Search for: All records

Abstract Fibroblasts are an abundant cell type in tumor microenvironments. Activated fibroblasts, known as carcinoma‐associated fibroblasts (CAFs), interact with cancer cells through biochemical signaling and render cancer cells proliferative, invasive, and resistant to therapeutics. Targeting CAFs–cancer cells interactions offers a strategy to block cancer progression. 2D and 3D co‐cultures of human mammary fibroblasts and triple negative breast cancer (TNBC) cells are used to investigate the impact of heterotypic cellular interactions on the proliferation of matrix invasion of TNBC cells. The results show that fibroblasts secreting a chemokine, CXCL12, significantly enhance proliferation of TNBC cells expressing the chemokine receptor, CXCR4. Disrupting this interaction with a receptor antagonist normalizes cancer cell proliferation to that of a co‐culture model lacking this signaling. When co‐culture spheroids are embedded in collagen, fibroblasts producing CXCL12 promote collagen invasion of TNBC cells. Although co‐cultures containing normal fibroblasts also lead to TNBC cell spreading into the matrix, a morphological analysis of cells and inhibition of chemokine‐receptor signaling shows that this spreading is due to the incompatibility of fibroblasts and cancer cells leading to the segregation of the two cell types from the spheroid.