Abstract
Cell adhesion-mediated drug resistance (CAM-DR) remains the primary obstacle in human multiple myeloma (MM) therapy. In this study, we aimed at investigating the expression and biologic function of ARF1 in MM. We determined that ARF1 expression was positively correlated with cell proliferation and knockdown of ARF1 contributed to CAM-DR. The enhancement in the adhesion of MM cells to fibronectin (FN) or the bone marrow stroma cell line HS-5 cells translated to an increased CAM-DR phenotype. Importantly, we showed that this CAM-DR phenotype was correlated with the phosphorylation of Akt and ERK in MM cells. Moreover, we sought to determine whether ARF1 could interact with p27 in RPMI8226 cells. Knockdown of ARF1 also significantly decreased pT157-p27 protein expression in RPMI8226 cells. Our research shows ARF1 may reverse CAM-DR by regulating phosphorylation of p27 at T157 in MM. Taken together, our data shed new light on the molecular mechanism of CAM-DR in MM, and targeting ARF1 may be a novel therapeutic approach for improving the effectiveness of chemotherapy in MM.
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