1. Proteomic Approach to Evaluate Mechanisms That Contribute to Food Allergenicity: Comparative 2D-DIGE Analysis of Radioallergosorbent Test Positive and Negative Patients
- Author
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Paula Brown, Stanley A. Schwartz, John Wheeler, Supriya D. Mahajan, Jessica L. Reynolds, Ravikumar Aalinkeel, Donald E. Sykes, and Bindukumar Nair
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Zinc finger ,0303 health sciences ,Allergy ,Article Subject ,business.industry ,medicine.medical_treatment ,medicine.disease_cause ,medicine.disease ,Mast cell ,Biochemistry ,Immune tolerance ,03 medical and health sciences ,0302 clinical medicine ,medicine.anatomical_structure ,Cytokine ,Food allergy ,Heat shock protein ,Allergic response ,Immunology ,Medicine ,business ,Molecular Biology ,030304 developmental biology ,030215 immunology ,Research Article - Abstract
Proteomic profiles of RAST+ subjects with severe food allergies and RAST− subjects were compared using 2D-DIGE analysis to obtain candidate biomarkers specific to food allergies. Our analysis highlighted 52 proteins that were differentially expressed between the RAST+ and RAST− groups of which 37 were successfully identified that include chondroitin sulfates, zinc finger proteins, C-type lectins, retinoic acid binding proteins, heat shock proteins, myosin, cytokines, mast cell expressed proteins, and MAP kinases. Biological network analysis tool Metacore revealed that most of these regulated proteins play a role in immune tolerance, hypersensitivity and modulate cytokine patterns inducing a Th2 response that typically results in IgE-mediated allergic response which has a direct or indirect biological link to food allergy. Identifying unique biomarkers associated with certain allergic phenotypes and potentially cross-reactive proteins through bioinformatics analyses will provide enormous insight into the mechanisms that underlie allergic response in patients with food allergies.
- Published
- 2011
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