Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection

BACKGROUND: Respiratory syncytial virus (RSV) is an important cause of acute pulmonary disease and one of the last remaining major infections of childhood for which there is no vaccine. CD4(+) T cells play a key role in antiviral immunity, but they have been little studied in the human lung. METHODS...

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Autores principales: Guvenel, Aleks, Jozwik, Agnieszka, Ascough, Stephanie, Ung, Seng Kuong, Paterson, Suzanna, Kalyan, Mohini, Gardener, Zoe, Bergstrom, Emma, Kar, Satwik, Habibi, Maximillian S., Paras, Allan, Zhu, Jie, Park, Mirae, Dhariwal, Jaideep, Almond, Mark, Wong, Ernie H.C., Sykes, Annemarie, Del Rosario, Jerico, Trujillo-Torralbo, Maria-Belen, Mallia, Patrick, Sidney, John, Peters, Bjoern, Kon, Onn Min, Sette, Alessandro, Johnston, Sebastian L., Openshaw, Peter J., Chiu, Christopher
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2019
Materias:
Clinical Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6934186/
https://www.ncbi.nlm.nih.gov/pubmed/31815739
http://dx.doi.org/10.1172/JCI131696
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author Guvenel, Aleks
Jozwik, Agnieszka
Ascough, Stephanie
Ung, Seng Kuong
Paterson, Suzanna
Kalyan, Mohini
Gardener, Zoe
Bergstrom, Emma
Kar, Satwik
Habibi, Maximillian S.
Paras, Allan
Zhu, Jie
Park, Mirae
Dhariwal, Jaideep
Almond, Mark
Wong, Ernie H.C.
Sykes, Annemarie
Del Rosario, Jerico
Trujillo-Torralbo, Maria-Belen
Mallia, Patrick
Sidney, John
Peters, Bjoern
Kon, Onn Min
Sette, Alessandro
Johnston, Sebastian L.
Openshaw, Peter J.
Chiu, Christopher
author_facet Guvenel, Aleks
Jozwik, Agnieszka
Ascough, Stephanie
Ung, Seng Kuong
Paterson, Suzanna
Kalyan, Mohini
Gardener, Zoe
Bergstrom, Emma
Kar, Satwik
Habibi, Maximillian S.
Paras, Allan
Zhu, Jie
Park, Mirae
Dhariwal, Jaideep
Almond, Mark
Wong, Ernie H.C.
Sykes, Annemarie
Del Rosario, Jerico
Trujillo-Torralbo, Maria-Belen
Mallia, Patrick
Sidney, John
Peters, Bjoern
Kon, Onn Min
Sette, Alessandro
Johnston, Sebastian L.
Openshaw, Peter J.
Chiu, Christopher
author_sort Guvenel, Aleks
collection PubMed
description BACKGROUND: Respiratory syncytial virus (RSV) is an important cause of acute pulmonary disease and one of the last remaining major infections of childhood for which there is no vaccine. CD4(+) T cells play a key role in antiviral immunity, but they have been little studied in the human lung. METHODS: Healthy adult volunteers were inoculated i.n. with RSV A Memphis 37. CD4(+) T cells in blood and the lower airway were analyzed by flow cytometry and immunohistochemistry. Bronchial soluble mediators were measured using quantitative PCR and MesoScale Discovery. Epitope mapping was performed by IFN-γ ELISpot screening, confirmed by in vitro MHC binding. RESULTS: Activated CD4(+) T cell frequencies in bronchoalveolar lavage correlated strongly with local C-X-C motif chemokine 10 levels. Thirty-nine epitopes were identified, predominantly toward the 3′ end of the viral genome. Five novel MHC II tetramers were made using an immunodominant EFYQSTCSAVSKGYL (F-EFY) epitope restricted to HLA-DR4, -DR9, and -DR11 (combined allelic frequency: 15% in Europeans) and G-DDF restricted to HLA-DPA1*01:03/DPB1*02:01 and -DPA1*01:03/DPB1*04:01 (allelic frequency: 55%). Tetramer labeling revealed enrichment of resident memory CD4(+) T (Trm) cells in the lower airway; these Trm cells displayed progressive differentiation, downregulation of costimulatory molecules, and elevated CXCR3 expression as infection evolved. CONCLUSIONS: Human infection challenge provides a unique opportunity to study the breadth of specificity and dynamics of RSV-specific T-cell responses in the target organ, allowing the precise investigation of Trm recognizing novel viral antigens over time. The new tools that we describe enable precise tracking of RSV-specific CD4(+) cells, potentially accelerating the development of effective vaccines. TRIAL REGISTRATION: ClinicalTrials.gov NCT02755948. FUNDING: Medical Research Council, Wellcome Trust, National Institute for Health Research.
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spelling pubmed-69341862020-01-03 Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection Guvenel, Aleks Jozwik, Agnieszka Ascough, Stephanie Ung, Seng Kuong Paterson, Suzanna Kalyan, Mohini Gardener, Zoe Bergstrom, Emma Kar, Satwik Habibi, Maximillian S. Paras, Allan Zhu, Jie Park, Mirae Dhariwal, Jaideep Almond, Mark Wong, Ernie H.C. Sykes, Annemarie Del Rosario, Jerico Trujillo-Torralbo, Maria-Belen Mallia, Patrick Sidney, John Peters, Bjoern Kon, Onn Min Sette, Alessandro Johnston, Sebastian L. Openshaw, Peter J. Chiu, Christopher J Clin Invest Clinical Medicine BACKGROUND: Respiratory syncytial virus (RSV) is an important cause of acute pulmonary disease and one of the last remaining major infections of childhood for which there is no vaccine. CD4(+) T cells play a key role in antiviral immunity, but they have been little studied in the human lung. METHODS: Healthy adult volunteers were inoculated i.n. with RSV A Memphis 37. CD4(+) T cells in blood and the lower airway were analyzed by flow cytometry and immunohistochemistry. Bronchial soluble mediators were measured using quantitative PCR and MesoScale Discovery. Epitope mapping was performed by IFN-γ ELISpot screening, confirmed by in vitro MHC binding. RESULTS: Activated CD4(+) T cell frequencies in bronchoalveolar lavage correlated strongly with local C-X-C motif chemokine 10 levels. Thirty-nine epitopes were identified, predominantly toward the 3′ end of the viral genome. Five novel MHC II tetramers were made using an immunodominant EFYQSTCSAVSKGYL (F-EFY) epitope restricted to HLA-DR4, -DR9, and -DR11 (combined allelic frequency: 15% in Europeans) and G-DDF restricted to HLA-DPA1*01:03/DPB1*02:01 and -DPA1*01:03/DPB1*04:01 (allelic frequency: 55%). Tetramer labeling revealed enrichment of resident memory CD4(+) T (Trm) cells in the lower airway; these Trm cells displayed progressive differentiation, downregulation of costimulatory molecules, and elevated CXCR3 expression as infection evolved. CONCLUSIONS: Human infection challenge provides a unique opportunity to study the breadth of specificity and dynamics of RSV-specific T-cell responses in the target organ, allowing the precise investigation of Trm recognizing novel viral antigens over time. The new tools that we describe enable precise tracking of RSV-specific CD4(+) cells, potentially accelerating the development of effective vaccines. TRIAL REGISTRATION: ClinicalTrials.gov NCT02755948. FUNDING: Medical Research Council, Wellcome Trust, National Institute for Health Research. American Society for Clinical Investigation 2019-12-09 2020-01-02 /pmc/articles/PMC6934186/ /pubmed/31815739 http://dx.doi.org/10.1172/JCI131696 Text en © 2020 Guvenel et al. http://creativecommons.org/licenses/by/4.0/ This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Clinical Medicine
Guvenel, Aleks
Jozwik, Agnieszka
Ascough, Stephanie
Ung, Seng Kuong
Paterson, Suzanna
Kalyan, Mohini
Gardener, Zoe
Bergstrom, Emma
Kar, Satwik
Habibi, Maximillian S.
Paras, Allan
Zhu, Jie
Park, Mirae
Dhariwal, Jaideep
Almond, Mark
Wong, Ernie H.C.
Sykes, Annemarie
Del Rosario, Jerico
Trujillo-Torralbo, Maria-Belen
Mallia, Patrick
Sidney, John
Peters, Bjoern
Kon, Onn Min
Sette, Alessandro
Johnston, Sebastian L.
Openshaw, Peter J.
Chiu, Christopher
Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title_full Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title_fullStr Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title_full_unstemmed Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title_short Epitope-specific airway-resident CD4(+) T cell dynamics during experimental human RSV infection
title_sort epitope-specific airway-resident cd4(+) t cell dynamics during experimental human rsv infection
topic Clinical Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6934186/
https://www.ncbi.nlm.nih.gov/pubmed/31815739
http://dx.doi.org/10.1172/JCI131696
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