The RNA-binding protein MEX3A is a prognostic factor and regulator of resistance to gemcitabine in pancreatic ductal adenocarcinoma.

Valentina Panzeri,Claudio Sette,Chiara Naro,Gabriele Capurso,Emanuela Pilozzi,Isabella Manni,Andrea Montori,Luisa De Latouliere,Andrea Sacconi,Giulia Piaggio,Alessia Capone,Silvia Di Agostino

doi:10.1002/1878-0261.12847

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a highly aggressive cancer. Most patients present with advanced disease at diagnosis, which only permits palliative chemotherapeutic treatments. RNA dysregulation is a hallmark of most human cancers, including PDAC. To test the impact of RNA processing dysregulation on PDAC pathology, we performed a bioinformatics analysis to identify RNA-binding proteins (RBPs) associated with prognosis. Among the 12 RBPs associated with progression-free survival, we focused on MEX3A because it was recently shown to mark an intestinal stem cell population that is refractory to chemotherapeutic treatments, a typical feature of PDAC. Increased expression of MEX3A was correlated with higher disease stage in PDAC patients and with tumor development in a mouse model of PDAC. Depletion of MEX3A in PDAC cells enhanced sensitivity to chemotherapeutic treatment with gemcitabine, whereas its expression was increased in PDAC cells selected upon chronic exposure to the drug. RNA-sequencing analyses highlighted hundreds of genes whose expression is sensitive to MEX3A expression, with significant enrichment in cell cycle genes. MEX3A binds to its target mRNAs, like cyclin-dependent kinase 6 (CDK6), and promotes their stability. Accordingly, knockdown of MEX3A caused a significant reduction in PDAC cell proliferation and in progression to the S phase of the cell cycle. These findings uncover a novel role for MEX3A in the acquisition and maintenance of chemoresistance by PDAC cells, suggesting that it may represent a novel therapeutic target for PDAC.

Highlights

Pancreatic ductal adenocarcinoma (PDAC) is one the most lethal human tumors, with 5-year survival rate < 9% [1,2]
Out of 12 genes that were associated with disease-free survival (DFS) in PDAC patients, we focused on MEX3A because its expression was associated with a subpopulation of intestinal stem cells that is refractory to chemotherapeutic treatments [20]
To search for RNA processing regulatory factors that may exert an impact on PDAC biology, we performed an unbiased bioinformatic screening by querying The Cancer Genome Atlas (TCGA) database for genes associated with disease outcome in surgically resected PDAC patients

Summary

Introduction

Pancreatic ductal adenocarcinoma (PDAC) is one the most lethal human tumors, with 5-year survival rate < 9% [1,2]. Recent genome-wide analyses of cancer cell transcriptomes have shown profound dysregulation of gene expression programs, at the level of RNA processing [4,5]. Most RBPs recognize specific sequences in the RNA and contribute to regulation of the human transcriptome. They generally act cooperatively by forming dynamic ribonucleoprotein (RNP) complexes, which modulate nuclear RNA processing and export to the cytoplasm, as well as stability, translation, and decay of mature transcripts in the cytoplasm [8,9]. Changes in the expression or activity of RBPs can directly lead to genome-wide changes in the cell transcriptome and proteome, which impact on oncogenic features and chemoresistance of cancer cells [10,11]

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Results

Conclusion