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Pan-cancer analysis of mRNA stability for decoding tumour post-transcriptional programs

Gabrielle Perron, Pouria Jandaghi, Elham Moslemi, Tamiko Nishimura, Maryam Rajaee, Rached Alkallas, Tianyuan Lu, Yasser Riazalhosseini, Hamed S. Najafabadi

2022Communications Biology36 citationsDOIOpen Access PDF

Abstract

Measuring mRNA decay in tumours is a prohibitive challenge, limiting our ability to map the post-transcriptional programs of cancer. Here, using a statistical framework to decouple transcriptional and post-transcriptional effects in RNA-seq data, we uncover the mRNA stability changes that accompany tumour development and progression. Analysis of 7760 samples across 18 cancer types suggests that mRNA stability changes are ~30% as frequent as transcriptional events, highlighting their widespread role in shaping the tumour transcriptome. Dysregulation of programs associated with >80 RNA-binding proteins (RBPs) and microRNAs (miRNAs) drive these changes, including multi-cancer inactivation of RBFOX and miR-29 families. Phenotypic activation or inhibition of RBFOX1 highlights its role in calcium signaling dysregulation, while modulation of miR-29 shows its impact on extracellular matrix organization and stemness genes. Overall, our study underlines the integral role of mRNA stability in shaping the cancer transcriptome, and provides a resource for systematic interrogation of cancer-associated stability pathways.

Topics & Concepts

microRNATranscriptomeBiologyMessenger RNACancerGenePost-transcriptional regulationTranscriptional regulationRNAGene expressionCancer researchRNA-binding proteinRegulation of gene expressionComputational biologyGeneticsCancer-related molecular mechanisms researchRNA Research and SplicingRNA modifications and cancer
Pan-cancer analysis of mRNA stability for decoding tumour post-transcriptional programs | Litcius