The RNA-binding profile of the splicing factor SRSF6 in immortalized human pancreatic β-cells

In pancreatic beta-cells, the expression of the splicing factor SRSF6 is regulated by GLIS3, a transcription factor encoded by a diabetes susceptibility gene. SRSF6 down-regulation promotes beta-cell demise through splicing dysregulation of central genes for beta-cells function and survival, but how RNAs are targeted by SRSF6 remains poorly understood. Here, we define the SRSF6 binding landscape in the human pancreatic beta-cell line EndoC-beta H1 by integrating individual-nucleotide resolution UV cross-linking and immuno-precipitation (iCLIP) under basal conditions with RNA sequencing after SRSF6 knockdown. We detect thousands of SRSF6 bindings sites in coding sequences. Motif analyses suggest that SRSF6 specifically recognizes a purine-rich consensus motif consisting of GAA triplets and that the number of contiguous GAA triplets correlates with increasing binding site strength. The SRSF6 positioning determines the splicing fate. In line with its role in beta-cell function, we identify SRSF6 binding sites on regulated exons in several diabetes susceptibility genes. In a proof-of-principle, the splicing of the susceptibility gene LMO7 is modulated by antisense oligonucleotides. Our present study unveils the splicing regulatory landscape of SRSF6 in immortalized human pancreatic beta-cells.

Automated summary

SRSF6 plays a crucial role in splicing regulation in immortalized human pancreatic beta-cells by recognizing specific motifs and determining splicing fate through its positioning. The binding sites of SRSF6 on regulated exons in several diabetes susceptibility genes are identified, highlighting its significance in beta-cell function and survival.