Regulation of human and mouse bystander T cell activation responses by PD-1
Catherine T. Le, Logan V. Vick, Craig Collins, Cordelia Dunai, Michael K. Sheng, Lam T. Khuat, Isabel Barao, Sean J. Judge, Ethan G. Aguilar, Brendan Curti, Maneesh Dave, Dan L. Longo, Bruce R. Blazar, Robert J. Canter, Arta M. Monjazeb, William J. Murphy
Catherine T. Le, Logan V. Vick, Craig Collins, Cordelia Dunai, Michael K. Sheng, Lam T. Khuat, Isabel Barao, Sean J. Judge, Ethan G. Aguilar, Brendan Curti, Maneesh Dave, Dan L. Longo, Bruce R. Blazar, Robert J. Canter, Arta M. Monjazeb, William J. Murphy
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Research Article Immunology

Regulation of human and mouse bystander T cell activation responses by PD-1

Abstract

Bystander activation of memory T cells occurs via cytokine signaling alone in the absence of T cell receptor (TCR) signaling and provides a means of amplifying T cell effector responses in an antigen-nonspecific manner. While the role of Programmed Cell Death Protein 1 (PD-1) on antigen-specific T cell responses is extensively characterized, its role in bystander T cell responses is less clear. We examined the role of the PD-1 pathway during human and mouse non–antigen-specific memory T cell bystander activation and observed that PD-1+ T cells demonstrated less activation and proliferation than activated PD-1– populations in vitro. Higher activation and proliferative responses were also observed in the PD-1– memory population in both mice and patients with cancer receiving high-dose IL-2, mirroring the in vitro phenotypes. This inhibitory effect of PD-1 could be reversed by PD-1 blockade in vivo or observed using memory T cells from PD-1–/– mice. Interestingly, increased activation through abrogation of PD-1 signaling in bystander-activated T cells also resulted in increased apoptosis due to activation-induced cell death (AICD) and eventual T cell loss in vivo. These results demonstrate that the PD-1/PD-Ligand 1 (PD-L1) pathway inhibited bystander-activated memory T cell responses but also protected cells from AICD.

Authors

Catherine T. Le, Logan V. Vick, Craig Collins, Cordelia Dunai, Michael K. Sheng, Lam T. Khuat, Isabel Barao, Sean J. Judge, Ethan G. Aguilar, Brendan Curti, Maneesh Dave, Dan L. Longo, Bruce R. Blazar, Robert J. Canter, Arta M. Monjazeb, William J. Murphy

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Figure 4

PD-1 downregulates bystander memory T cell responses in vivo during acute systemic viral infection in mice and its reversal using checkpoint blockade.

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PD-1 downregulates bystander memory T cell responses in vivo during acut...
(A) Experimental Schema: T cells were isolated from OT-1 spleen and cultured in vitro with IL-2 or CD3/CD28 for 3 days. (B) Histogram PD-1, CD69, CD25, Ki67, and NKG2D with culture. (C) Experimental schema depicting adoptive transfer of OT-1 Memory CD8 T cells into RAG2–/– mice followed by challenge with MCMV and anti–PD-1 or IgG treatment. (D) Representative flow plot of NKG2D percentage of OT-1 T cells in spleen on day 3. (E) Histogram plot of CD69 percentage of OT-1 T cells in spleen on day 3. (F) Representative flow plot of Ki67 percentage of PD-1 and PD-1+ subsets in liver on day 3 and corresponding quantification. (G) Representative flow plots of annexin V percentage of PD-1 and PD-1+ subsets in liver on day 3 and corresponding quantification. (H) MCMV viral copies in liver in mice receiving IgG or anti–PD-1 treatments. Experiments are representative of at least 2 experiments and sample size of individual mice depicted is n = 5 in F and G and n = 3 in H. One-way ANOVA with Tukey’s multiple comparison test was used for comparison of multiple groups in F and G. Two-tailed unpaired Student’s t tests were used to compare 2 groups in H. *P < 0.05, **P < 0.01.