1. Identification of novel synthetic lethal vulnerability in non small cell lung cancer by co targeting TMPRSS4 and DDR1
- Author
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Villalba-Esparza, M. (María), Redín, E. (Esther), Expósito, F. (Francisco), Pajares, M.J. (María José), Sainz, C. (Cristina), Hervas, D. (D.), Guruceaga, E. (Elizabeth), Diaz-Lagares, A. (Ángel), Cirauqui, C. (Cristina), Redrado, M. (Miriam), Valencia, K. (Karmele), Andrea, C.E. (Carlos Eduardo) de, Jantus-Lewintre, E. (Eloisa), Camps, C. (Carlos), López-López, R. (Rafael), Lahoz, A. (Agustín), Montuenga-Badia, L.M. (Luis M.), Pio, R. (Rubén), Sandoval, J. (Juan), and Calvo-González, A. (Alfonso)
- Subjects
Ciencias de la Salud::Oncología [Materias Investigacion] - Abstract
Finding novel targets in non-small cell lung cancer (NSCLC) is highly needed and identification of synthetic lethality between two genes is a new approach to target NSCLC. We previously found that TMPRSS4 promotes NSCLC growth and constitutes a prognostic biomarker. Here, through large-scale analyses across 5 public databases we identified consistent co-expression between TMPRSS4 and DDR1. Similar to TMPRSS4, DDR1 promoter was hypomethylated in NSCLC in 3 independent cohorts and hypomethylation was an independent prognostic factor of disease-free survival. Treatment with 5-azacitidine increased DDR1 levels in cell lines, suggesting an epigenetic regulation. Cells lacking TMPRSS4 were highly sensitive to the cytotoxic effect of the DDR1 inhibitor dasatinib. TMPRSS4/DDR1 double knock-down (KD) cells, but not single KD cells suffered a G0/G1 cell cycle arrest with loss of E2F1 and cyclins A and B, increased p21 levels and a larger number of cells in apoptosis. Moreover, double KD cells were highly sensitized to cisplatin, which caused massive apoptosis (~40%). In vivo studies demonstrated tumor regression in double KD-injected mice. In conclusion, we have identified a novel vulnerability in NSCLC resulting from a synthetic lethal interaction between DDR1 and TMPRSS4.
- Published
- 2019