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Doctoral Thesis
DOI
https://doi.org/10.11606/T.9.2019.tde-14102022-152906
Document
Author
Full name
Gabriela Justamante Händel Schmitz
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2019
Supervisor
Committee
Nascimento, João Roberto Oliveira do (President)
Castro, Fabio Fernandes Morato
Fonseca, Fernando Luiz Affonso
Nakaya, Helder Takashi Imoto
Title in Portuguese
Clonagem, expressão recombinante e validação por microarray de proteínas alimentares potencialmente alergênicas
Keywords in Portuguese
Alergia alimentar
Expressão recombinante
Microarray
Proteínas alergênicas
Abstract in Portuguese
A maioria das respostas alérgicas a alimentos é mediada por IgE, que pode ser detectada para fins de diagnóstico da alergia alimentar. No entanto, para isso é necessário que alérgenos purificados estejam disponíveis para a elaboração dos diferentes formatos de ensaio, inclusive por microarray, que se constitui em uma ferramenta bastante útil para análise simultânea, e também para a identificação de reatividade cruzada. A esse respeito, é imprescindível ampliar a plataforma de alérgenos que possam ser empregados para a confecção de microarrays. Atualmente, alguns alimentos que constituem objeto de interesse na clínica em função do número de casos de alergia, e sobre os quais as informações a respeito dos alérgenos são escassas, são: abacaxi, mamão, mandioca e manga. Assim, o objetivo desse trabalho foi clonar, expressar e purificar proteínas potencialmente alergênicas de alimentos de importância regional. Após confirmadas por ensaios imunológicos, essas proteínas foram utilizadas na construção e validação de um microarray através de ensaios com os soros de pacientes alérgicos aos alimentos selecionados. Para atingir esse objetivo, foram selecionadas proteínas potencialmente alergênicas coincidentes, apontadas tanto pela similaridade com espécies taxonomicamente mais próximas, quanto pela técnica 2D Western Blotting acoplada à espectrometria de massas. Dezenove proteínas, sendo 4 de abacaxi, 5 de mamão, 6 de mandioca e 4 de manga, foram expressas em Pichia pastoris, purificadas e impressas em um microarray. Após incubar essas proteínas com os soros dos pacientes alérgicos aos alimentos estudados, 18 proteínas mostraram-se potencialmente alergênicas. Além disso, foi observada reatividade cruzada entre proteínas dos alimentos estudados e também em relação ao látex e outros frutos.
Title in English
Cloning, recombinant expression and validation by microarray of potentially allergenic food proteins
Keywords in English
Allergenic proteins
Food allergy
Microarray
Recombinant expression
Abstract in English
The majority of allergic reactions to foods is IgE-mediated, which can be detected for the diagnosis of food allergy. However, purified allergens are necessary to produce different kinds of allergy tests, including microarray, which is a useful tool for simultaneous analysis, as well as for the identification of cross-reactivity. In this respect, it is essential to expand the platform of allergens to include them on microarrays. Nowadays, some foods that are object of interest in the clinical area in Brazil and it is necessary a further evaluation about their potential allergens, since there is a limited information about them, are: pineapple, papaya, cassava and mango. Therefore, the aim of this study was cloning, expressing and purifying potentially allergenic proteins of important Brazilian foods. After confirmed by immunological tests, these proteins were used in microarray production and validation by assays with sera from allergic patients to the selected foods. Achieving this goal, matching potentially allergenic proteins were selected, which were identified by comparison among taxonomically closer species (in silico) and 2D Western Blotting coupled with Mass Spectrometry. Nineteen proteins: 4 from pineapple, 5 from papaya, 6 from cassava and 4 from mango were expressed in Pichia pastoris, purified and printed on a microarray. After incubating those proteins with sera from allergic patients to the selected foods, 18 proteins were detected as potentially allergenic. In addition, cross-reactivity was observed among the proteins from the studied foods, and also regarding to the latex and other fruits.
 
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Publishing Date
2022-11-25
 
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