CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes

Immunity against Theileria parva is associated with CD8 T‐cell responses that exhibit immunodominance, focusing the response against limited numbers of epitopes. As candidates for inclusion in vaccines, characterization of responses against immunodominant epitopes is a key component in novel vaccine...

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Autores principales: Connelley, Timothy K., Li, Xiaoying, MacHugh, Niall, Colau, Didier, Graham, Simon P., van der Bruggen, Pierre, Taracha, Evans L., Gill, Andy, Morrison, William Ivan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2016
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5011678/
https://www.ncbi.nlm.nih.gov/pubmed/27317384
http://dx.doi.org/10.1111/imm.12637
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author Connelley, Timothy K.
Li, Xiaoying
MacHugh, Niall
Colau, Didier
Graham, Simon P.
van der Bruggen, Pierre
Taracha, Evans L.
Gill, Andy
Morrison, William Ivan
author_facet Connelley, Timothy K.
Li, Xiaoying
MacHugh, Niall
Colau, Didier
Graham, Simon P.
van der Bruggen, Pierre
Taracha, Evans L.
Gill, Andy
Morrison, William Ivan
author_sort Connelley, Timothy K.
collection PubMed
description Immunity against Theileria parva is associated with CD8 T‐cell responses that exhibit immunodominance, focusing the response against limited numbers of epitopes. As candidates for inclusion in vaccines, characterization of responses against immunodominant epitopes is a key component in novel vaccine development. We have previously demonstrated that the Tp2(49–59) and Tp1(214–224) epitopes dominate CD8 T‐cell responses in BoLA‐A10 and BoLA‐18 MHC I homozygous animals, respectively. In this study, peptide–MHC I tetramers for these epitopes, and a subdominant BoLA‐A10‐restricted epitope (Tp2(98–106)), were generated to facilitate accurate and rapid enumeration of epitope‐specific CD8 T cells. During validation of these tetramers a substantial proportion of Tp2(49–59)‐reactive T cells failed to bind the tetramer, suggesting that this population was heterogeneous with respect to the recognized epitope. We demonstrate that Tp2(50–59) represents a distinct epitope and that tetramers produced with Tp(50–59) and Tp(49–59) show no cross‐reactivity. The Tp2(49–59) and Tp2(50–59) epitopes use different serine residues as the N‐terminal anchor for binding to the presenting MHC I molecule. Molecular dynamic modelling predicts that the two peptide–MHC I complexes adopt structurally different conformations and Tcell receptor β sequence analysis showed that Tp2(49–59) and Tp2(50–59) are recognized by non‐overlapping T‐cell receptor repertoires. Together these data demonstrate that although differing by only a single residue, Tp2(49–59) and Tp2(50–59) epitopes form distinct ligands for T‐cell receptor recognition. Tetramer analysis of T. parva‐specific CD8 T‐cell lines confirmed the immunodominance of Tp1(214–224) in BoLA‐A18 animals and showed in BoLA‐A10 animals that the Tp2(49–59) epitope response was generally more dominant than the Tp2(50–59) response and confirmed that the Tp2(98–106) response was subdominant.
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spelling pubmed-50116782016-11-09 CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes Connelley, Timothy K. Li, Xiaoying MacHugh, Niall Colau, Didier Graham, Simon P. van der Bruggen, Pierre Taracha, Evans L. Gill, Andy Morrison, William Ivan Immunology Original Articles Immunity against Theileria parva is associated with CD8 T‐cell responses that exhibit immunodominance, focusing the response against limited numbers of epitopes. As candidates for inclusion in vaccines, characterization of responses against immunodominant epitopes is a key component in novel vaccine development. We have previously demonstrated that the Tp2(49–59) and Tp1(214–224) epitopes dominate CD8 T‐cell responses in BoLA‐A10 and BoLA‐18 MHC I homozygous animals, respectively. In this study, peptide–MHC I tetramers for these epitopes, and a subdominant BoLA‐A10‐restricted epitope (Tp2(98–106)), were generated to facilitate accurate and rapid enumeration of epitope‐specific CD8 T cells. During validation of these tetramers a substantial proportion of Tp2(49–59)‐reactive T cells failed to bind the tetramer, suggesting that this population was heterogeneous with respect to the recognized epitope. We demonstrate that Tp2(50–59) represents a distinct epitope and that tetramers produced with Tp(50–59) and Tp(49–59) show no cross‐reactivity. The Tp2(49–59) and Tp2(50–59) epitopes use different serine residues as the N‐terminal anchor for binding to the presenting MHC I molecule. Molecular dynamic modelling predicts that the two peptide–MHC I complexes adopt structurally different conformations and Tcell receptor β sequence analysis showed that Tp2(49–59) and Tp2(50–59) are recognized by non‐overlapping T‐cell receptor repertoires. Together these data demonstrate that although differing by only a single residue, Tp2(49–59) and Tp2(50–59) epitopes form distinct ligands for T‐cell receptor recognition. Tetramer analysis of T. parva‐specific CD8 T‐cell lines confirmed the immunodominance of Tp1(214–224) in BoLA‐A18 animals and showed in BoLA‐A10 animals that the Tp2(49–59) epitope response was generally more dominant than the Tp2(50–59) response and confirmed that the Tp2(98–106) response was subdominant. John Wiley and Sons Inc. 2016-07-25 2016-10 /pmc/articles/PMC5011678/ /pubmed/27317384 http://dx.doi.org/10.1111/imm.12637 Text en © 2016 The Authors. Immunology Published by John Wiley & Sons Ltd. This is an open access article under the terms of the Creative Commons Attribution (http://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Connelley, Timothy K.
Li, Xiaoying
MacHugh, Niall
Colau, Didier
Graham, Simon P.
van der Bruggen, Pierre
Taracha, Evans L.
Gill, Andy
Morrison, William Ivan
CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title_full CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title_fullStr CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title_full_unstemmed CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title_short CD8 T‐cell responses against the immunodominant Theileria parva peptide Tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
title_sort cd8 t‐cell responses against the immunodominant theileria parva peptide tp2(49–59) are composed of two distinct populations specific for overlapping 11‐mer and 10‐mer epitopes
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5011678/
https://www.ncbi.nlm.nih.gov/pubmed/27317384
http://dx.doi.org/10.1111/imm.12637
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