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Enhancers regulate 3′ end processing activity to control expression of alternative 3′UTR isoforms

Buki Kwon, Mervin M. Fansler, Neil D. Patel, Jihye Lee, Weirui Ma, Christine Mayr

2022Nature Communications48 citationsDOIOpen Access PDF

Abstract

Multi-UTR genes are widely transcribed and express their alternative 3'UTR isoforms in a cell type-specific manner. As transcriptional enhancers regulate mRNA expression, we investigated if they also regulate 3'UTR isoform expression. Endogenous enhancer deletion of the multi-UTR gene PTEN did not impair transcript production but prevented 3'UTR isoform switching which was recapitulated by silencing of an enhancer-bound transcription factor. In reporter assays, enhancers increase transcript production when paired with single-UTR gene promoters. However, when combined with multi-UTR gene promoters, they change 3'UTR isoform expression by increasing 3' end processing activity of polyadenylation sites. Processing activity of polyadenylation sites is affected by transcription factors, including NF-κB and MYC, transcription elongation factors, chromatin remodelers, and histone acetyltransferases. As endogenous cell type-specific enhancers are associated with genes that increase their short 3'UTRs in a cell type-specific manner, our data suggest that transcriptional enhancers integrate cellular signals to regulate cell type-and condition-specific 3'UTR isoform expression.

Topics & Concepts

EnhancerGene isoformBiologyUntranslated regionPromoterPolyadenylationThree prime untranslated regionEnhancer RNAsRegulation of gene expressionTranscription factorGene expressionTranscription (linguistics)GeneGeneticsMessenger RNALinguisticsPhilosophyRNA Research and SplicingCancer-related gene regulationRNA modifications and cancer
Enhancers regulate 3′ end processing activity to control expression of alternative 3′UTR isoforms | Litcius