Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria

Protection from liver-stage malaria requires high numbers of CD8+ T cells to find and kill Plasmodium-infected cells. A new malaria vaccine strategy, prime-target vaccination, involves sequential viral-vectored vaccination by intramuscular and intravenous routes to target cellular immunity to the li...

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Autores principales: Noé, Andrés, Datoo, Mehreen S., Flaxman, Amy, Husainy, Mohammad Ali, Jenkin, Daniel, Bellamy, Duncan, Makinson, Rebecca A., Morter, Richard, Ramos Lopez, Fernando, Sheridan, Jonathan, Voukantsis, Dimitrios, Prasad, Naveen, Hill, Adrian V. S., Ewer, Katie J., Spencer, Alexandra J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Immunology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8859435/
https://www.ncbi.nlm.nih.gov/pubmed/35197971
http://dx.doi.org/10.3389/fimmu.2022.795463
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author Noé, Andrés
Datoo, Mehreen S.
Flaxman, Amy
Husainy, Mohammad Ali
Jenkin, Daniel
Bellamy, Duncan
Makinson, Rebecca A.
Morter, Richard
Ramos Lopez, Fernando
Sheridan, Jonathan
Voukantsis, Dimitrios
Prasad, Naveen
Hill, Adrian V. S.
Ewer, Katie J.
Spencer, Alexandra J.
author_facet Noé, Andrés
Datoo, Mehreen S.
Flaxman, Amy
Husainy, Mohammad Ali
Jenkin, Daniel
Bellamy, Duncan
Makinson, Rebecca A.
Morter, Richard
Ramos Lopez, Fernando
Sheridan, Jonathan
Voukantsis, Dimitrios
Prasad, Naveen
Hill, Adrian V. S.
Ewer, Katie J.
Spencer, Alexandra J.
author_sort Noé, Andrés
collection PubMed
description Protection from liver-stage malaria requires high numbers of CD8+ T cells to find and kill Plasmodium-infected cells. A new malaria vaccine strategy, prime-target vaccination, involves sequential viral-vectored vaccination by intramuscular and intravenous routes to target cellular immunity to the liver. Liver tissue-resident memory (TRM) CD8+ T cells have been shown to be necessary and sufficient for protection against rodent malaria by this vaccine regimen. Ultimately, to most faithfully assess immunotherapeutic responses by these local, specialised, hepatic T cells, periodic liver sampling is necessary, however this is not feasible at large scales in human trials. Here, as part of a phase I/II P. falciparum challenge study of prime-target vaccination, we performed deep immune phenotyping, single-cell RNA-sequencing and kinetics of hepatic fine needle aspirates and peripheral blood samples to study liver CD8+ TRM cells and circulating counterparts. We found that while these peripheral ‘TRM-like’ cells differed to TRM cells in terms of previously described characteristics, they are similar phenotypically and indistinguishable in terms of key T cell residency transcriptional signatures. By exploring the heterogeneity among liver CD8+ TRM cells at single cell resolution we found two main subpopulations that each share expression profiles with blood T cells. Lastly, our work points towards the potential for using TRM−like cells as a correlate of protection by liver-stage malaria vaccines and, in particular, those adopting a prime-target approach. A simple and reproducible correlate of protection would be particularly valuable in trials of liver-stage malaria vaccines as they progress to phase III, large-scale testing in African infants. We provide a blueprint for understanding and monitoring liver TRM cells induced by a prime-target malaria vaccine approach.
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spelling pubmed-88594352022-02-22 Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria Noé, Andrés Datoo, Mehreen S. Flaxman, Amy Husainy, Mohammad Ali Jenkin, Daniel Bellamy, Duncan Makinson, Rebecca A. Morter, Richard Ramos Lopez, Fernando Sheridan, Jonathan Voukantsis, Dimitrios Prasad, Naveen Hill, Adrian V. S. Ewer, Katie J. Spencer, Alexandra J. Front Immunol Immunology Protection from liver-stage malaria requires high numbers of CD8+ T cells to find and kill Plasmodium-infected cells. A new malaria vaccine strategy, prime-target vaccination, involves sequential viral-vectored vaccination by intramuscular and intravenous routes to target cellular immunity to the liver. Liver tissue-resident memory (TRM) CD8+ T cells have been shown to be necessary and sufficient for protection against rodent malaria by this vaccine regimen. Ultimately, to most faithfully assess immunotherapeutic responses by these local, specialised, hepatic T cells, periodic liver sampling is necessary, however this is not feasible at large scales in human trials. Here, as part of a phase I/II P. falciparum challenge study of prime-target vaccination, we performed deep immune phenotyping, single-cell RNA-sequencing and kinetics of hepatic fine needle aspirates and peripheral blood samples to study liver CD8+ TRM cells and circulating counterparts. We found that while these peripheral ‘TRM-like’ cells differed to TRM cells in terms of previously described characteristics, they are similar phenotypically and indistinguishable in terms of key T cell residency transcriptional signatures. By exploring the heterogeneity among liver CD8+ TRM cells at single cell resolution we found two main subpopulations that each share expression profiles with blood T cells. Lastly, our work points towards the potential for using TRM−like cells as a correlate of protection by liver-stage malaria vaccines and, in particular, those adopting a prime-target approach. A simple and reproducible correlate of protection would be particularly valuable in trials of liver-stage malaria vaccines as they progress to phase III, large-scale testing in African infants. We provide a blueprint for understanding and monitoring liver TRM cells induced by a prime-target malaria vaccine approach. Frontiers Media S.A. 2022-02-07 /pmc/articles/PMC8859435/ /pubmed/35197971 http://dx.doi.org/10.3389/fimmu.2022.795463 Text en Copyright © 2022 Noé, Datoo, Flaxman, Husainy, Jenkin, Bellamy, Makinson, Morter, Ramos Lopez, Sheridan, Voukantsis, Prasad, Hill, Ewer and Spencer https://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) and the copyright owner(s) 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
Noé, Andrés
Datoo, Mehreen S.
Flaxman, Amy
Husainy, Mohammad Ali
Jenkin, Daniel
Bellamy, Duncan
Makinson, Rebecca A.
Morter, Richard
Ramos Lopez, Fernando
Sheridan, Jonathan
Voukantsis, Dimitrios
Prasad, Naveen
Hill, Adrian V. S.
Ewer, Katie J.
Spencer, Alexandra J.
Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title_full Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title_fullStr Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title_full_unstemmed Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title_short Deep Immune Phenotyping and Single-Cell Transcriptomics Allow Identification of Circulating TRM-Like Cells Which Correlate With Liver-Stage Immunity and Vaccine-Induced Protection From Malaria
title_sort deep immune phenotyping and single-cell transcriptomics allow identification of circulating trm-like cells which correlate with liver-stage immunity and vaccine-induced protection from malaria
topic Immunology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8859435/
https://www.ncbi.nlm.nih.gov/pubmed/35197971
http://dx.doi.org/10.3389/fimmu.2022.795463
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