Targeting tumor-resident mast cells for effective anti-melanoma immune responses
Susanne Kaesler, Florian Wölbing, Wolfgang Eberhard Kempf, Yuliya Skabytska, Martin Köberle, Thomas Volz, Tobias Sinnberg, Teresa Amaral, Sigrid Möckel, Amir Yazdi, Gisela Metzler, Martin Schaller, Karin Hartmann, Benjamin Weide, Claus Garbe, Hans-Georg Rammensee, Martin Röcken, Tilo Biedermann
Susanne Kaesler, Florian Wölbing, Wolfgang Eberhard Kempf, Yuliya Skabytska, Martin Köberle, Thomas Volz, Tobias Sinnberg, Teresa Amaral, Sigrid Möckel, Amir Yazdi, Gisela Metzler, Martin Schaller, Karin Hartmann, Benjamin Weide, Claus Garbe, Hans-Georg Rammensee, Martin Röcken, Tilo Biedermann
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Research Article Immunology Oncology

Targeting tumor-resident mast cells for effective anti-melanoma immune responses

Abstract

Immune checkpoint blockade has revolutionized cancer treatment. Patients developing immune mediated adverse events, such as colitis, appear to particularly benefit from immune checkpoint inhibition. Yet, the contributing mechanisms are largely unknown. We identified a systemic LPS signature in melanoma patients with colitis following anti–cytotoxic T lymphocyte–associated antigen 4 (anti–CTLA-4) checkpoint inhibitor treatment and hypothesized that intestinal microbiota–derived LPS contributes to therapeutic efficacy. Because activation of immune cells within the tumor microenvironment is considered most promising to effectively control cancer, we analyzed human and murine melanoma for known sentinels of LPS. We identified mast cells (MCs) accumulating in and around melanomas and showed that effective melanoma immune control was dependent on LPS-activated MCs recruiting tumor-infiltrating effector T cells by secretion of CXCL10. Importantly, CXCL10 was also upregulated in human melanomas with immune regression and in patients with colitis induced by anti–CTLA-4 antibody. Furthermore, we demonstrate that CXCL10 upregulation and an MC signature at the site of melanomas are biomarkers for better patient survival. These findings provide conclusive evidence for a “Trojan horse treatment strategy” in which the plasticity of cancer-resident immune cells, such as MCs, is used as a target to boost tumor immune defense.

Authors

Susanne Kaesler, Florian Wölbing, Wolfgang Eberhard Kempf, Yuliya Skabytska, Martin Köberle, Thomas Volz, Tobias Sinnberg, Teresa Amaral, Sigrid Möckel, Amir Yazdi, Gisela Metzler, Martin Schaller, Karin Hartmann, Benjamin Weide, Claus Garbe, Hans-Georg Rammensee, Martin Röcken, Tilo Biedermann

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Figure 3

Mast cell accumulation adjacent to melanomas.

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Mast cell accumulation adjacent to melanomas. (A) Representative photomi...
(A) Representative photomicrograph of a human melanoma with spontaneous immune regression (upper left) and histological sections thereof. Lower left: H&E staining of melanoma regression area with infiltrating lymphocytes and fibrosis as indicated by arrowheads and arrows, respectively (scale bar: 100 μm). Upper right: immunohistochemistry identifying MCs with antitryptase antibody (red stain; scale bar: 100 μm) and magnification thereof as indicated by a rectangle (lower right, scale bar: 50 μm). (B) Numbers of MCs within the melanoma immune regression area compared with MCs in control healthy skin regions at the rim of the excised margins. MC numbers/high-power field (HPF) are shown; n = 25; Wilcoxon’s test was used for P value calculation. (C) MC signature Z scores of 452 patients with melanoma derived from the TCGA data set as dichotomized values and (D) in correlation with overall survival data of the patients. (E) Representative example of toluidine blue–stained sections of mouse B16-OVA melanoma (arrows refer to MCs) and (F) MC quantification (MC numbers/HPF). Statistical difference was determined by paired t test (n = 13). ****P < 0.0001.