Research Papers:
Anti-neoplastic drugs increase caveolin-1-dependent migration, invasion and metastasis of cancer cells
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Abstract
Natalia I. Díaz-Valdivia1, Claudia C. Calderón1, Jorge E. Díaz1,2, Lorena Lobos-González1,3, Hugo Sepulveda5, Rina J. Ortíz1,7, Samuel Martinez1, Veronica Silva3, Horacio J. Maldonado1, Patricio Silva2, Sergio Wehinger4, Verónica A. Burzio3,6, Vicente A. Torres2, Martín Montecino5, Lisette Leyton1 and Andrew F.G. Quest1
1Cellular Communication Laboratory, Center for Molecular Studies of the Cell (CEMC), Advanced Center for Chronic Diseases (ACCDiS), Faculty of Medicine, Universidad de Chile, Santiago, Chile
2Institute for Research in Dental Sciences, Faculty of Dentistry, Universidad de Chile, Santiago, Chile
3Fundación Ciencia & Vida, Santiago, Chile
4Faculty of Health Sciences, University of Talca, Interdisciplinary Excellence Research Program Healthy Ageing (PIEI-ES), Talca, Chile
5Gene Regulation Laboratory, Center for Biomedical Research, Faculty of Biological Sciences and Faculty of Medicine, Universidad Andrés Bello, Santiago, Chile
6Faculty of Biological Sciences, Universidad Andrés Bello, Santiago, Chile
7Universidad Bernardo O Higgins, Facultad de Salud, Departamento de Ciencias Químicas y Biológicas, Santiago, Chile
Correspondence to:
Andrew F.G. Quest, email: [email protected]
Lisette Leyton, email: [email protected]
Keywords: caveolin-1; epigenetic silencing; chemotherapy; cell signaling; reactive oxygen species
Abbreviations: CAV1: caveolin-1; MDR: multidrug resistance; ROS: reactive oxygen species; Y14: tyrosine 14
Received: March 21, 2017 Accepted: November 16, 2017 Published: December 05, 2017
ABSTRACT
Expression of the scaffolding protein Caveolin-1 (CAV1) enhances migration and invasion of metastatic cancer cells. Yet, CAV1 also functions as a tumor suppressor in early stages of cancer, where expression is suppressed by epigenetic mechanisms. Thus, we sought to identify stimuli/mechanisms that revert epigenetic CAV1 silencing in cancer cells and evaluate how this affects their metastatic potential. We reasoned that restricted tissue availability of anti-neoplastic drugs during chemotherapy might expose cancer cells to sub-therapeutic concentrations, which activate signaling pathways and the expression of CAV1 to favor the acquisition of more aggressive traits. Here, we used in vitro [2D, invasion] and in vivo (metastasis) assays, as well as genetic and biochemical approaches to address this question. Colon and breast cancer cells were identified where CAV1 levels were low due to epigenetic suppression and could be reverted by treatment with the methyltransferase inhibitor 5’-azacytidine. Exposure of these cells to anti-neoplastic drugs for short periods of time (24-48 h) increased CAV1 expression through ROS production and MEK/ERK activation. In colon cancer cells, increased CAV1 expression enhanced migration and invasion in vitro via pathways requiring Src-family kinases, as well as Rac-1 activity. Finally, elevated CAV1 expression in colon cancer cells following exposure in vitro to sub-cytotoxic drug concentrations increased their metastatic potential in vivo. Therefore exposure of cancer cells to anti-neoplastic drugs at non-lethal drug concentrations induces signaling events and changes in transcription that favor CAV1-dependent migration, invasion and metastasis. Importantly, this may occur in the absence of selection for drug-resistance.
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