Document Type
Article
Publication Date
1-27-2011
Abstract
The PI3K/AKT signaling pathway is aberrant in a wide variety of cancers. Downstream effectors of AKT are involved in survival, growth and metabolic-related pathways. In contrast, contradictory data relating to AKT effects on cell motility and invasion, crucial prometastatic processes, have been reported pointing to a potential cell type and isoform type-specific AKT-driven function. By implication, study of AKT signaling should optimally be conducted in an appropriate intracellular environment. Prognosis in soft-tissue sarcoma (STS), the aggressive malignancies of mesenchymal origin, is poor, reflecting our modest ability to control metastasis, an effort hampered by lack of insight into molecular mechanisms driving STS progression and dissemination. We examined the impact of the cancer progression-relevant AKT pathway on the mesenchymal tumor cell internal milieu. We demonstrate that AKT1 activation induces STS cell motility and invasiveness at least partially through a novel interaction with the intermediate filament vimentin (Vim). The binding of AKT (tail region) to Vim (head region) results in Vim Ser39 phosphorylation enhancing the ability of Vim to induce motility and invasion while protecting Vim from caspase-induced proteolysis. Moreover, vimentin phosphorylation was shown to enhance tumor and metastasis growth in vivo. Insights into this mesenchymal-related molecular mechanism may facilitate the development of critically lacking therapeutic options for these devastating malignancies.
Recommended Citation
Zhu, Q-S; Rosenblatt, K; Huang, K-L; Lahat, G; Brobey, R; Bolshakov, S; Nguyen, T; Ding, Z; Belousov, R; Bill, K; Luo, X; Lazar, A; Dicker, MD, PhD, Adam; Mills, G B; Hung, M-C; and Lev, D, "Vimentin is a novel AKT1 target mediating motility and invasion." (2011). Department of Radiation Oncology Faculty Papers. Paper 34.
https://jdc.jefferson.edu/radoncfp/34
PubMed ID
20856200
Comments
This article has been peer reviewed. It was published in: Oncogene
Volume 30, Issue 4, January 2011, Pages 457-70.
The published version is available at DOI: 10.1038/onc.2010.421 Copyright © Nature