Role of citron kinase as a target of the small GTPase Rho in cytokinesis

Abstract

During mitosis, a ring containing actin and myosin appears beneath the equatorial surface of animal cells. This ring then contracts, forms a cleavage furrow and divides the cell^1,2,3, a step known as cytokinesis. The two daughter cells often remain connected by an intercellular bridge which contains a refringent structure known as the midbody⁴,⁵. How the appearance of this ring is regulated is unclear, although the small GTPase Rho, which controls the formation of actin structures⁶,⁷, is known to be essential^8,9,10. Protein kinases are also thought to participate in cytokinesis^1,2,3,¹¹,¹². We now show that a splice variant of a Rho target protein, named citron¹³, contains a protein kinase domain that is related to the Rho-associated kinases ROCK¹⁴ and ROK^15,16,17, which regulate myosin-based contractility^18,19,20,21. Citron kinase localizes to the cleavage furrow and midbody of HeLa cells; Rho is also localized in the midbody. We find that overexpression of citron mutants results in the production of multinucleate cells and that a kinase-active mutant causes abnormal contraction during cytokinesis. We propose that citron kinase regulates cytokinesis at a step after Rho in the contractile process.