New insights into the centrosome‐associated spliceosome components as regulators of ciliogenesis and tissue identity

Abstract

AbstractBiomolecular condensates are membrane‐less assemblies of proteins and nucleic acids. Centrosomes are biomolecular condensates that play a crucial role in nuclear division, cytoskeletal remodeling, and cilia formation in animal cells. Spatial omics technology is providing new insights into the dynamic exchange of spliceosome components between the nucleus and the centrosome/cilium. Intriguingly, centrosomes are emerging as cytoplasmic sites for information storage, enriched with RNA molecules and RNA‐processing proteins. Furthermore, growing evidence supports the view that nuclear spliceosome components assembled at the centrosome function as potential coordinators of splicing subprograms, pluripotency, and cell differentiation. In this article, we first discuss the current understanding of the centrosome/cilium complex, which controls both stem cell differentiation and pluripotency. We next explore the molecular mechanisms that govern splicing factor assembly and disassembly around the centrosome and examine how RNA processing pathways contribute to ciliogenesis. Finally, we discuss numerous unresolved compelling questions regarding the centrosome‐associated spliceosome components and transcript variants within the cytoplasm as sources of RNA‐based secondary messages in the regulation of cell identity and cell fate determination.This article is categorized under: RNA‐Based Catalysis > RNA Catalysis in Splicing and Translation RNA Interactions with Proteins and Other Molecules > RNA‐Protein Complexes RNA Processing > Splicing Regulation/Alternative Splicing RNA Processing > RNA Processing