Sorafenib inhibits cell migration and stroma-mediated bortezomib resistance by interfering B-cell receptor signaling and protein translation in mantle cell lymphoma.

PURPOSE: We evaluated the antitumoral properties of the multikinase inhibitor sorafenib in mantle cell lymphoma (MCL), an aggressive B lymphoma for which current therapies have shown limited efficacy. EXPERIMENTAL DESIGN: Sensitivity to sorafenib was analyzed in MCL cell lines and primary samples in the context of BCR and microenvironment simulation. Sorafenib signaling was characterized by quantitative PCR, Western blotting, immunofluorescence, and protein immunoprecipitation. Migration analysis included flow cytometric counting, actin polymerization assays, and siRNA-mediated knockdown of focal adhesion kinase (FAK). In vivo antitumor effect of sorafenib and bortezomib was analyzed in an MCL xenograft mouse model. RESULTS: Sorafenib rapidly dephosphorylates the BCR-associated kinases, Syk and Lyn, as well as FAK, an Src target involved in focal adhesion. In this line, sorafenib displays strong synergy with the Syk inhibitor, R406. Sorafenib also blocks Mcl-1 and cyclin D1 translation, which promotes an imbalance between pro- and antiapoptotic proteins and facilitates Bax release from cyclin D1, leading to the induction of mitochondrial apoptosis and caspase-dependent and -independent mechanisms. Moreover, sorafenib inhibits MCL cell migration and CXCL12-induced actin polymerization. FAK knockdown partially prevents this inhibitory effect, indicating that FAK is a relevant target of sorafenib. Furthermore, sorafenib enhances the antitumoral activity of bortezomib in an MCL xenograft mouse model as well as overcomes stroma-mediated bortezomib resistance in MCL cells. CONCLUSION: We show for the first time that sorafenib interferes with BCR signaling, protein translation and modulates the microenvironment prosurvival signals in MCL, suggesting that sorafenib, alone or in combination with bortezomib, may represent a promising approach to treat patients with MCL.