Speedy/Ringo C regulates S and G₂ phase progression in human cells

Abstract

Cyclin-dependent kinases (CDKs) control cell cycle transitions and progression. In addition to their activation via binding to cyclins, CDKs can be activated via binding to an unrelated class of cell cycle regulators termed Speedy/Ringo (S/R) proteins. Although mammals contain at least five distinct Speedy/Ringo homologues, the specific functions of members of this growing family of CDK activators remain largely unknown. We investigated the cell cycle roles of human Speedy/Ringo C in HEK293 cells. Down-regulation of Speedy/Ringo C by RNA interference delayed S and G2 progression whereas ectopic expression had the opposite effect, reducing S and G2/M populations. Double thymidine arrest and release experiments showed that overexpression of Speedy/Ringo C promoted late S phase progression. Using a novel three-color FACS protocol to determine the length of G2 phase, we found that the suppression of Speedy/Ringo C by RNAi prolonged G2 phase by ~30 min whereas ectopic expression of Speedy/Ringo C shortened G2 phase by ~25 min. In addition, overexpression of Speedy/Ringo C disrupted the G2 DNA damage checkpoint, increased cell death and caused a cell cycle delay at the G1-to-S transition. These observations indicate that CDK-Speedy/Ringo C complexes positively regulate cell cycle progression during the late S and G2 phases of the cell cycle.