RAGE is a multi-functional receptor implicated in diverse processes including inflammation and cancer. In this study, we report that RAGE expression is upregulated widely in aggressive triple-negative breast cancer cells, both in primary tumors and lymph node metastases. In evaluating the functional contributions of RAGE in breast cancer, we found RAGE-deficient mice displayed a reduced propensity for breast tumor growth. In an established model of lung metastasis, systemic blockade by injection of a RAGE neutralizing antibody inhibited metastasis development. Mechanistic investigations revealed that RAGE bound to the pro-inflammatory ligand S100A7 and mediated its ability to activate ERK, NF-κB and cell migration. In an S100A7 transgenic mouse model of breast cancer (mS100a7a15 mice), administration of either RAGE neutralizing antibody or soluble RAGE was sufficient to inhibit tumor progression and metastasis. In this model, we found that RAGE/S100A7 conditioned the tumor microenvironment by driving the recruitment of MMP9-positive tumor-associated macrophages. Overall, our results highlight RAGE as a candidate biomarker for triple-negative breast cancers and they reveal a functional role for RAGE/S100A7 signaling in linking inflammation to aggressive breast cancer development.
S100A7/Psoriasin, a member of the epidermal differentiation complex, is widely overexpressed in invasive ER-negative (ERα-) breast cancers. However, it has not been established whether S100A7 contributes to breast cancer growth or metastasis. Here, we report the consequences of its expression on inflammatory pathways that impact breast cancer growth. Overexpression of human S100A7 or its murine homolog mS100a7a15, enhanced cell proliferation and upregulated various pro-inflammatory molecules in ERα- breast cancer cells. To examine in vivo effects, we generated mice with an inducible form of mS100a7a15 (MMTV-mS100a7a15 mice). Orthotopic implantation of MVT-1 breast tumor cells into the mammary glands of these mice enhanced tumor growth and metastasis. Compared to uninduced transgenic control mice, the mammary glands of mice where mS100a7a15 was induced exhibited increased ductal hyperplasia and expression of molecules involved in proliferation, signaling, tissue remodeling and macrophage recruitment. Furthermore, tumors and lung tissues obtained from these mice showed further increases in pro-metastatic gene expression and recruitment of tumor-associated macrophages (TAMs). Notably, in vivo depletion of TAM inhibited the effects of mS100a7a15 induction on tumor growth and angiogenesis. Further, introduction of soluble hS100A7 or mS100a7a15 enhanced chemotaxis of macrophages via activation of RAGE receptors. In summary, our work employed a powerful new model system to demonstrate that S100A7 enhances breast tumor growth and metastasis by activating proinflammatory and metastatic pathways.
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