Abstract
Mutant K-Ras and survivin both contribute to oncogenesis, but little is known about K-Ras requirement for the maintenance of the high levels of survivin in human tumors. Here we demonstrate that K-Ras depletion significantly decreases survivin levels in human cancer cells that harbor mutant but not wild type K-Ras. K-Ras depletion attenuates both basal and drug-induced survivin levels. The mechanism by which K-Ras depletion decreases survivin levels is through ubiquitination and proteasomal degradation of survivin and is independent of survivin-Thr-34 phosphorylation. Depletion of RalA and RalB, but not Raf-1, Akt1 and Akt2, decreases survivin levels, suggesting that K-Ras may regulate survivin stability through its RalGDS/Ral but not PI3K/Akt and Raf-1/Mek effector pathways. Furthermore, the ability of mutant K-Ras to induce anchorage-independent growth, invasion and survival is compromised by depletion of survivin. These studies suggest that mutant K-Ras contributes to the maintenance of the aberrantly high levels of survivin in tumors by regulating its stability, and that the ability of mutant K-Ras to induce malignant transformation is, at least in part, dependent on these high levels of survivin.