Tumor-infiltrating lymphocytes are dynamically desensitized to antigen but are maintained by homeostatic cytokine
Bijan Boldajipour, … , Amanda Nelson, Matthew F. Krummel
Bijan Boldajipour, … , Amanda Nelson, Matthew F. Krummel
Published December 8, 2016
Citation Information: JCI Insight. 2016;1(20):e89289. https://doi.org/10.1172/jci.insight.89289.
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Research Article Immunology Oncology

Tumor-infiltrating lymphocytes are dynamically desensitized to antigen but are maintained by homeostatic cytokine

Abstract

T cells that enter tumors are largely tolerized, but how that process is choreographed and how the ensuing “dysfunctional” tumor-infiltrating lymphocytes (TILs) are maintained are poorly understood and are difficult to assess in spontaneous disease. We exploited an autochthonous model of breast cancer for high-resolution imaging of the early and later stages of tumor residence to understand the relationships between cellular behaviors and cellular phenotypes. “Dysfunctional” differentiation began within the first days of tumor residence with an initial phase in which T cells arrest, largely on tumor-associated macrophages. Within 10 days, cellular motility increased and resembled a random walk, suggesting a relative absence of TCR signaling. We then studied the concurrent and apparently contradictory phenomenon that many of these cells express molecular markers of activation and were visualized undergoing active cell division. We found that whereas proliferation did not require ongoing TCR/ZAP70 signaling, instead this is driven in part by intratumoral IL-15 cytokine. Thus, TILs undergo sequential reprogramming by the tumor microenvironment and are actively retained, even while being antigen insensitive. We conclude that this program effectively fills the niche with ineffective yet cytokine-dependent TILs, and we propose that these might compete with new clones, when they arise.

Authors

Bijan Boldajipour, Amanda Nelson, Matthew F. Krummel

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Figure 2

Exposure to tumor environment alters T cell behavior.

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Exposure to tumor environment alters T cell behavior. (A–D) Migration pa...
(A–D) Migration parameters of tumor-resident high-affinity T cells compared with endogenous T cells. (A–C) Representative video snapshot and migratory paths of high-affinity T cells and endogenous T cells, color-coded for mean track speed over 2 hours. (D) Kolmogorov-Smirnov analysis of the distribution of average migration speed and arrest coefficients. Data are representative of 5 experiments. (E–H) Comparison of migration parameters of high-affinity T cells upon recent arrival to tumors (red) and after establishing residence (green) within the same animal. (EG) Representative video snapshot and migratory paths of high-affinity T cells upon recent arrival to tumors and after establishing residence, color-coded for mean track speed over 2 hours. (H) Kolmogorov-Smirnov analysis of the distribution of average migration speed and arrest coefficients. Data are representative of 5 experiments. (I) Snapshot and rendering (J) of the localization of high-affinity T cells (blue), CD11b+ TAM1 macrophages (green), CD11c+ TAM2 macrophages (yellow), and dendritic cells (red) 14 days after transfer of OT-I/CFP T cells into PyMT-ChOVA/CX3CR1-EGFP/CD11c-RFP transgenic hosts. Blood vessels were labeled by Evans Blue. (K) Representative statistical analysis of the distance of OT-I T cells to the next available APC using a Kruskal-Wallis 1-way ANOVA test. Data are representative of 2 experiments, n denotes the numbers of T cells analyzed. Scale bars: 20 μm.