysates, as high hydrophobicity was associated with higher levels of specific IgE. The whey- and casein-based hydrolysates exhibited distinct immunological properties with highly diverse molecular composition and physicochemical properties which are not accounted for by measuring DH, which was a poor predictor of sensitizing capacity. Thus, future studies should consider and account for physicochemical characteristics when assessing the sensitizing capacity of cow's milk-based protein hydrolysates.
AB - The use of infant formulas (IFs) based on hydrolyzed cow's milk proteins to prevent cow's milk allergy (CMA) is highly debated. The risk of sensitization to milk proteins induced by IFs may be affected by the degree of hydrolysis (DH) as well as other physicochemical properties of the cow's milk-based protein hydrolysates within the IFs. The immunogenicity (specific IgG1 induction) and sensitizing capacity (specific IgE induction) of 30 whey- or casein-based hydrolysates with different physicochemical characteristics were compared using an intraperitoneal model of CMA in Brown Norway rats. In general, the whey-based hydrolysates demonstrated higher immunogenicity than casein-based hydrolysates, inducing higher levels of hydrolysate-specific and intact-specific IgG1. The immunogenicity of the hydrolysates was influenced by DH, peptide size distribution profile, peptide aggregation, nano-sized particle formation, and surface hydrophobicity. Yet, only the surface hydrophobicity was found to affect the sensitizing capacity of hydrolysates, as high hydrophobicity was associated with higher levels of specific IgE. The whey- and casein-based hydrolysates exhibited distinct immunological properties with highly diverse molecular composition and physicochemical properties which are not accounted for by measuring DH, which was a poor predictor of sensitizing capacity. Thus, future studies should consider and account for physicochemical characteristics when assessing the sensitizing capacity of cow's milk-based protein hydrolysates.
KW - Humans
KW - Animals
KW - Cattle
KW - Female
KW - Infant
KW - Rats
KW - Whey
KW - Caseins
KW - Milk Hypersensitivity/prevention & control
KW - Hydrolysis
KW - Protein Hydrolysates
KW - Whey Proteins
KW - Milk Proteins
KW - Immunoglobulin G
KW - Peptides
KW - Immunoglobulin E
U2 - 10.1016/j.foodres.2024.114063
DO - 10.1016/j.foodres.2024.114063
M3 - Journal article
C2 - 38448113
SN - 0963-9969
VL - 181
SP - 114063
JO - Food Research International
JF - Food Research International
M1 - 114063
ER -