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

In search of a tolerance-induction strategy for cow’s milk allergies: significant reduction of beta-lactoglobulin allergenicity via transglutaminase/cysteine polymerization. (2012). Clinics, 67(10), 1171-1179. https://doi.org/10.6061/clinics/2012(10)09