SOX2 interacts with hnRNPK to modulate alternative splicing in mouse embryonic stem cells

Abstract

BackgroundSOX2 is a determinant transcription factor that governs the balance between stemness and differentiation by influencing transcription and splicing programs. The role of SOX2 is intricately shaped by its interactions with specific partners. In the interactome of SOX2 in mouse embryonic stem cells (mESCs), there is a cohort of heterogeneous nuclear ribonucleoproteins (hnRNPs) that contributes to multiple facets of gene expression regulation. However, the cross-talk between hnRNPs and SOX2 in gene expression regulation remains unclear.ResultsHere we demonstrate the indispensable role of the co-existence of SOX2 and heterogeneous nuclear ribonucleoprotein K (hnRNPK) in the maintenance of pluripotency in mESCs. While hnRNPK directly interacts with the SOX2-HMG DNA-binding domain and induces the collapse of the transcriptional repressor 7SK small nuclear ribonucleoprotein (7SK snRNP), hnRNPK does not influence SOX2-mediated transcription, either by modulating the interaction between SOX2 and its target cis-regulatory elements or by facilitating transcription elongation as indicated by the RNA-seq analysis. Notably, hnRNPK enhances the interaction of SOX2 with target pre-mRNAs and collaborates with SOX2 in regulating the alternative splicing of a subset of pluripotency genes.ConclusionsThese data reveal that SOX2 and hnRNPK have a direct protein-protein interaction, and shed light on the molecular mechanisms by which hnRNPK collaborates with SOX2 in alternative splicing in mESCs.