Sensitization of HT29 colorectal cancer cells to vemurafenib in three-dimensional collagen cultures

The extracellular matrix to which Cancer cells adhere affects cellular sensitivity to Anticancer drugs. We sought to examine the changes in sensitivity of colorectal Cancer cells carrying the BRaf V600E mutation to vemurafenib cultured in three-dimensional (3D) collagen-I gels, while also identifying the signaling pathways involved in these changes. HT29 colorectal Cancer cells were cultured in conventional tissue culture (TC) plastic plates or in collagen-I gels. The HT29 cells demonstrated approximately 10-fold higher sensitivity to vemurafenib in 3D-collagen-I gels compared with those cultured on conventional TC plastic plates. Furthermore, in cells cultured on TC plastic, vemurafenib was found to augment tyrosine phosphorylation of focal adhesion kinase (FAK), while 3D-cultured cells expressed lower levels of FAK and vemurafenib did not affect its tyrosine phosphorylation, suggesting that FAK contributes to vemurafenib resistance. However, pharmacological inhibition of FAK did not sensitize the cells to vemurafenib. Also, the level of tyrosine-phosphorylated epidermal growth factor receptor (EGFR)/ERBB2 family proteins was found to be lower in cells cultured in 3D-collagen gel compared with those in cells cultured on TC plastic. Afatinib, an inhibitor of the EGFR/ERBB family of kinases, sensitized the cells to higher concentrations of vemurafenib, implying their participation in vemurafenib resistance. Adhesion to collagen-I gel but not to the collagen-I-coated plastic surface sensitized the cells, suggesting that the rigidity of the media rather than adherence to collagen-I may be important for cellular sensitivity to vemurafenib.