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Reactivation of p53 by a Cytoskeletal Sensor to Control the Balance between DNA Damage and Tumor Dissemination

Research output: Contribution to journalArticle

Cecilia Herraiz, Fernando Calvo, Pahini Pandya, Gaia Cantelli, Irene Rodriguez-Hernandez, Jose L. Orgaz, Nara Kang, Tinghine Chu, Erik Sahai, Victoria Sanz-Moreno

Original languageEnglish
Article numberdjv289
Pages (from-to)1-14
Number of pages14
JournalJournal of the National Cancer Institute
Volume108
Issue number1
DOIs
Publication statusPublished - 1 Jan 2016

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Abstract

Background: Abnormal cell migration and invasion underlie metastasis, and actomyosin contractility is a key regulator of tumor invasion. The links between cancer migratory behavior and DNA damage are poorly understood. Methods: Using 3D collagen systems to recapitulate melanoma extracellular matrix, we analyzed the relationship between the actomyosin cytoskeleton of migrating cells and DNA damage. We used multiple melanoma cell lines and microarray analysis to study changes in gene expression and in vivo intravital imaging (n = 7 mice per condition) to understand how DNA damage impacts invasive behavior. We used Protein Tissue Microarrays (n = 164 melanomas) and patient databases (n = 354 melanoma samples) to investigate the associations between markers of DNA damage and actomyosin cytoskeletal features. Data were analyzed with Student's and multiple t tests, Mann-Whitney's test, one-way analysis of variance, and Pearson correlation. All statistical tests were two-sided. Results: Melanoma cells with low levels of Rho-ROCK-driven actomyosin are subjected to oxidative stress-dependent DNA damage and ATM-mediated p53 protein stabilization. This results in a specific transcriptional signature enriched in DNA damage/oxidative stress responsive genes, including Tumor Protein p53 Inducible Protein 3 (TP53I3 or PIG3). PIG3, which functions in DNA damage repair, uses an unexpected catalytic mechanism to suppress Rho-ROCK activity and impair tumor invasion in vivo. This regulation was suppressed by antioxidants. Furthermore, PIG3 levels decreased while ROCK1/2 levels increased in human metastatic melanomas (ROCK1 vs PIG3; r =-0.2261, P

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