The tumor-promoting actions of TNF-α involve TNFR1 and IL-17 in ovarian cancer in mice and humans
Kellie A. Charles, … , Frances R. Balkwill, Thorsten Hagemann
Kellie A. Charles, … , Frances R. Balkwill, Thorsten Hagemann
Published September 8, 2009
Citation Information: J Clin Invest. 2009;119(10):3011-3023. https://doi.org/10.1172/JCI39065.
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The tumor-promoting actions of TNF-α involve TNFR1 and IL-17 in ovarian cancer in mice and humans

Abstract

Cytokines orchestrate the tumor-promoting interplay between malignant cells and the immune system. In many experimental and human cancers, the cytokine TNF-α is an important component of this interplay, but its effects are pleiotropic and therefore remain to be completely defined. Using a mouse model of ovarian cancer in which either TNF receptor 1 (TNFR1) signaling was manipulated in different leukocyte populations or TNF-α was neutralized by antibody treatment, we found that this inflammatory cytokine maintained TNFR1-dependent IL-17 production by CD4+ cells and that this led to myeloid cell recruitment into the tumor microenvironment and enhanced tumor growth. Consistent with this, in patients with advanced cancer, treatment with the TNF-α–specific antibody infliximab substantially reduced plasma IL-17 levels. Furthermore, expression of IL-1R and IL-23R was downregulated in CD4+CD25– cells isolated from ascites of ovarian cancer patients treated with infliximab. We have also shown that genes ascribed to the Th17 pathway map closely with the TNF-α signaling pathway in ovarian cancer biopsy samples, showing particularly high levels of expression of genes encoding IL-23, components of the NF-κB system, TGF-β1, and proteins involved in neutrophil activation. We conclude that chronic production of TNF-α in the tumor microenvironment increases myeloid cell recruitment in an IL-17–dependent manner that contributes to the tumor-promoting action of this proinflammatory cytokine.

Authors

Kellie A. Charles, Hagen Kulbe, Robin Soper, Monica Escorcio-Correia, Toby Lawrence, Anne Schultheis, Probir Chakravarty, Richard G. Thompson, George Kollias, John F. Smyth, Frances R. Balkwill, Thorsten Hagemann

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Figure 2

Tissue-specific reconstitution of TNFR1.

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Tissue-specific reconstitution of TNFR1. Data are represented as mean ± ...
Data are represented as mean ± SEM of n = 6. TNFR1flcneo mice had significantly lowered disease burden (P < 0.01) compared with WT mice. (A) TNFR1 gain of function in the monocyte/macrophage lineage has (TNFR1DLysM) no effect on tumor growth. (B) TNFR1 gain of function in CD19+ cells (TNFR1ΔCD19) has no effect on tumor growth. (C) Gain of function of TNFR1 in the CD4 lineage of TNFR1ΔCD4 mice “rescued” the protective effect of TNFR1 depletion. (D) Western blot for TNFR1 on protein lysates from CD4+ cells shows knockin of TNFR1 in CD4+ cells of TNFR1ΔCD4+ mice but not CD19+ or CD11b+ cells. (E) ID8 tumor–bearing TNFR1flcneo mice have significantly fewer neutrophils in the malignant ascitic fluid (P < 0.05; compared with WT mice). This effect is reversed in TNFR1ΔCD4 mice (P < 0.05; compared with TNFR1flcneo). Data are represented as mean ± SD of n = 6. (F) FACS analysis of the ascitic CD4+ population. TNFR1flcneo tumor-bearing mice have significantly fewer ascitic Th17 cells (P < 0.01, n = 6) compared with WT and TNFR1ΔCD4 mice. (G) IL-17 mRNA expression in CD4+ cells isolated from ascites of tumor–bearing mice at 8 weeks. (H) Ascitic CD4+ cells were selected and pooled (n = 3) and ex vivo stimulated with PMA and ionomycin for 4 hours. CD4+ cells from TNFR1–/– chimeras or TNFR1flcneo mice secreted significantly lower amounts of IL-17 (P < 0.01). Data are represented as mean ± SD of n = 6. Representative data are shown from 2 independent experiments.