Abstract
Although activated Ras proteins are usually associated with driving growth and transformation, they may also induce senescence, apoptosis, and terminal differentiation. The subversion of these anti-neoplastic effects during Ras-dependent tumor development may be as important as the acquisition of the pro-neoplastic effects. None of the currently identified potential Ras effector proteins can satisfactorily explain the apoptotic action of Ras. Consequently, we have sought to identify novel Ras effectors that may be responsible for apoptosis induction. By examining the EST data base, we identified a potential Ras association domain in the tumor suppressor RASSF1. We now show that RASSF1 binds Ras in a GTP-dependent manner, both in vivo and directly in vitro. Moreover, activated Ras enhances and dominant negative Ras inhibits the cell death induced by transient transfection of RASSF1 into 293-T cells. This cell death appears to be apoptotic in nature, as RASSF1-transfected 293-T cells exhibit membrane blebbing and can be rescued by the addition of a caspase inhibitor. Thus, the RASSF1 tumor suppressor may serve as a novel Ras effector that mediates the apoptotic effects of oncogenic Ras.
Highlights
Accelerated PublicationTHE JOURNAL OF BIOLOGICAL CHEMISTRY Vol 275, No 46, Issue of November 17, pp. 35669 –35672, 2000
Activated Ras proteins are usually associated with driving growth and transformation, they may induce senescence, apoptosis, and terminal differentiation
RASSF1 Has the Characteristics of a Novel Ras Effector— Many Ras effectors share a conserved structural domain that is responsible for mediating the interaction with Ras
Summary
THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol 275, No 46, Issue of November 17, pp. 35669 –35672, 2000. Activated Ras proteins are usually associated with driving growth and transformation, they may induce senescence, apoptosis, and terminal differentiation. The subversion of these anti-neoplastic effects during Ras-dependent tumor development may be as important as the acquisition of the pro-neoplastic effects. Activated Ras proteins mediate a broad range of biological effects associated with enhanced growth and transformation These include the induction of DNA synthesis [8], reduced growth factor dependence [9], loss of contact inhibition [10], inhibition of terminal differentiation [11], resistance to apoptosis [12], enhanced motility [13], metastasis/invasion Our results provide a mechanistic explanation for the pro-apoptotic functions of Ras and how these functions may be subverted in the development of human tumors
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