Activation of Ras-Ral Pathway Attenuates p53-independent DNA Damage G sub(2) Checkpoint

Earlier we have found that in p53-deficient cells the expression of activated Ras attenuates the DNA damage-induced arrest in G sub(1) and G sub(2). In the present work we studied Ras-mediated effects on the G sub(2) checkpoint in two human cell lines, MDAH041 immortalized fibroblasts and Saos-2 osteosarcoma cells. The transduction of the H-Ras mutants that retain certain functions (V12S35, V12G37, and V12C40 retain the ability to activate Raf or RalGDS or phosphatidylinositol 3-kinase, respectively) as well as the activated or dominant-negative mutants of RalA (V23 and N28, respectively) has revealed that the activation of Ras-RalGEFs-Ral pathway was responsible for the attenuation of the G sub(2) arrest induced by ethyl metanesulfonate or doxorubicin. Noteworthy, the activated RalA V23N49 mutant, which cannot interact with RLIP76/RalBP1 protein, one of the best studied Ral effectors, retained the ability to attenuate the DNA damage-induced G sub(2) arrest. Activation of the Ras-Ral signaling affected neither the level nor the intracellular localization of cyclin B1 and CDC2 but interfered with the CDC2 inhibitory phosporylation at Tyr super(15) and the decrease in the cyclin B/CDC2 kinase activity in damaged cells. The revealed function of the Ras-Ral pathway may contribute to the development of genetic instability in neoplastic cells.