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Molecular and Cellular Biology Volume 26, 2006 - Issue 20
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Article

mTOR-Independent Translational Control of the Extrinsic Cell Death Pathway by RalA

Amith Panner1 Department of Neurological Surgery;2 The Brain Tumor Research Center;3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
,
Jean L. Nakamura3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
,
Andrew T. Parsa1 Department of Neurological Surgery;2 The Brain Tumor Research Center;3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
,
Pablo Rodriguez-Viciana3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
,
Mitchel S. Berger1 Department of Neurological Surgery;2 The Brain Tumor Research Center;3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
,
David Stokoe1 Department of Neurological Surgery;2 The Brain Tumor Research Center;3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875
&
Russell O. Pieper1 Department of Neurological Surgery;2 The Brain Tumor Research Center;3 The UCSF Comprehensive Cancer Center, University of California—San Francisco, 2340 Sutter St., San Francisco, California94115-0875Correspondence[email protected]
 show all
Pages 7345-7357 | Received 20 Jan 2006, Accepted 27 Jul 2006, Published online: 27 Mar 2023
 
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Abstract

Oncogenic potential is associated with translational regulation, and the prevailing view is that oncogenes use mTOR-dependent pathways to up-regulate the synthesis of proteins critical for transformation. In this study, we show that RalA, a key mediator of Ras transformation, is also linked to the translational machinery. At least part of this linkage, however, is independent of mTOR and acts through RalBP1 to suppress cdc42-mediated activation of S6 kinase and the translation of the antiapoptotic protein FLIPS. This action, rather than contributing to transformation, opens a latent tumor-suppressive mechanism that can be activated by tumor necrosis factor-related apoptosis-inducing ligand. These results show that the translational machinery is linked to tumor suppression as well as cell-proliferative pathways and that the reestablishment of cell death pathways by activation of the Ral oncogenic program provides a means for selective therapeutic targeting of Ral-driven malignancies.

Supplemental material for this article may be found at http://mcb.asm.org/.

This work was supported by National Institutes of Health Awards RO1 CA94989, RO1 CA115638, and P50 CA97257 to R.O.P.

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