Central nervous system immune interactome is a function of cancer lineage, tumor microenvironment, and STAT3 expression
Hinda Najem, … , Jared K. Burks, Amy B. Heimberger
Hinda Najem, … , Jared K. Burks, Amy B. Heimberger
Published March 22, 2022
Citation Information: JCI Insight. 2022;7(9):e157612. https://doi.org/10.1172/jci.insight.157612.
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Research Article Immunology Oncology

Central nervous system immune interactome is a function of cancer lineage, tumor microenvironment, and STAT3 expression

Abstract

BACKGROUND Immune cell profiling of primary and metastatic CNS tumors has been focused on the tumor, not the tumor microenvironment (TME), or has been analyzed via biopsies.METHODS En bloc resections of gliomas (n = 10) and lung metastases (n = 10) were analyzed via tissue segmentation and high-dimension Opal 7-color multiplex imaging. Single-cell RNA analyses were used to infer immune cell functionality.RESULTS Within gliomas, T cells were localized in the infiltrating edge and perivascular space of tumors, while residing mostly in the stroma of metastatic tumors. CD163+ macrophages were evident throughout the TME of metastatic tumors, whereas in gliomas, CD68+, CD11c+CD68+, and CD11c+CD68+CD163+ cell subtypes were commonly observed. In lung metastases, T cells interacted with CD163+ macrophages as dyads and clusters at the brain-tumor interface and within the tumor itself and as clusters within the necrotic core. In contrast, gliomas typically lacked dyad and cluster interactions, except for T cell CD68+ cell dyads within the tumor. Analysis of transcriptomic data in glioblastomas revealed that innate immune cells expressed both proinflammatory and immunosuppressive gene signatures.CONCLUSION Our results show that immunosuppressive macrophages are abundant within the TME and that the immune cell interactome between cancer lineages is distinct. Further, these data provide information for evaluating the role of different immune cell populations in brain tumor growth and therapeutic responses.FUNDING This study was supported by the NIH (NS120547), a Developmental research project award (P50CA221747), ReMission Alliance, institutional funding from Northwestern University and the Lurie Comprehensive Cancer Center, and gifts from the Mosky family and Perry McKay. Performed in the Flow Cytometry & Cellular Imaging Core Facility at MD Anderson Cancer Center, this study received support in part from the NIH (CA016672) and the National Cancer Institute (NCI) Research Specialist award 1 (R50 CA243707). Additional support was provided by CCSG Bioinformatics Shared Resource 5 (P30 CA046592), a gift from Agilent Technologies, a Research Scholar Grant from the American Cancer Society (RSG-16-005-01), a Precision Health Investigator Award from University of Michigan (U-M) Precision Health, the NCI (R37-CA214955), startup institutional research funds from U-M, and a Biomedical Informatics & Data Science Training Grant (T32GM141746).

Authors

Hinda Najem, Martina Ott, Cynthia Kassab, Arvind Rao, Ganesh Rao, Anantha Marisetty, Adam M. Sonabend, Craig Horbinski, Roel Verhaak, Anand Shankar, Santhoshi N. Krishnan, Frederick S. Varn, Víctor A. Arrieta, Pravesh Gupta, Sherise D. Ferguson, Jason T. Huse, Gregory N. Fuller, James P. Long, Daniel E. Winkowski, Ben A. Freiberg, Charles David James, Leonidas C. Platanias, Maciej S. Lesniak, Jared K. Burks, Amy B. Heimberger

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Figure 5

T cell cluster interactions within the TME.

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T cell cluster interactions within the TME. (A) Examples of the various ...
(A) Examples of the various cluster interactions occurring in the TME of gliomas and metastasis (original magnification, ×20). From left to right, CD3+ T cells with CD163+ macrophages in the stroma of the tumor in brain metastasis, CD3+ T cells with CD11c+CD163+ cells, CD3+ T cells with CD11c+CD68+CD163+ cells at the edge of brain metastasis, and CD3+ T cells with CD163+ macrophages and CD11c+CD163+ cells. (B) Scattered dot plots showing the frequency (%) of the different cluster interactions identified with the 3 regions of the TME (edge, tumor, and necrosis) in gliomas versus brain metastasis (BrMet) obtained through cross pair count analysis. Each solid circle represents a glioma, and the empty squares represent lung cancer brain metastasis specimens. The color black represents p-STAT3 clusters, and the color green represents p-STAT3+ clusters. Two-sample Wilcoxon’s rank-sum (unpaired) exact test to compare between glioma and metastasis, and 1-way repeated-measures ANOVA to compare the percentages for cluster interaction across regions, were performed. Statistically significant comparisons (P ≤ 0.05) are highlighted in red.