Abstract 345: PTEN tumor suppressive effects in glioblastoma are partly mediated by MET downregulation via a p53-miR-34a axis

Glioblastoma (GBM) is the most common and most lethal primary malignant brain tumor. Two common alterations in GBM are loss of the tumor suppressor PTEN and upregulation of the oncogenic receptor tyrosine kinase MET. We uncovered a new connection between PTEN and MET expressions and functions in GBM. We found that PTEN expression in GBM cell lines (U87, U373, A172, LNZ-308) and primary cells (GBM8) inhibits MET expression. We uncovered the molecular basis and functional significance of this connection. Based on our previous work and published literature, PTEN stabilizes p53, p53 induces miR-34a expression, and miR-34a inhibits MET expression. We therefore hypothesized that PTEN inhibits MET by regulating p53 and miR-34a and that the PTEN tumor suppressive effects are partly mediated by MET downregulation. To verify the hypothesis, we first showed that PTEN restoration leads to miR-34a upregulation in GBM cells. We then showed that this latter effect is p53-dependent as p53 knockdown with a specific shRNA partly reversed PTEN induction of miR-34a. We also showed that PTEN-induced downregulation of MET expression can be rescued by inhibition of miR-34a with an anti-miR3a. We therefore established a new molecular cascade that links PTEN, p53, miR-34a and MET in GBM. To determine the functional relevance of this cascade, we assessed the effects of PTEN on GBM cell death and invasion also in the settings of shRNA-mediated knockdown of p53 and anti-miR-mediated inhibition of miR-34a. PTEN strongly induced GBM cell death (measured by Annexin V/7AAD flow cytometry) and inhibited transwell invasion though a collagen IV matrix. The PTEN effects on cell death and invasion were partly reduced by p53 knock-down and miR-34a inhibition. This demonstrates that the tumor suppressive effects of PTEN in GBM are partly mediated by the PTEN/p53/miR-34a/MET cascade. In ongoing experiments, we are investigating the expressions of PTEN, MET, p53 and miR-34a in human GBM tissues to determine if there are potential correlations that are consistent with our above findings. Altogether, this study establishes a new molecular and functional link between PTEN and MET that involves p53 and miR-34a in GBM. Citation Format: Fadilla Guessous, Nichola A. Cruickshanks, Ying Zhang, David Schiff, Jann Sarkaria, Roger Abounader. PTEN tumor suppressive effects in glioblastoma are partly mediated by MET downregulation via a p53-miR-34a axis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 345. doi:10.1158/1538-7445.AM2017-345