The U1‐70K and SRSF1 interaction is modulated by phosphorylation during the early stages of spliceosome assembly

Abstract

AbstractIn eukaryotes, pre‐mRNA splicing is vital for RNA processing and orchestrated by the spliceosome, whose assembly starts with the interaction between U1‐70K and SR proteins. Despite the significance of the U1‐70K/SR interaction, the dynamic nature of the complex and the challenges in obtaining soluble U1‐70K have impeded a comprehensive understanding of the interaction at the structural level for decades. We overcome the U1‐70K solubility issues, enabling us to characterize the interaction between U1‐70K and SRSF1, a representative SR protein. We unveil specific interactions: phosphorylated SRSF1 RS with U1‐70K BAD1, and SRSF1 RRM1 with U1‐70K RRM. The RS/BAD1 interaction plays a dominant role, whereas the interaction between the RRM domains further enhances the stability of the U1‐70K/SRSF1 complex. The RRM interaction involves the C‐terminal extension of U1‐70K RRM and the conserved acid patches on SRSF1 RRM1 that is involved in SRSF1 phase separation. Our circular dichroism spectra reveal that BAD1 adapts an α‐helical conformation and RS is intrinsically disordered. Intriguingly, BAD1 undergoes a conformation switch from α‐helix to β‐strand and random coil upon RS binding. In addition to the regulatory mechanism via SRSF1 phosphorylation, the U1‐70K/SRSF1 interaction is also regulated by U1‐70K BAD1 phosphorylation. We find that U1‐70K phosphorylation inhibits the U1‐70K and SRSF1 interaction. Our structural findings are validated through in vitro splicing assays and in‐cell saturated domain scanning using the CRISPR method, providing new insights into the intricate regulatory mechanisms of pre‐mRNA splicing.