Litcius/Paper detail

Allergenic protein-induced type I hypersensitivity models: a review

Yanhua Feng, Lei Xu, Jinming Zhang, Jinlian Bin, Xinlu Pang, Sheng He, Lei Fang

2024Frontiers in Allergy8 citationsDOIOpen Access PDF

Abstract

Context: Type I hypersensitivity affects approximately one-third of the global population. As the pathophysiology underlying the development of type I hypersensitivity (asthma, food allergy, and anaphylactic shock, etc.) is complex and heterogeneous, animal model studies continue to be the key to identifying novel molecular pathways and providing therapeutic strategies. Objective: Selection of the animal model should be done with careful consideration of the protocol variables, animal species, and strains to accurately reflect the clinical symptoms typical of humans. Methods: The following databases were searched: PubMed and Web of Science. Results and conclusion: Foreign allergens include allergenic proteins and chemical haptens. This review summarizes the various methods used for designing animal models of common allergenic protein-induced type I hypersensitivity, namely, passive anaphylaxis model, active systemic anaphylaxis/anaphylaxis shock model, food allergy model, asthma model, and IgE-mediated cell models. Additionally, we summarize shrimp tropomyosin-induced type I hypersensitivity models from our previous studies and discuss their advantages and limitations compared with that of ovalbumin-induced models.

Topics & Concepts

AnaphylaxisContext (archaeology)MedicineOvalbuminImmunologyAllergyAsthmaPopulationFood allergyBiologyImmune systemEnvironmental healthPaleontologyFood Allergy and Anaphylaxis ResearchAsthma and respiratory diseasesMast cells and histamine