Development of Plasmodium‐specific liver‐resident memory CD8+ T cells after heat‐killed sporozoite immunization in mice

Development of Plasmodium‐specific liver‐resident memory CD8+ T cells after heat‐killed sporozoite immunization in mice

Malaria remains a major cause of mortality in the world and an efficient vaccine is the best chance of reducing the disease burden. Vaccination strategies for the liver stage of disease that utilise injection of live radiation‐attenuated sporozoites (RAS) confer sterile immunity, which is mediated b...

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Veröffentlicht in:European journal of immunology 2021-05, Vol.51 (5), p.1153-1165
Hauptverfasser: Ghilas, Sonia, Enders, Matthias H., May, Rose, Holz, Lauren E., Fernandez‐Ruiz, Daniel, Cozijnsen, Anton, Mollard, Vanessa, Cockburn, Ian A., McFadden, Geoffrey I., Heath, William R., Beattie, Lynette
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Sprache:eng
Schlagworte:
CD8 antigen
CD8+ T cells
Galactosylceramide
Heat treatments
Hepatocytes
Immunological memory
Injection
Liver
Liver diseases
Lymphocytes
Lymphocytes T
Malaria
Memory cells
Plasmodium
Spleen
Sporozoites
T cell receptors
Transgenic mice
Vaccination
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container_issue 5
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container_title European journal of immunology
container_volume 51
creator Ghilas, Sonia
Enders, Matthias H.
May, Rose
Holz, Lauren E.
Fernandez‐Ruiz, Daniel
Cozijnsen, Anton
Mollard, Vanessa
Cockburn, Ian A.
McFadden, Geoffrey I.
Heath, William R.
Beattie, Lynette
description Malaria remains a major cause of mortality in the world and an efficient vaccine is the best chance of reducing the disease burden. Vaccination strategies for the liver stage of disease that utilise injection of live radiation‐attenuated sporozoites (RAS) confer sterile immunity, which is mediated by CD8+ memory T cells, with liver‐resident memory T cells (TRM) being particularly important. We have previously described a TCR transgenic mouse, termed PbT‐I, where all CD8+ T cells recognize a specific peptide from Plasmodium. PbT‐I form liver TRM cells upon RAS injection and are capable of protecting mice against challenge infection. Here, we utilize this transgenic system to examine whether nonliving sporozoites, killed by heat treatment (HKS), could trigger the development of Plasmodium‐specific liver TRM cells. We found that HKS vaccination induced the formation of memory CD8+ T cells in the spleen and liver, and importantly, liver TRM cells were fewer in number than that induced by RAS. Crucially, we showed the number of TRM cells was significantly higher when HKS were combined with the glycolipid α‐galactosylceramide as an adjuvant. In the future, this work could lead to development of an antimalaria vaccination strategy that does not require live sporozoites, providing greater utility. Vaccination with radiation‐attenuated Plasmodium sporozoites is known to induce liver‐resident memory CD8+ T cells (TRM) that confer sterile protection. We show that immunization with heat‐killed Plasmodium sporozoites also trigger liver TRM formation, but their numbers are suboptimal for sterile protection, even when enhanced by the adjuvant α‐galactosylceramide.
doi_str_mv 10.1002/eji.202048757
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Vaccination strategies for the liver stage of disease that utilise injection of live radiation‐attenuated sporozoites (RAS) confer sterile immunity, which is mediated by CD8+ memory T cells, with liver‐resident memory T cells (TRM) being particularly important. We have previously described a TCR transgenic mouse, termed PbT‐I, where all CD8+ T cells recognize a specific peptide from Plasmodium. PbT‐I form liver TRM cells upon RAS injection and are capable of protecting mice against challenge infection. Here, we utilize this transgenic system to examine whether nonliving sporozoites, killed by heat treatment (HKS), could trigger the development of Plasmodium‐specific liver TRM cells. We found that HKS vaccination induced the formation of memory CD8+ T cells in the spleen and liver, and importantly, liver TRM cells were fewer in number than that induced by RAS. Crucially, we showed the number of TRM cells was significantly higher when HKS were combined with the glycolipid α‐galactosylceramide as an adjuvant. In the future, this work could lead to development of an antimalaria vaccination strategy that does not require live sporozoites, providing greater utility. Vaccination with radiation‐attenuated Plasmodium sporozoites is known to induce liver‐resident memory CD8+ T cells (TRM) that confer sterile protection. 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Crucially, we showed the number of TRM cells was significantly higher when HKS were combined with the glycolipid α‐galactosylceramide as an adjuvant. In the future, this work could lead to development of an antimalaria vaccination strategy that does not require live sporozoites, providing greater utility. Vaccination with radiation‐attenuated Plasmodium sporozoites is known to induce liver‐resident memory CD8+ T cells (TRM) that confer sterile protection. 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Crucially, we showed the number of TRM cells was significantly higher when HKS were combined with the glycolipid α‐galactosylceramide as an adjuvant. In the future, this work could lead to development of an antimalaria vaccination strategy that does not require live sporozoites, providing greater utility. Vaccination with radiation‐attenuated Plasmodium sporozoites is known to induce liver‐resident memory CD8+ T cells (TRM) that confer sterile protection. 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source Wiley Online Library - AutoHoldings Journals; Wiley Online Library Free Content; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects CD8 antigen
CD8+ T cells
Galactosylceramide
Heat treatments
Hepatocytes
Immunological memory
Injection
Liver
Liver diseases
Lymphocytes
Lymphocytes T
Malaria
Memory cells
Plasmodium
Spleen
Sporozoites
T cell receptors
Transgenic mice
Vaccination
title Development of Plasmodium‐specific liver‐resident memory CD8+ T cells after heat‐killed sporozoite immunization in mice
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