Litcius/Paper detail

Cell-type specific regulator RBPMS switches alternative splicing via higher-order oligomerization and heterotypic interactions with other splicing regulators

Yi Yang, Giselle Lee, Erick E Nakagaki-Silva, Yuling Huang, Matthew Peacey, Ruth Partridge, Clare Gooding, Christopher W. J. Smith

2023Nucleic Acids Research13 citationsDOIOpen Access PDF

Abstract

Alternative pre-mRNA splicing decisions are regulated by RNA binding proteins (RBPs) that can activate or repress regulated splice sites. Repressive RBPs typically harness multivalent interactions to bind stably to target RNAs. Multivalency can be achieved by homomeric oligomerization and heteromeric interactions with other RBPs, often mediated by intrinsically disordered regions (IDRs), and by possessing multiple RNA binding domains. Cell-specific splicing decisions often involve the action of widely expressed RBPs, which are able to bind multivalently around target exons, but without effect in the absence of a cell-specific regulator. To address how cell-specific regulators can collaborate with constitutive RBPs in alternative splicing regulation, we used the smooth-muscle specific regulator RBPMS. Recombinant RBPMS is sufficient to confer smooth muscle cell specific alternative splicing of Tpm1 exon 3 in cell-free assays by preventing assembly of ATP-dependent splicing complexes. This activity depends upon a C-terminal IDR that facilitates dynamic higher-order self-assembly, cooperative binding to multivalent RNA and interactions with widely expressed splicing co-regulators, including MBNL1 and RBFOX2, allowing cooperative assembly of stable cell-specific regulatory complexes.

Topics & Concepts

BiologyRNA splicingAlternative splicingRNA-binding proteinMinigeneRegulatorCell biologyExonRNARibonucleoproteinGeneticsGeneRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms