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Multilayered control of splicing regulatory networks by DAP3 leads to widespread alternative splicing changes in cancer

Jian Han, Ömer An, Xi Ren, Yangyang Song, Sze Jing Tang, Haoqing Shen, Xinyu Ke, Vanessa Hui En Ng, Daryl Jin Tai Tay, Hui Tan, Dennis Kappei, Henry Yang, Leilei Chen

2022Nature Communications24 citationsDOIOpen Access PDF

Abstract

The dynamic regulation of alternative splicing requires coordinated participation of multiple RNA binding proteins (RBPs). Aberrant splicing caused by dysregulation of splicing regulatory RBPs is implicated in numerous cancers. Here, we reveal a frequently overexpressed cancer-associated protein, DAP3, as a splicing regulatory RBP in cancer. Mechanistically, DAP3 coordinates splicing regulatory networks, not only via mediating the formation of ribonucleoprotein complexes to induce substrate-specific splicing changes, but also via modulating splicing of numerous splicing factors to cause indirect effect on splicing. A pan-cancer analysis of alternative splicing across 33 TCGA cancer types identified DAP3-modulated mis-splicing events in multiple cancers, and some of which predict poor prognosis. Functional investigation of non-productive splicing of WSB1 provides evidence for establishing a causal relationship between DAP3-modulated mis-splicing and tumorigenesis. Together, our work provides critical mechanistic insights into the splicing regulatory roles of DAP3 in cancer development.

Topics & Concepts

RNA splicingAlternative splicingComputational biologyControl (management)BiologyGeneticsComputer scienceMedicineGeneMessenger RNAArtificial intelligenceRNARNA Research and SplicingRNA and protein synthesis mechanismsRNA modifications and cancer