Pancreatic cancer is one of the most lethal human neoplasms, and despite advances in the understanding of the molecular complexity involved in the development and progression of this disease, little of this new information has been translated into improvements in therapy and prognosis. Ezrin (EZR) is a protein that regulates multiple cellular functions, including cell proliferation, survival, morphogenesis, adhesion, and motility. In pancreatic cancer, EZR is highly expressed and reflects an unfavorable prognosis, whereas EZR silencing ameliorates the malignant phenotype of pancreatic cancer cells. NSC305787 was identified as a pharmacological EZR inhibitor with favorable pharmacokinetics and antineoplastic activity. Here, we endeavored to investigate the impact of EZR expression on survival outcomes and its associations with molecular and biological characteristics in The Cancer Genome Atlas pancreatic adenocarcinoma cohort. We also assessed the potential antineoplastic effects of NSC305787 in pancreatic cancer cell lines. High EZR expression was an independent predictor of worse survival outcomes. Functional genomics analysis indicated that EZR contributes to multiple cancer-related pathways, including PI3K/AKT/mTOR signaling, NOTCH signaling, estrogen-mediated signaling, and apoptosis. In pancreatic cells, NSC305787 reduced cell viability, clonal growth, and migration. Our exploratory molecular studies identified that NSC305787 modulates the expression and activation of key regulators of the cell cycle, proliferation, DNA damage, and apoptosis, favoring a tumor-suppressive molecular network. In conclusion, EZR expression is an independent prognosis marker in pancreatic cancer. Our study identifies a novel molecular axis underlying the antineoplastic activity of NSC305787 and provides insights into the development of therapeutic strategies for pancreatic cancer.
Keywords: Antineoplastic activity; Ezrin; Functional genomics; NSC305787; Pancreatic cancer.
© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.