Deletion of PTPN22 improves effector and memory CD8+ T cell responses to tumors
Rebecca J. Brownlie, … , Rose Zamoyska, Robert J. Salmond
Rebecca J. Brownlie, … , Rose Zamoyska, Robert J. Salmond
Published July 23, 2019
Citation Information: JCI Insight. 2019;4(16):e127847. https://doi.org/10.1172/jci.insight.127847.
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Research Article Immunology

Deletion of PTPN22 improves effector and memory CD8+ T cell responses to tumors

Abstract

Adoptive T cell therapy (ACT) has been established as an efficacious methodology for the treatment of cancer. Identifying targets to enhance the antigen recognition, functional capacity, and longevity of T cells has the potential to broaden the applicability of these approaches in the clinic. We previously reported that targeting expression of phosphotyrosine phosphatase, nonreceptor type 22 (PTPN22) in effector CD8+ T cells enhances the efficacy of ACT for tumor clearance in mice. In the current work, we demonstrate that, upon ACT, PTPN22-deficient effector CD8+ T cells afforded greater protection against tumors expressing very low-affinity antigen but did not survive long term in vivo. Persistence of CD8+ T cells following tumor clearance was improved by ACT of memory phenotype cells that have a distinct metabolic phenotype, as compared with effector T cells. Importantly, PTPN22-deficient T cells have comparable capacity to form long-lived memory cells in vivo but enhanced antitumor activity in vivo and effector responses ex vivo. These findings provide key insights into the regulation of effector and memory T cell responses in vivo and indicate that PTPN22 is a rational target to improve ACT for cancer.

Authors

Rebecca J. Brownlie, David Wright, Rose Zamoyska, Robert J. Salmond

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Figure 1

Effector CTLs deficient in PTPN22 kill tumor cells expressing low-affinity antigen more efficiently.

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Effector CTLs deficient in PTPN22 kill tumor cells expressing low-affini...
(A) Effector control and Ptpn22–/– OT1 CTLs were assessed for their capacity to kill target ID8-fLuc cells expressing high- (N4) or extremely low-affinity (V4) antigen in an in vitro killing assay. ID8 cell death was measured by a decrease in luminescence, as assessed by IVIS. Graphs show the percentage specific lysis at various effector-to-target ratios. Control and Ptpn22–/– CTLs were both able to effectively kill ID8-N4-fLuc cells, whereas Ptpn22–/– CTLs were more effective than control CTLs at killing ID8-V4-fLuc targets. **P < 0.01, as determined by 2-way ANOVA. Effector, CTLs; targets, ID8 cells. (B) Groups (n = 7) of C57BL/6J mice were injected i.p. with 5 × 106 ID8-N4-fLuc or ID8-V4-fLuc and assessed for tumor establishment on day 5 (pretreatment) by bioluminescence imaging. On day 6, groups of mice received no cells or 1 × 107 effector control or Ptpn22–/– OT1 CTLs i.p. Graphs show the bioluminescence signal intensity of all mice on day 5 (1 day prior to ACT) and day 18 (12 days after ACT). Both control and Ptpn22–/– CTLs were able to suppress growth of ID8-N4 tumors, while only Ptpn22–/– CTLs could significantly suppress the establishment of ID8-V4 tumors. *P < 0.05, **P < 0.01, ***P < 0.001, as determined by Student’s paired t test.