In vitro cancer models that can identify novel immunomodulating compounds are essential. Using a 3D multicellular tumor spheroid (MCTS) model comprising cancer cells, fibroblasts, and macrophages, we tested tumor-associated macrophage (TAM)-inhibiting compounds (CCL2 Ab, CSF1R inhibitor, CSF1R Ab) and TAM-reprograming compounds (poly I:C, CD40 Ab, CD40 ligand) for their effects on monocyte infiltration and polarization in tumor spheroids. For characterization of macrophage polarization, we measured the expression of CD206, CD163, CD86, MHC II, CD40, and CD14 and measured 43 soluble factors in the 3D MCTS cultures. 2D macrophage models were evaluated for comparison. A CSF1R inhibitor prevented infiltration of monocytes into pancreatic cancer spheroids, and macrophages treated with the inhibitor showed decreased expression of M2 markers. Treatment with a CD40 ligand and poly I:C induced M1 macrophage polarization in our models. We propose that these models can be used to improve the drug screening process of anti-cancer immunotherapies targeting macrophages.
Keywords: 3D cancer model; CD40 agonist; CSF1R inhibitor; Immunotherapy; Multicellular tumor spheroid; TLR ligand; Tumor-associated macrophage.
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