TGF-β and VEGF cooperatively control the immunotolerant tumor environment and the efficacy of cancer immunotherapies
Tristan Courau, … , Bertrand Bellier, David Klatzmann
Tristan Courau, … , Bertrand Bellier, David Klatzmann
Published June 16, 2016
Citation Information: JCI Insight. 2016;1(9):e85974. https://doi.org/10.1172/jci.insight.85974.
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Research Article Immunology Oncology

TGF-β and VEGF cooperatively control the immunotolerant tumor environment and the efficacy of cancer immunotherapies

Abstract

Tregs imprint an early immunotolerant tumor environment that prevents effective antitumor immune responses. Using transcriptomics of tumor tissues, we identified early upregulation of VEGF and TGF-β pathways compatible with tolerance imprinting. Silencing of VEGF or TGF-β in tumor cells induced early and pleiotropic modulation of immune-related transcriptome signatures in tumor tissues. These were surprisingly similar for both silenced tumors and related to common downstream effects on Tregs. Silencing of VEGF or TGF-β resulted in dramatically delayed tumor growth, associated with decreased Tregs and myeloid-derived suppressor cells and increased effector T cell activation in tumor infiltrates. Strikingly, co-silencing of TGF-β and VEGF led to a substantial spontaneous tumor eradication rate and the combination of their respective inhibitory drugs was synergistic. VEGF and/or TGF-β silencing also restored tumor sensitivity to tumor-specific cell therapies and markedly improved the efficacy of anti–PD-1/anti–CTLA-4 treatment. Thus, TGF-β and VEGF cooperatively control the tolerant environment of tumors and are targets for improved cancer immunotherapies.

Authors

Tristan Courau, Djamel Nehar-Belaid, Laura Florez, Béatrice Levacher, Thomas Vazquez, Faustine Brimaud, Bertrand Bellier, David Klatzmann

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Figure 5

VEGF or TGF-β silencing dramatically impacts the composition and activation status of the tumor immune cell infiltrates.

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VEGF or TGF-β silencing dramatically impacts the composition and activat...
(A) Density of tumor infiltration by immune cells at day 20, calculated as 103 CD45+ cells per mm3 in WT, VEGF-, or TGF-β–silenced B16 tumors. (B) Pie chart representation of the mean composition of the immune cell infiltrates, including T cells (CD3e+NKp46), B cells (B220+MHCII+), DCs (CD11c+MHCII+), myeloid-derived suppressor cells (MDSCs) (CD11cMHCIICD11b+Gr-1+), NK cells (NKp46+), NKT cells (CD3e+NKp46+), and “others” (negative for the markers listed above). (CE) Percentages of Ki67+ (C), IFN-γ+ (D), and TNF-α+ (E) in CD4+Foxp3 (upper panel) and CD8+ (lower panel) Teffs in the tumors measured ex vivo (C) or after polyclonal stimulation (D and E) by flow cytometry. (F) Expression levels of CD83 (left panels) and CD86 (right panels) by CD11b+CD103 (upper panels) and CD11bCD103+ (lower panels) DC subsets, measured by flow cytometry and presented as mean fluorescence intensities. All the results are at day 20 after tumor inoculation and for n = 5 to 10 mice per group in at least 2 independent experiments. Statistical significance of the results was analyzed by using the Ordinary one-way ANOVA test with Bonferroni’s correction (*P < 0.05; **P < 0.005, ***P < 0.001, ****P < 0.0001).