Abstract

Spy1 is a member of the Speedy/Ringo family, which regulates cell proliferation and survival. Spy1 has been demonstrated to promote the cell-cycle progress through p27(Kip1) degradation. Previous investigations have suggested cell adhesion-mediated drug resistance (CAM-DR) in multiple myeloma (MM) is a primary factor for minimal residual disease (MRD) leading to relapse after chemotherapy. However, the precise mechanism remains elusive. In this study, we used MM cell lines to determine whether Spy1 plays a role in CAM-DR. We demonstrated that adhesion of MM cells to fibronectin (FN) decreased Spy1 expression. Overexpression of Spy1 did not affect MM cells adhesion to FN, but did reverse the doxorubicin- or mitoxantrone-induced CAM-DR phenotype. Spy1 protein level was also correlated with reciprocal up-regulation of p27(Kip1) when RPMI 8226 cells bound FN. Spy1 overexpression promoted p27(Kip1) phosphorylation at T187, then induced the p27(Kip1) degradation in the adhesion model. In addition, increasing p27(Kip1) level or disturbing p27(Kip1) phosphorylation at T187 abolished the CAM-DR reversion when Spy1 was overexpressed. Collectively, our data suggest that Spy1 plays an important role in CAM-DR, which depends on the function of p27(Kip1). Our findings provide a rational framework for further development of Spy1 as a novel target for MM therapy.

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