CAR-SPLASH identifies nascent pre-mRNA structures implicated in kinetic coupling and alternative splicing

Pre-mRNA splicing is kinetically coupled to transcription as shown by the widespread effects of transcription speed on alternative splicing outcomes. The molecular basis for such kinetic coupling is incompletely understood, but one potential mechanism is through elongation rate dependent alternative folding pathways of the nascent pre-mRNA. To search for RNA structures in nascent pre-mRNA, we modified SPLASH (1) ( S equencing of P soralen Crosslinked, L igated A nd S elected H ybrids) for use with C hromatin A ssociated R NA. We applied this new method called CAR-SPLASH to cells expressing WT and slow mutant RNA polymerase II and identified > 3000 intramolecular RNA structures of which > 400 are proximal to splice sites. Antisense oligonucleotide (ASO) disruption of several such structures that sequester splice sites has a major impact on alternative splicing outcomes, even though the ASOs do not directly disrupt splice sites. ASO disruption of novel regulatory elements that we designate “RNA kinetic switches”, modified alternative splicing of NISCH Exon 18, GAK Exon 7 and MEGF8 Exon 14 in a way that depends on the rate of transcription elongation. We propose that these switches mediate kinetic coupling via effects of transcription speed on folding of nascent RNA structures that modulate alternative splicing, and that many nascent RNA structures can thereby serve as new targets for splice modifying ASOs.