Abstract
The nonreceptor tyrosine kinase v-Src is an oncogene first identified in Rous sarcoma virus. The oncogenic effects of v-Src have been intensively studied; however, its effects on chromosomal integrity are not fully understood. Here, using HeLa S3/v-Src cells having inducible v-Src expression, we found that v-Src causes mitotic slippage in addition to cytokinesis failure, even when the spindle assembly checkpoint is not satisfied because of the presence of microtubule-targeting agents. v-Src's effect on mitotic slippage was also observed in cells after a knockdown of C-terminal Src kinase (Csk), a protein-tyrosine kinase that inhibits Src-family kinases and was partially inhibited by PP2, an Src-family kinase inhibitor. Proteomic analysis and in vitro kinase assay revealed that v-Src phosphorylates cyclin-dependent kinase 1 (Cdk1) at Tyr-15. This phosphorylation attenuated Cdk1 kinase activity, resulting in a decrease in the phosphorylation of Cdk1 substrates. Furthermore, v-Src-induced mitotic slippage reduced the sensitivity of the cells to microtubule-targeting agents, and cells that survived the microtubule-targeting agents exhibited polyploidy. These results suggest that v-Src causes mitotic slippage by attenuating Cdk1 kinase activity via direct phosphorylation of Cdk1 at Tyr-15. On the basis of these findings, we propose a model for v-Src-induced oncogenesis, in which v-Src-promoted mitotic slippage due to Cdk1 phosphorylation generates genetic diversity via abnormal cell division of polyploid cells and also increases the tolerance of cancer cells to microtubule-targeting agents.
Highlights
The nonreceptor tyrosine kinase v-Src is an oncogene first identified in Rous sarcoma virus
On the basis of these findings, we propose a model for v-Src–induced oncogenesis, in which v-Src–promoted mitotic slippage due to cyclin-dependent kinase 1 (Cdk1) phosphorylation generates genetic diversity via abnormal cell division of polyploid cells and increases the tolerance of cancer cells to microtubule-targeting agents
23% of the Dox-treated cells showed de-condensation of chromosomes, with neither alignment nor segregation after a prolonged M-phase (Fig. 1, C, panel c, and D, Dox, Sl). These results suggest that v-Src causes mitotic slippage after a prolonged M-phase in addition to cytokinesis failure and that the 4N cells with low cyclin B1 levels (Fig. 1A, Dox, dashed line) are tetraploid G1 cells generated through mitotic slippage and cytokinesis failure
Summary
The mitotic index decreased slowly by treatment with a lower concentration of RO-3306, similar to the v-Src– expressing cells Taken together, these results suggest that v-Src causes mitotic slippage through attenuation of Cdk activity because of its inhibitory phosphorylation at Tyr-15. We observed the delocalization of mitotic regulators, including Aurora B, Mklp, INCENP, and Mklp, and cytokinesis failure through regression of the cleavage furrow in v-Src– expressing cells [6] We wondered whether this is caused by the phosphorylation of Cdk at Tyr-15 by v-Src. A component of the central spindlin, Mklp associates with microtubules after anaphase onset and mediates central spindle assembly. Microtubule-targeting agents should be used with care in patients with cancer exhibiting increased Src-kinase activity
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