Identification of CENP-V as a novel microtubule-associating molecule that activates Src family kinases through SH3 domain interaction.

The activation mechanisms of Src family kinases (SFKs) involve the dissociation of the intramolecular interaction between the Src homology (SH) 3 and kinase domain. This process is mediated by the intermolecular attack of outer ligands to the SH3 domain. By using a yeast two-hybrid screen, we isolated a relevant ligand involved in the activation mechanisms of SFKs. This molecule was found to be identical to a recently recognized kinetochore protein--designated as centromere protein (CENP)-V--which is required for the progression of mitosis. We show here that human CENP-V plays further roles in cell dynamics; the proline-rich region of human CENP-V associates with the SH3 domains of SFKs and potently activates SFKs, whereas another domain of CENP-V that possesses a highly conserved cysteine array confers the ability to associate with stabilized microtubules (MTs). Human CENP-V distributes to the cell protrusion and to the leading edge of migrating cells in response to external stimuli, and depletion of CENP-V by RNA interference significantly attenuates closure of a scratch wound. These findings indicate that human CENP-V is involved in directional cell motility as well as in the progression of mitosis, as a scaffolding molecule that links MTs and SFKs.

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