Abstract INTRODUCTION Despite promising preclinical studies, BRAF/MEK inhibition with vemurafenib in melanoma brain metastases (MBM) has suboptimal durable response in humans. Thrombospondin 1 (THBS1), a matricellular protein, is upregulated in vemurafenib-resistant metastatic melanoma, and its inhibition reverses BRAF inhibitor chemoresistance. However, the characteristics of THBS1-mediated signaling pathways as well as methods of inhibition require further exploration in the context of MBM. OBJECTIVE To characterize THBS1-mediated signaling pathways in MBM and evaluate the therapeutic potential of targeting THBS1 pathways. METHODS We analyzed human parenchymal MBM samples using publicly available single-cell RNA sequencing (scRNA-seq) data. Protein-protein interaction networks were assessed using the STRING database. Syngeneic B16 melanoma cells were intracranially implanted in C57BL/6J mice and treated with intraperitoneal injection of FGF7/FGFR2 small-molecule inhibitor Infigratinib or PBS (sham). Mice were immunophenotyped using flow cytometry and monitored for survival. RESULTS THBS1 is highly upregulated in immunosuppressive MBM-associated cell populations such as S100A8+ Metastasis-Associated Macrophages and Mesenchymal Stromal Cell-like cells. Gene set enrichment analysis of THBS1-positive cells paradoxically revealed upregulation of inflammation-associated gene sets. Differential expression analysis identified Fibroblast Growth Factor 7 (FGF7) as strongly co-expressed in THBS1-positive MBM cells, and STRING-DB confirmed close protein-protein interactions between FGF7 and THBS1. In vivo inhibition using Infigratinib for FGF7’s receptor, FGFR2, decreased the proportion of monocytic myeloid-derived suppressor cells (M-MDSCs) (P=0.030), increased T-cell activation marker IFN-y (P=0.027) and proliferation marker CD69 (P=0.047), and resulted in improved overall survival (P=0.0001). CONCLUSION MBM scRNA-seq data suggests that THBS1 is associated with inflammation-induced immunosuppression. Inhibiting the FGF7/FGFR2-THBS1 axis with Infigratinib modulates the tumor microenvironment by reducing immunosuppressive M-MDSCs and increasing T cell activation and proliferation. This data supports THBS1 inhibition as a viable therapeutic option that in the future can also be combined with other current immunotherapeutic strategies.
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