CDK1-mediated Phosphorylation of Abi1 Attenuates Bcr-Abl-induced F-actin Assembly and Tyrosine Phosphorylation of WAVE Complex during Mitosis

Coordinated actin remodeling is crucial for cell entry into mitosis. The WAVE regulatory complex is a key regulator of actin assembly, yet how the WAVE signaling is regulated to coordinate actin assembly with mitotic entry is not clear. Here, we have uncovered a novel mechanism that regulates the WAVE complex at the onset of mitosis. We found that the Bcr-Abl-stimulated F-actin assembly is abrogated during mitosis. This mitotic inhibition of F-actin assembly is accompanied by an attenuation of Bcr-Abl-induced tyrosine phosphorylation of the WAVE complex. We identified serine 216 of Abi1 as a target of CDK1/cyclin B kinase that is phosphorylated in cells at the onset of mitosis. The Abi1 phosphorylated on serine 216 displayed greatly reduced tyrosine phosphorylation in the hematopoietic cells transformed by Bcr-Abl. Moreover, a phosphomimetic mutation of serine 216 to aspartic acid in Abi1 was sufficient to attenuate Bcr-Abl-induced tyrosine phosphorylation of the WAVE complex and F-actin assembly. Ectopic expression of Abi1 with serine 216 mutations interfered with cell cycle progression. Together, these data show that CDK1-mediated phosphorylation of serine 216 in Abi1 serves as a regulatory mechanism that may contribute to coordinated actin cytoskeleton remodeling during mitosis.