Discriminating Protective from Nonprotective <i>Plasmodium</i>-Specific CD8+ T Cell Responses

Doll, Katherine L.; Pewe, Lecia; Kurup, Samarchith P.; Harty, John T.

doi:10.4049/jimmunol.1600155

Cited by 36 publications

(54 citation statements)

References 61 publications

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“…These data suggested the intriguing hypothesis that expansion of the circulating T em population induced by IAV infection could increase numbers of lung T rm . To test this hypothesis, we exposed PR8-GP33 immune or naive P14 recipient mice to systemic infection with recombinant L. monocytogenes expressing GP33 (LM-GP33) or an unrelated epitope derived from the P. berghei TRAP protein (LM-TRAP) (32, 33) 45 days after the initial PR8-GP33 infection (Fig. 8a).…”

Section: Resultsmentioning

confidence: 99%

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Dynamics of influenza-induced lung-resident memory T cells underlie waning heterosubtypic immunity

et al. 2017

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Lung resident memory (Trm) CD8 T cells induced by influenza A virus (IAV) are pivotal for providing heterosubtypic immunity, but are not maintained long term, causing gradual loss of protection. This contrasts sharply with long-term maintenance of Trm induced by localized infections of the skin and other tissues. Here we show that the decline in lung Trm is determined by an imbalance between apoptosis and lung recruitment and conversion to Trm of circulating memory cells. At the cellular level, circulating effector memory (Tem) rather than central memory (Tcm) cells are the precursors for conversion to lung Trm. Time-dependent changes in expression of genes critical for lymphocyte trafficking and Trm differentiation, in concert with enrichment of Tcm, diminish the capacity of circulating memory CD8 T cells to form Trm with time, explaining why IAV-induced Trm are not stably maintained. Importantly, systemic booster immunization, through increasing the number of circulating Tem cells, increases lung Trm, providing a potential new avenue for future IAV vaccines.

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Section: Resultsmentioning

confidence: 99%

“…LCMV Armstrong infections were performed by intraperitoneal (IP) injection of 2×10 5 PFU of the virus. Systemic booster/mock booster immunizations were performed by IV injection of 10 7 CFU of recombinant L. monocytogenes expressing GP33 (LM-GP33) or a P. berghei TRAP-derived epitope (LM-TRAP (32). …”

Section: Methodsmentioning

confidence: 99%

Dynamics of influenza-induced lung-resident memory T cells underlie waning heterosubtypic immunity

et al. 2017

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“…In the absence of γδ T cells during vaccination, there was diminished activation of CD8 T cells in the periphery and reduced numbers of PbTRAP 130 specific CD8 T cells in the liver and the spleen that are required for sterile immunity (38). Since we did not specifically stain for markers of tissue resident T cells, we cannot exclude the possibility that some of these responses are due to circulating effector memory T cells.…”

Section: Discussionmentioning

confidence: 99%

γδ T Cells Are Required for the Induction of Sterile Immunity during Irradiated Sporozoite Vaccinations

Zaidi

Diallo²,

Conteh

et al. 2017

The Journal of Immunology

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Whole sporozoite vaccines confer sterilizing immunity to malaria-naïve individuals by unknown mechanisms. In the first-ever PfSPZ Vaccine trial in a malaria endemic population, Vδ2 γδT cells were significantly elevated, and Vγ9/Vδ2 transcripts ranked as most-upregulated, in vaccinees that were protected from P. falciparum infection. In a mouse model, absence of γδ T cells during vaccination impaired protective CD8 T cell responses, and ablated sterile protection. γδ T cells were not required for CSP-specific antibody responses, and γδ T cell depletion before infectious challenge did not ablate protection. γδ T cells alone were insufficient to induce protection and required the presence of CD8α+ dendritic cells. In the absence of γδ T cells, CD8α+ DC did not accumulate in the livers of vaccinated mice. Altogether our results show that γδ T cells were essential for the induction of sterile immunity during whole organism vaccination.

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“…GAP50 40–48 -specific memory CD8 + T cells are not protective during the liver-stage of murine malaria (Doll et al, 2016; Horne-Debets et al, 2016; van der Heyde et al, 1993; Vinetz et al, 1990), and the capacity of CD8 + T cells to protect during blood-stage malaria remains controversial (Horne-Debets et al, 2016; Imai et al, 2010; van der Heyde et al, 1993; Vinetz et al, 1990). Thus, the pathogenic effects of GAP50 40–48 -specific CD8 + T cells in ECM most likely resulted from a large population of precursors, which expanded rapidly after infection to generate substantial numbers of effector cells, leading to sustained immune activation without elimination of the pathogen.…”

Section: Discussionmentioning

confidence: 99%

“…All restimulations were performed in triplicate. IFNγ-producing CD8 + T cells were identified using a standard intracellular cytokine staining protocol (Doll et al, 2016). Data are expressed relative to the percentage of CD8 + T cells producing IFNγ in response to the wt peptide.…”

Section: Methodsmentioning

confidence: 99%

A T Cell Receptor Locus Harbors a Malaria-Specific Immune Response Gene

et al. 2017

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SUMMARY Immune response (Ir) genes, originally proposed by Baruj Benacerraf to explain differential antigen-specific responses in animal models, have become synonymous with the major histocompatibility complex (MHC). We discovered a non-MHC-linked Ir gene in a T cell receptor (TCR) locus that was required for CD8+ T cell responses to the Plasmodium berghei GAP5040–48 epitope in mice expressing the MHC class I allele H-2Db. GAP5040–48-specific CD8+ T cell responses emerged from a very large pool of naive Vβ8.1+ precursors, which dictated susceptibility to cerebral malaria and conferred protection against recombinant Listeria monocytogenes infection. Structural analysis of a prototypical Vβ8.1+ TCR-H-2Db-GAP5040–48 ternary complex revealed that germline-encoded complementarity-determining region 1β residues present exclusively in the Vβ8.1 segment mediated essential interactions with the GAP5040–48 peptide. Collectively, these findings demonstrated that Vβ8.1 functioned as an Ir gene that was indispensable for immune reactivity against the malaria GAP5040–48 epitope.

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Discriminating Protective from Nonprotective Plasmodium-Specific CD8+ T Cell Responses

Cited by 36 publications

References 61 publications

Dynamics of influenza-induced lung-resident memory T cells underlie waning heterosubtypic immunity

Dynamics of influenza-induced lung-resident memory T cells underlie waning heterosubtypic immunity

γδ T Cells Are Required for the Induction of Sterile Immunity during Irradiated Sporozoite Vaccinations

A T Cell Receptor Locus Harbors a Malaria-Specific Immune Response Gene

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