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Current Pharmaceutical Design

Editor-in-Chief

ISSN (Print): 1381-6128
ISSN (Online): 1873-4286

Cytotoxic and Allergenic Potential of Bioactive Proteins and Peptides

Author(s): Rainer Hartmann, Jean-Michel Wal, Herve Bernard and Anne-Kathrin Pentzien

Volume 13, Issue 9, 2007

Page: [897 - 920] Pages: 24

DOI: 10.2174/138161207780414232

Price: $65

Abstract

This review article deals with the assessment of cytotoxic and allergenic potential of bioactive proteins and peptides. It is evident that ‘novel’ foods or nutraceuticals containing bioactive proteins and peptides must fulfill their proposed “health claim”. Furthermore, there is a need to assess their potential to exert adverse effects before they can be made widely available to consumers. A brief overview of compounds (i.e. proteins and peptides of animal and plant origin) and mechanisms involved in cytotoxic and allergenic (adverse) reactions is given along with some recent results obtained from ongoing studies. There are numerous proteins and peptides of plant and animal origin that are known to exhibit cytotoxic effects. There is evidence that many cytotoxic compounds described in the literature exclusively affect malignant cells leading to the assumption that a cancer protective effect could exist for such bioactive proteins and peptides. All the constituents that are responsible for the allergenicity of foods (as well as of pollens) are proteinaceous in nature. Some protein breakdown products, i.e. peptide fragments, may conserve part of the allergenicity of the native protein and thus can also be considered as allergens. The molecular basis of IgE recognition underlying cows milk protein allergy is described. Some results from studies on volunteers fed caseinophosphopeptides or potentially hypotensive milk protein hydrolysates illustrate the major difference between allergenicity and immunogenicity. The data presented on the relationship between the structure of food proteins and peptides and their allergenicity shows the difficulty in trying to assess the “non-allergenicity” of products derived from an allergenic source, even if the process used involved extensive hydrolysis of the native protein(s). A ‘weight of evidence approach’ for assessing the potential allergenicity of a novel protein with no history of prior allergenicity is also presented with regard to the current EU Regulations.

Keywords: Cytotoxicity, allergenicity, antigenicity, bioactive peptides, proteins, apoptosis, sensitization, cancer, milk


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