Keratinocyte-derived cytokine TSLP promotes growth and metastasis of melanoma by regulating the tumor-associated immune microenvironment
Wenjin Yao, Beatriz German, Dounia Chraa, Antoine Braud, Cecile Hugel, Pierre Meyer, Guillaume Davidson, Patrick Laurette, Gabrielle Mengus, Eric Flatter, Pierre Marschall, Justine Segaud, Marine Guivarch, Pierre Hener, Marie-Christine Birling, Dan Lipsker, Irwin Davidson, Mei Li
Wenjin Yao, Beatriz German, Dounia Chraa, Antoine Braud, Cecile Hugel, Pierre Meyer, Guillaume Davidson, Patrick Laurette, Gabrielle Mengus, Eric Flatter, Pierre Marschall, Justine Segaud, Marine Guivarch, Pierre Hener, Marie-Christine Birling, Dan Lipsker, Irwin Davidson, Mei Li
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Research Article Dermatology Oncology

Keratinocyte-derived cytokine TSLP promotes growth and metastasis of melanoma by regulating the tumor-associated immune microenvironment

Abstract

Malignant melanoma is a major public health issue displaying frequent resistance to targeted therapy and immunotherapy. A major challenge lies in better understanding how melanoma cells evade immune elimination and how tumor growth and metastasis is facilitated by the tumor microenvironment. Here, we show that expression of the cytokine thymic stromal lymphopoietin (TSLP) by epidermal keratinocytes is induced by cutaneous melanoma in both mice and humans. Using genetically engineered models of melanoma and tumor cell grafting combined with TSLP-KO or overexpression, we defined a crosstalk between melanoma cells, keratinocytes, and immune cells in establishing a tumor-promoting microenvironment. Keratinocyte-derived TSLP is induced by signals derived from melanoma cells and subsequently acts via immune cells to promote melanoma progression and metastasis. Furthermore, we show that TSLP signals through TSLP receptor–expressing (TSLPR-expressing) DCs to play an unrecognized role in promoting GATA3+ Tregs expressing a gene signature including ST2, CCR8, ICOS, PD-1, CTLA-4, and OX40 and exhibiting a potent suppressive activity on CD8+ T cell proliferation and IFN-γ production. An analogous population of GATA3-expressing Tregs was also identified in human melanoma tumors. Our study provides insights into the role of TSLP in programming a protumoral immune microenvironment in cutaneous melanoma.

Authors

Wenjin Yao, Beatriz German, Dounia Chraa, Antoine Braud, Cecile Hugel, Pierre Meyer, Guillaume Davidson, Patrick Laurette, Gabrielle Mengus, Eric Flatter, Pierre Marschall, Justine Segaud, Marine Guivarch, Pierre Hener, Marie-Christine Birling, Dan Lipsker, Irwin Davidson, Mei Li

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Figure 5

ST2+ Tregs suppress CD8+ T cell proliferation and their IFN-γ production.

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ST2+ Tregs suppress CD8+ T cell proliferation and their IFN-γ production...
(A) Representative FACS plots of ST2 and Foxp3 among CD4+ T cells. (B) Histogram comparison for GATA3 and OX40 in the ST2/Foxp3 CD4+ T cell populations. (C) In vitro suppression of CD8+ T responder (CD8 Tresp) cell proliferation by ST2+ Tregs and ST2 Tregs. CD8+ Tresp cells were labeled with CellTrace Violet (CTV) and stimulated with CD3/CD28 beads in the presence of ST2+ Tregs or ST2 Tregs at different ratios (Treg/CD8+ Tresp at 1:1, 1:2, 1:4 or 1:8), or alone (no Treg). Percentage of division (Div) and division index (DI) are marked for each sample. (D) IFN-γ levels in the medium of the coculture of CD8+ Tresp and ST2+ Treg or ST2 Treg, measured by ELISA. Each column represents 1 coculture. Data are representative of 4 independent experiments with similar results.