Litcius/Paper detail

Regulatory interplay between SR proteins governs<i>CLK1</i>kinase splice variants production

Lulzim Shkreta, Aurélie Delannoy, Johanne Toutant, Benoı̂t Chabot

2024RNA11 citationsDOIOpen Access PDF

Abstract

The CLK1 kinase phosphorylates SR proteins to modulate their splicing regulatory activity. Skipping of alternative exon 4 on the CLK1 pre-mRNA produces a CLK1 variant lacking the catalytic site. Here, we aimed to understand how various SR proteins integrate into the regulatory program that controls CLK1 exon 4 splicing. Previously, we observed that the depletion of SRSF10 promoted the inclusion of CLK1 exon 4. Using the expression of tagged proteins and CRISPR/Cas9-mediated knockouts in HCT116 cells, we now identify TRA2β, TRA2α, SRSF4, SRSF5, SRSF7, SRSF8, and SRSF9 as activators of exon 4 inclusion. In contrast, SRSF3, SRSF10, and SRSF12 elicit exon 4 skipping. Using CRISPR/dCas13Rx and RNA immunoprecipitation assays, we map an enhancer in exon 4 interacting with TRA2β. Notably, CLK1 kinase inhibitors antagonized the repressor activity of HA-SRSF10, HA-SRSF12, and HA-SRSF3. Our results suggest that CLK1 exon 4 inclusion is determined primarily by a balance between the activities of TRA2 proteins and CLK-phosphorylated SRSF3. CLK-phosphorylated SRSF10 and SRSF12 would interact with TRA2 proteins to prevent their enhancer activity, allowing SRSF3 to enforce exon 4 skipping more efficiently. Our study provides insight into the complex regulatory network controlling the alternative splicing of CLK1 , which uses CLK1-mediated phosphorylation of SR proteins to regulate the inclusion of catalytic exon 4 in CLK1 transcripts.

Topics & Concepts

BiologyspliceGeneticsComputational biologyAlternative splicingCell biologyGeneExonRNA Research and SplicingChronic Lymphocytic Leukemia ResearchRNA modifications and cancer