4.6 Article

Translational Regulation by hnRNP H/F Is Essential for the Proliferation and Survival of Glioblastoma

Journal

CANCERS
Volume 14, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/cancers14051283

Keywords

glioblastoma; translation; RNA-binding protein; hnRNP H; F; RNA G-quadruplex

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This study investigates the molecular mechanisms underlying protein synthesis deregulation in glioblastoma (GBM) and its impact on tumor progression and resistance to therapy. The results reveal the crucial role of RNA-binding proteins hnRNP H/F in controlling protein synthesis in GBM through overlapping mechanisms. Furthermore, hnRNP H/F are shown to potentiate cellular processes that contribute to the aggressive and resistant phenotype of GBMs, indicating their potential as therapeutic targets.
Simple Summary Developing effective treatments for glioblastoma (GBM), a highly aggressive brain tumor that is resistant to current therapies, is an urgent medical need that can be addressed by the in-depth study of basic biology for the identification of relevant targets. The aim of the present study was to investigate the molecular mechanisms underlying the deregulation of protein synthesis associated with GBM progression and resistance to treatments. Our present work demonstrates the role of the RNA-binding proteins hnRNP H/F as key players in the control of protein synthesis in GBM through different overlapping mechanisms. Furthermore, our results show that hnRNP H/F potentiate cellular processes underlying the aggressive and resistant phenotype of GBMs, thus indicating hnRNP H/F as a potential target for therapeutic intervention. Deregulation of mRNA translation is a widespread characteristic of glioblastoma (GBM), aggressive malignant brain tumors that are resistant to conventional therapies. RNA-binding proteins (RBPs) play a critical role in translational regulation, yet the mechanisms and impact of these regulations on cancer development, progression and response to therapy remain to be fully understood. Here, we showed that hnRNP H/F RBPs are potent regulators of translation through several mechanisms that converge to modulate the expression and/or the activity of translation initiation factors. Among these, hnRNP H/F regulate the phosphorylation of eIF4E and its translational targets by controlling RNA splicing of the A-Raf kinase mRNA, which in turn modulates the MEK-ERK/MAPK signaling pathway. The underlying mechanism involves RNA G-quadruplex (RG4s), RNA structures whose modulation phenocopies hnRNP H/F translation regulation in GBM cells. Our results highlighted that hnRNP H/F are essential for key functional pathways regulating proliferation and survival of GBM, highlighting its targeting as a promising strategy for improving therapeutic outcomes.

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