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Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology

Leptospira spp. are diderm (two membranes) bacteria that infect mammals causing leptospirosis, a public health problem with global implications. Thousands of people die every year due to leptospirosis, especially in developing countries with tropical climates. Prophylaxis is difficult due to multipl...

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Autores principales: Grassmann, André Alex, Kremer, Frederico Schmitt, dos Santos, Júlia Cougo, Souza, Jéssica Dias, Pinto, Luciano da Silva, McBride, Alan John Alexander
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5406399/
https://www.ncbi.nlm.nih.gov/pubmed/28496441
http://dx.doi.org/10.3389/fimmu.2017.00463
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author Grassmann, André Alex
Kremer, Frederico Schmitt
dos Santos, Júlia Cougo
Souza, Jéssica Dias
Pinto, Luciano da Silva
McBride, Alan John Alexander
author_facet Grassmann, André Alex
Kremer, Frederico Schmitt
dos Santos, Júlia Cougo
Souza, Jéssica Dias
Pinto, Luciano da Silva
McBride, Alan John Alexander
author_sort Grassmann, André Alex
collection PubMed
description Leptospira spp. are diderm (two membranes) bacteria that infect mammals causing leptospirosis, a public health problem with global implications. Thousands of people die every year due to leptospirosis, especially in developing countries with tropical climates. Prophylaxis is difficult due to multiple factors, including the large number of asymptomatic hosts that transmit the bacteria, poor sanitation, increasing numbers of slum dwellers, and the lack of an effective vaccine. Several leptospiral recombinant antigens were evaluated as a replacement for the inactivated (bacterin) vaccine; however, success has been limited. A prospective vaccine candidate is likely to be a surface-related protein that can stimulate the host immune response to clear leptospires from blood and organs. In this study, a comprehensive bioinformatics approach based on reverse and structural vaccinology was applied toward the discovery of novel leptospiral vaccine candidates. The Leptospira interrogans serovar Copenhageni strain L1-130 genome was mined in silico for the enhanced identification of conserved β-barrel (βb) transmembrane proteins and outer membrane (OM) lipoproteins. Orthologs of the prospective vaccine candidates were screened in the genomes of 20 additional Leptospira spp. Three-dimensional structural models, with a high degree of confidence, were created for each of the surface-exposed proteins. Major histocompatibility complex II (MHC-II) epitopes were identified, and their locations were mapped on the structural models. A total of 18 βb transmembrane proteins and 8 OM lipoproteins were identified. These proteins were conserved among the pathogenic Leptospira spp. and were predicted to have epitopes for several variants of MHC-II receptors. A structural and functional analysis of the sequence of these surface proteins demonstrated that most βb transmembrane proteins seem to be TonB-dependent receptors associated with transportation. Other proteins identified included, e.g., TolC efflux pump proteins, a BamA-like OM component of the βb transmembrane protein assembly machinery, and the LptD-like LPS assembly protein. The structural mapping of the immunodominant epitopes identified the location of conserved, surface-exposed, immunogenic regions for each vaccine candidate. The proteins identified in this study are currently being evaluated for experimental evidence for their involvement in virulence, disease pathogenesis, and physiology, in addition to vaccine development.
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spelling pubmed-54063992017-05-11 Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology Grassmann, André Alex Kremer, Frederico Schmitt dos Santos, Júlia Cougo Souza, Jéssica Dias Pinto, Luciano da Silva McBride, Alan John Alexander Front Immunol Immunology Leptospira spp. are diderm (two membranes) bacteria that infect mammals causing leptospirosis, a public health problem with global implications. Thousands of people die every year due to leptospirosis, especially in developing countries with tropical climates. Prophylaxis is difficult due to multiple factors, including the large number of asymptomatic hosts that transmit the bacteria, poor sanitation, increasing numbers of slum dwellers, and the lack of an effective vaccine. Several leptospiral recombinant antigens were evaluated as a replacement for the inactivated (bacterin) vaccine; however, success has been limited. A prospective vaccine candidate is likely to be a surface-related protein that can stimulate the host immune response to clear leptospires from blood and organs. In this study, a comprehensive bioinformatics approach based on reverse and structural vaccinology was applied toward the discovery of novel leptospiral vaccine candidates. The Leptospira interrogans serovar Copenhageni strain L1-130 genome was mined in silico for the enhanced identification of conserved β-barrel (βb) transmembrane proteins and outer membrane (OM) lipoproteins. Orthologs of the prospective vaccine candidates were screened in the genomes of 20 additional Leptospira spp. Three-dimensional structural models, with a high degree of confidence, were created for each of the surface-exposed proteins. Major histocompatibility complex II (MHC-II) epitopes were identified, and their locations were mapped on the structural models. A total of 18 βb transmembrane proteins and 8 OM lipoproteins were identified. These proteins were conserved among the pathogenic Leptospira spp. and were predicted to have epitopes for several variants of MHC-II receptors. A structural and functional analysis of the sequence of these surface proteins demonstrated that most βb transmembrane proteins seem to be TonB-dependent receptors associated with transportation. Other proteins identified included, e.g., TolC efflux pump proteins, a BamA-like OM component of the βb transmembrane protein assembly machinery, and the LptD-like LPS assembly protein. The structural mapping of the immunodominant epitopes identified the location of conserved, surface-exposed, immunogenic regions for each vaccine candidate. The proteins identified in this study are currently being evaluated for experimental evidence for their involvement in virulence, disease pathogenesis, and physiology, in addition to vaccine development. Frontiers Media S.A. 2017-04-27 /pmc/articles/PMC5406399/ /pubmed/28496441 http://dx.doi.org/10.3389/fimmu.2017.00463 Text en Copyright © 2017 Grassmann, Kremer, Santos, Souza, Pinto and McBride. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Immunology
Grassmann, André Alex
Kremer, Frederico Schmitt
dos Santos, Júlia Cougo
Souza, Jéssica Dias
Pinto, Luciano da Silva
McBride, Alan John Alexander
Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title_full Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title_fullStr Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title_full_unstemmed Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title_short Discovery of Novel Leptospirosis Vaccine Candidates Using Reverse and Structural Vaccinology
title_sort discovery of novel leptospirosis vaccine candidates using reverse and structural vaccinology
topic Immunology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5406399/
https://www.ncbi.nlm.nih.gov/pubmed/28496441
http://dx.doi.org/10.3389/fimmu.2017.00463
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