In search of a tolerance-induction strategy for cow's milk allergies: significant reduction of beta-lactoglobulin allergenicity via transglutaminase/cysteine polymerization

Authors

  • Celso Eduardo Olivier Instituto Alergoimuno de Americana
  • Regiane Patussi dos Santos Lima Instituto Alergoimuno de Americana
  • Daiana Guedes Pinto Instituto Alergoimuno de Americana
  • Raquel Acacia Pereira Goncalves dos Santos Instituto Alergoimuno de Americana
  • Grayce Katlen Moreno da Silva Instituto Alergoimuno de Americana
  • Sônia Letícia Silva Lorena University of Campinas; Department of Internal Medicine; Gastroenterology Unit
  • Mariana Battaglin Villas-Boas University of Campinas; Faculty of Food Engineering; Department of Food and Nutrition
  • Flávia Maria Netto University of Campinas; Faculty of Food Engineering; Department of Food and Nutrition
  • Ricardo de Lima Zollner University of Campinas; Faculty of Medical Sciences; Department of Internal Medicine; Laboratory of Immunology and Experimental Allergy

DOI:

https://doi.org/10.6061/clinics/2012(10)09

Keywords:

Beta-lactoglobulin, Milk Hypersensitivity, Leukocyte Adherence Inhibition Test, Polymerization, Immune Tolerancez

Abstract

OBJECTIVE: To explore the use of β-lactoglobulin polymerized using microbial transglutaminase and heating to identify whether protein polymerization could reduce in vivo allergenicity and maintain in vitro and ex vivo immunoreactivity for use in tolerance-induction protocols. METHODS: Based on previous protocols applied in mice and children, we performed in vivo challenges (using a skin prick test) with native and polymerized β-lactoglobulin in adult patients with an IgE-mediated allergy to plactoglobulin. In vitro humoral immunoreactivity was analyzed using immunoblotting. Cell-mediated immunoreactivity was analyzed using ex vivo challenges with native and polymerized β-lactoglobulin and monitored by leukocyte adherence inhibition tests. RESULTS: The skin tests demonstrated that there was a significant reduction in immediate cutaneous reactivity after polymerization. Polymerization did not decrease the immunoblotting detection of s-IgE specific to β-lactoglobulin. Cell-mediated immunoreactivity, as assessed by ex vivo challenges and leukocyte adherence inhibition tests, did not exhibit significant differences between leukocytes challenged with native versus polymerized β-lactoglobulin. CONCLUSIONS: The polymerization of β-lactoglobulin decreased in vivo allergenicity and did not decrease in vitro humoral or ex vivo cell-mediated immunoreactivity. Therefore, we conclude that inducing polymerization using transglutaminase represents a promising technique to produce suitable molecules for the purpose of designing oral/ sublingual tolerance induction protocols for the treatment of allergies.

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Published

2012-10-01

Issue

Vol. 67 No. 10 (2012)

Section

Clinical Sciences

How to Cite

Olivier, C. E., Lima, R. P. dos S., Pinto, D. G., Santos, R. A. P. G. dos, Silva, G. K. M. da, Lorena, S. L. S., Villas-Boas, M. B., Netto, F. M., & Zollner, R. de L. (2012). In search of a tolerance-induction strategy for cow’s milk allergies: significant reduction of beta-lactoglobulin allergenicity via transglutaminase/cysteine polymerization. Clinics, 67(10), 1171-1179. https://doi.org/10.6061/clinics/2012(10)09