Litcius/Paper detail

FOXA1 regulates alternative splicing in prostate cancer

Marco Del Giudice, John G. Foster, Serena Peirone, Alberto Rissone, Livia Caizzi, Federica Gaudino, Caterina Parlato, Francesca Anselmi, Rebecca Arkell, Simonetta Guarrera, Salvatore Oliviero, Giuseppe Basso, Prabhakar Rajan, Matteo Cereda

2022Cell Reports34 citationsDOIOpen Access PDF

Abstract

Dysregulation of alternative splicing in prostate cancer is linked to transcriptional programs activated by AR, ERG, FOXA1, and MYC. Here, we show that FOXA1 functions as the primary orchestrator of alternative splicing dysregulation across 500 primary and metastatic prostate cancer transcriptomes. We demonstrate that FOXA1 binds to the regulatory regions of splicing-related genes, including HNRNPK and SRSF1. By controlling trans-acting factor expression, FOXA1 exploits an "exon definition" mechanism calibrating alternative splicing toward dominant isoform production. This regulation especially impacts splicing factors themselves and leads to a reduction of nonsense-mediated decay (NMD)-targeted isoforms. Inclusion of the NMD-determinant FLNA exon 30 by FOXA1-controlled oncogene SRSF1 promotes cell growth in vitro and predicts disease recurrence. Overall, we report a role for FOXA1 in rewiring the alternative splicing landscape in prostate cancer through a cascade of events from chromatin access, to splicing factor regulation, and, finally, to alternative splicing of exons influencing patient survival.

Topics & Concepts

Prostate cancerRNA splicingFOXA1Computational biologyAlternative splicingProstateBiologyCancer researchCancerBioinformaticsMedicineGeneticsGeneExonBreast cancerRNARNA Research and SplicingRNA modifications and cancerCancer-related molecular mechanisms research