Immunoinformatics features linked to leishmania vaccine development : data integration of experimental and in silico studies.
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2017
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Resumo
Leishmaniasis is a wide-spectrum disease caused by parasites from Leishmania genus.
There is no human vaccine available and it is considered by many studies as apotential effective tool
for disease control. To discover novel antigens, computational programs have been used in reverse
vaccinology strategies. In this work, we developed a validation antigen approach that integrates
prediction of B and T cell epitopes, analysis of Protein-Protein Interaction (PPI) networks and
metabolic pathways. We selected twenty candidate proteins from Leishmania tested in murine model,
with experimental outcome published in the literature. The predictions for CD4+ and CD8+ T cell
epitopes were correlated with protection in experimental outcomes. We also mapped immunogenic
proteins on PPI networks in order to find Kyoto Encyclopedia of Genes and Genomes (KEGG)
pathways associated with them. Our results suggest that non-protective antigens have lowest
frequency of predicted T CD4+ and T CD8+ epitopes, compared with protective ones. T CD4+ and T
CD8+ cells are more related to leishmaniasis protection in experimental outcomes than B cell predicted
epitopes. Considering KEGG analysis, the proteins considered protective are connected to nodes
with few pathways, including those associated with ribosome biosynthesis and purine metabolism.
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Epitope prediction, Pathways, Reverse vaccinology, Leishmaniasis
Citação
BRITO, R. C. F. et al. Immunoinformatics features linked to leishmania vaccine development: data integration of experimental and in silico studies. International Journal of Molecular Sciences, v. 18, p. 371, 2017. Disponível em: <http://www.mdpi.com/1422-0067/18/2/371>. Acesso em: 29 ago. 2017.