Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses

The vaccinia virus (VACV) A27 protein and its homologs, which are found in a large number of members of the genus Orthopoxvirus (OPXV), are targets of viral neutralization by host antibodies. We have mapped six binding sites (epitopes #1A: aa 32–39, #1B: aa 28–33, #1C: aa 26–31, #1D: 28–34, #4: aa 9...

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Autores principales: Ahsendorf, Henrike P., Gan, Li L., Eltom, Kamal H., Abd El Wahed, Ahmed, Hotop, Sven-Kevin, Roper, Rachel L., Beutling, Ulrike, Broenstrup, Mark, Stahl-Hennig, Christiane, Hoelzle, Ludwig E., Czerny, Claus-Peter
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6631127/
https://www.ncbi.nlm.nih.gov/pubmed/31146446
http://dx.doi.org/10.3390/v11060493
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author Ahsendorf, Henrike P.
Gan, Li L.
Eltom, Kamal H.
Abd El Wahed, Ahmed
Hotop, Sven-Kevin
Roper, Rachel L.
Beutling, Ulrike
Broenstrup, Mark
Stahl-Hennig, Christiane
Hoelzle, Ludwig E.
Czerny, Claus-Peter
author_facet Ahsendorf, Henrike P.
Gan, Li L.
Eltom, Kamal H.
Abd El Wahed, Ahmed
Hotop, Sven-Kevin
Roper, Rachel L.
Beutling, Ulrike
Broenstrup, Mark
Stahl-Hennig, Christiane
Hoelzle, Ludwig E.
Czerny, Claus-Peter
author_sort Ahsendorf, Henrike P.
collection PubMed
description The vaccinia virus (VACV) A27 protein and its homologs, which are found in a large number of members of the genus Orthopoxvirus (OPXV), are targets of viral neutralization by host antibodies. We have mapped six binding sites (epitopes #1A: aa 32–39, #1B: aa 28–33, #1C: aa 26–31, #1D: 28–34, #4: aa 9–14, and #5: aa 68–71) of A27 specific monoclonal antibodies (mAbs) using peptide arrays. MAbs recognizing epitopes #1A–D and #4 neutralized VACV Elstree in a complement dependent way (50% plaque-reduction: 12.5–200 µg/mL). Fusion of VACV at low pH was blocked through inhibition of epitope #1A. To determine the sequence variability of the six antigenic sites, 391 sequences of A27 protein homologs available were compared. Epitopes #4 and #5 were conserved among most of the OPXVs, while the sequential epitope complex #1A–D was more variable and, therefore, responsible for species-specific epitope characteristics. The accurate and reliable mapping of defined epitopes on immuno-protective proteins such as the A27 of VACV enables phylogenetic studies and insights into OPXV evolution as well as to pave the way to the development of safer vaccines and chemical or biological antivirals.
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spelling pubmed-66311272019-08-19 Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses Ahsendorf, Henrike P. Gan, Li L. Eltom, Kamal H. Abd El Wahed, Ahmed Hotop, Sven-Kevin Roper, Rachel L. Beutling, Ulrike Broenstrup, Mark Stahl-Hennig, Christiane Hoelzle, Ludwig E. Czerny, Claus-Peter Viruses Article The vaccinia virus (VACV) A27 protein and its homologs, which are found in a large number of members of the genus Orthopoxvirus (OPXV), are targets of viral neutralization by host antibodies. We have mapped six binding sites (epitopes #1A: aa 32–39, #1B: aa 28–33, #1C: aa 26–31, #1D: 28–34, #4: aa 9–14, and #5: aa 68–71) of A27 specific monoclonal antibodies (mAbs) using peptide arrays. MAbs recognizing epitopes #1A–D and #4 neutralized VACV Elstree in a complement dependent way (50% plaque-reduction: 12.5–200 µg/mL). Fusion of VACV at low pH was blocked through inhibition of epitope #1A. To determine the sequence variability of the six antigenic sites, 391 sequences of A27 protein homologs available were compared. Epitopes #4 and #5 were conserved among most of the OPXVs, while the sequential epitope complex #1A–D was more variable and, therefore, responsible for species-specific epitope characteristics. The accurate and reliable mapping of defined epitopes on immuno-protective proteins such as the A27 of VACV enables phylogenetic studies and insights into OPXV evolution as well as to pave the way to the development of safer vaccines and chemical or biological antivirals. MDPI 2019-05-29 /pmc/articles/PMC6631127/ /pubmed/31146446 http://dx.doi.org/10.3390/v11060493 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ahsendorf, Henrike P.
Gan, Li L.
Eltom, Kamal H.
Abd El Wahed, Ahmed
Hotop, Sven-Kevin
Roper, Rachel L.
Beutling, Ulrike
Broenstrup, Mark
Stahl-Hennig, Christiane
Hoelzle, Ludwig E.
Czerny, Claus-Peter
Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title_full Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title_fullStr Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title_full_unstemmed Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title_short Species-Specific Conservation of Linear Antigenic Sites on Vaccinia Virus A27 Protein Homologs of Orthopoxviruses
title_sort species-specific conservation of linear antigenic sites on vaccinia virus a27 protein homologs of orthopoxviruses
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6631127/
https://www.ncbi.nlm.nih.gov/pubmed/31146446
http://dx.doi.org/10.3390/v11060493
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