Emerging roles of centrosome cohesion

Dang, Hairuo; Schiebel, Elmar

doi:10.1098/rsob.220229

Cited by 12 publications

(7 citation statements)

References 151 publications

(259 reference statements)

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“…NEK2 dissolves the centrosome linker in G2/prophase through phosphorylation of the linker components C-Nap1, rootletin and CEP68 (Remo et al, 2020). This allows the two centrosomes to move apart and to organize the two poles of the mitotic spindle (Dang & Schiebel, 2022). In cancer cells, NEK2 accumulates in nuclear speckles and regulates alternative splicing by phosphorylating SRSF1 (Figure 2b).…”

Section: Centrosome-related Proteins As Regulators Of Alternative Spl...mentioning

confidence: 99%

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

et al. 2023

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Biomolecular 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 centrosomeassociated 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.

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Section: Centrosome-related Proteins As Regulators Of Alternative Spl...mentioning

confidence: 99%

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

et al. 2023

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“…It has been proposed that a multitude of low-affinity interactions between linker filaments are the basis for the linker-based centrosome cohesion (Dang & Schiebel, 2022). An alternative model for centrosome cohesion is the phase separation of C-Nap1 at the proximal end of centrioles.…”

Section: Introductionmentioning

confidence: 99%

Centrosome linker diversity and its function in centrosome clustering and mitotic spindle formation

Theile,

Li,

Dang

et al. 2023

The EMBO Journal

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The centrosome linker joins the two interphase centrosomes of a cell into one microtubule organizing center. Despite increasing knowledge on linker components, linker diversity in different cell types and their role in cells with supernumerary centrosomes remained unexplored. Here, we identified Ninein as a C-Nap1anchored centrosome linker component that provides linker function in RPE1 cells while in HCT116 and U2OS cells, Ninein and Rootletin link centrosomes together. In interphase, overamplified centrosomes use the linker for centrosome clustering, where Rootletin gains centrosome linker function in RPE1 cells. Surprisingly, in cells with centrosome overamplification, C-Nap1 loss prolongs metaphase through persistent activation of the spindle assembly checkpoint indicated by BUB1 and MAD1 accumulation at kinetochores. In cells lacking C-Nap1, the reduction of microtubule nucleation at centrosomes and the delay in nuclear envelop rupture in prophase probably cause mitotic defects like multipolar spindle formation and chromosome mis-segregation. These defects are enhanced when the kinesin HSET, which normally clusters multiple centrosomes in mitosis, is partially inhibited indicating a functional interplay between C-Nap1 and centrosome clustering in mitosis.

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“…Changes in the actin cytoskeleton affect other cellular responses such as changes in gene transcription, the microtubule cytoskeleton or vesicular transport. Besides transport, mobility and mechanical support, the microtubule cytoskeleton is also involved in chromosome segregation, centriole duplication and formation of primary cilia [ 98 , 99 , 100 ]. Rho GTPases have been extensively probed for their roles in processes involved in centriole duplication and cell division [ 101 , 102 , 103 ].…”

Section: Discussion and Future Directivesmentioning

confidence: 99%

The Dual Function of RhoGDI2 in Immunity and Cancer

Tripathi

Colige

Deroanne

2023

IJMS

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RhoGDI2 is a guanine nucleotide dissociation inhibitor (GDI) specific for the Rho family of small GTPases. It is highly expressed in hematopoietic cells but is also present in a large array of other cell types. RhoGDI2 has been implicated in multiple human cancers and immunity regulation, where it can display a dual role. Despite its involvement in various biological processes, we still do not have a clear understanding of its mechanistic functions. This review sheds a light on the dual opposite role of RhoGDI2 in cancer, highlights its underappreciated role in immunity and proposes ways to explain its intricate regulatory functions.

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Emerging roles of centrosome cohesion

Cited by 12 publications

References 151 publications

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

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

Centrosome linker diversity and its function in centrosome clustering and mitotic spindle formation

The Dual Function of RhoGDI2 in Immunity and Cancer

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