Protease Resistance of Food Proteins: a Mixed Picture for Predicting Allergenicity but a Useful Tool for Assessing Exposure

Overview

Journal Clin Transl Allergy

Publisher Wiley

Specialty Allergy & Immunology

Date 2018 Aug 18

PMID 30116520

Citations 19

Authors

Jaap Akkerdaas

Muriel Totis

Brian Barnett

Erin Bell

Tom Davis

Thomas Edrington

Kevin Glenn

Gerson Graser

Rod Herman

Andre Knulst

Gregory Ladics

Scott McClain

Lars K Poulsen

Rakesh Ranjan

Jean-Baptiste Rascle

Hector Serrano

Dave Speijer

Rong Wang

Lucilia Pereira Mouries

Annabelle Capt

Ronald van Ree

Affiliations

Soon will be listed here.

Abstract

Background: Susceptibility to pepsin digestion of candidate transgene products is regarded an important parameter in the weight-of-evidence approach for allergenicity risk assessment of genetically modified crops. It has been argued that protocols used for this assessment should better reflect physiological conditions encountered in representative food consumption scenarios.

Aim: To evaluate whether inclusion of more physiological conditions, such as sub-optimal and lower pepsin concentrations, in combination with pancreatin digestion, improved the performance of digestibility protocols used in characterization of protein stability.

Methods: Four pairs of established allergens and their related non/weakly-allergenic counterparts (seed albumins, muscle tropomyosins, plant lipid transfer proteins [LTP] and collagens) plus fish parvalbumin, were subjected to nine combinations of pH (1.2-2.5-4.0) and pepsin-to-protein ratio (PPR: 10-1-0.1 U/µg) for pepsin digestion, followed by pancreatin digestion in the presence of bile salts. Digestion was monitored by SDS-PAGE in conjunction with Coomassie staining and immunoblotting using rabbit antisera and human IgE.

Results: At pH 4.0 and at PPR 0.1 most proteins, both allergen and non-allergen, were highly resistant to pepsin. Under conditions known to favor pepsin proteolysis, the established major allergens Ara h 2, Pru p 3 and Pen a 1 were highly resistant to proteolysis, while the allergen Cyp c 1 was not. However, this resistance to pepsin digestion only made Ara h 2 and to a lesser extent Pen a 1 and Pru p 3 stand out compared to their non-allergenic counterparts. Largely irrespective of preceding pepsin digestion conditions, pancreatin digestion was very effective for all tested proteins, allergens and non-allergens, except for Cyp c 1 and bovine collagen.

Conclusions: Sub-optimal pH, low pepsin-to protein ratio, and sequential pepsin and pancreatin digestion protocols do not improve the predictive value in distinguish allergens from non-allergens. Digestion conditions facilitating such distinction differ per protein pair.

Citing Articles

Spatiotemporal proteolytic susceptibility of allergens: positive or negative effects on the allergic sensitization?.

Jacquet A, Soh W Front Allergy. 2024; 5:1426816.

PMID: 39044859 PMC: 11263110. DOI: 10.3389/falgy.2024.1426816.

Identification and Characterization of a Pepsin- and Chymotrypsin-Resistant Peptide in the α Subunit of the 11S Globulin Legumin from Common Bean ( L.).

Santamaria L, Pajak A, House J, Marsolais F J Agric Food Chem. 2024; 72(26):14844-14850.

PMID: 38885440 PMC: 11228969. DOI: 10.1021/acs.jafc.3c08744.

Fish Processing and Digestion Affect Parvalbumins Detectability in Gilthead Seabream and European Seabass.

Schrama D, de Magalhaes C, Cerqueira M, Carrilho R, Revets D, Kuehn A Animals (Basel). 2022; 12(21).

PMID: 36359146 PMC: 9654892. DOI: 10.3390/ani12213022.

Differences in Linear Epitopes of Ara h 9 Recognition in Peanut Allergic and Tolerant, Peach Allergic Patients.

Sanchez-Ruano L, Fernandez-Lozano C, Ferrer M, Gomez F, de la Hoz B, Martinez-Botas J Front Allergy. 2022; 3:896617.

PMID: 35935018 PMC: 9352880. DOI: 10.3389/falgy.2022.896617.

Impact of Food Matrices on Digestibility of Allergens and Poorly Allergenic Homologs.

Akkerdaas J, Cianferoni A, Islamovic E, Kough J, Ladics G, McClain S Front Allergy. 2022; 3:909410.

PMID: 35769559 PMC: 9234860. DOI: 10.3389/falgy.2022.909410.

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