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SUMMARY During interphase centrosomes are held together by an extended proteinaceous linker that connects the proximal ends of the mother and daughter centriole. This linker is disassembled at the onset of mitosis in a process known as centrosome disjunction, thereby facilitating centrosome separation and bipolar spindle formation. The NIMA-related kinase Nek2A is implicated in disconnecting the centrosomes through disjoining the linker proteins C-Nap1 and rootletin. However, the mechanisms controlling centrosome disjunction remain poorly understood. Here, we report that two Hippo pathway components, the mammalian sterile 20-like kinase 2 (Mst2) and the scaffold protein Salvador (hSav1), directly interact with Nek2A regulating its ability to localize to centrosomes and phosphorylate C-Nap1 and rootletin. Furthermore, we show that the hSav1-Mst2-Nek2A centrosome disjunction pathway becomes essential for bipolar spindle formation upon partial inhibition of the kinesin-5 Eg5. We propose that hSav1-Mst2-Nek2A and Eg5 have distinct but complementary functions in centrosome disjunction.

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A Role for the Fizzy/Cdc20 Family of Proteins in Activation of the APC/C Distinct from Substrate Recruitment

Kimata

et al. 2008

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The Fizzy/Cdc20 family of proteins are essential activators of the anaphase-promoting complex/cyclosome (APC/C), a multisubunit E3 ubiquitin ligase. However, apart from the well-established role of the C-terminal WD40 domain in substrate recognition, the precise roles of the activators remain elusive. Here we show that Nek2A, which directly binds the APC/C, can be ubiquitylated and destroyed in Fizzy/Cdc20-depleted Xenopus egg extracts when only the N-terminal domain of Fizzy/Cdc20 (N-Cdc20) is added. This activity is dependent upon the C box and is conserved in the alternative activator, Fizzy-related/Cdh1. In contrast, canonical substrates such as cyclin B and securin require both the N-terminal and WD40 domains, unless N-Cdc20 is fused to substrates when the WD40 domain becomes dispensable. Furthermore, in Cdc20-depleted cells, N-Cdc20 can facilitate Nek2A destruction in a C box-dependent manner. Our results reveal a role for the N-terminal domain of the Fizzy/Cdc20 family of activators in triggering substrate ubiquitylation by the APC/C.

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Structure and Regulation of the Human Nek2 Centrosomal Kinase

Rellos

Ivins

Baxter

et al. 2007

Journal of Biological Chemistry

125

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The dimeric Ser/Thr kinase Nek2 regulates centrosome cohesion and separation through phosphorylation of structural components of the centrosome, and aberrant regulation of Nek2 activity can lead to aneuploid defects characteristic of cancer cells. Mutational analysis of autophosphorylation sites within the kinase domain identified by mass spectrometry shows a complex pattern of positive and negative regulatory effects on kinase activity that are correlated with effects on centrosomal splitting efficiency in vivo. The 2.2-Å resolution x-ray structure of the Nek2 kinase domain in complex with a pyrrole-indolinone inhibitor reveals an inhibitory helical motif within the activation loop. This helix presents a steric barrier to formation of the active enzyme and generates a surface that may be exploitable in the design of specific inhibitors that selectively target the inactive state. Comparison of this "auto-inhibitory" conformation with similar arrangements in cyclin-dependent kinase 2 and epidermal growth factor receptor kinase suggests a role for dimerization-dependent allosteric regulation that combines with autophosphorylation and protein phosphatase 1c phosphatase activity to generate the precise spatial and temporal control required for Nek2 function in centrosomal maturation.Protein kinase activity is crucial for the precise regulation of the eukaryotic cell cycle. Although cyclin-dependent kinases remain the master regulators of cell cycle progression, it is clear that a variety of other proteins kinases also play important roles.Nek2 is a member of the NIMA 6 -related kinase (or Nek) family of serine/threonine protein kinases, so named because all are related to the NIMA kinase of Aspergillus nidulans (for review, see Ref. 1). In Aspergillus, NIMA is essential for mitotic entry with temperature-sensitive nimA mutations leading to cells that are "never in mitosis" (2). Like Aspergillus, other fungi also express a single NIMA-related kinase, e.g. Kin3 in Saccharomyces cerevisiae and Fin1 in Schizosaccharomyces pombe. Although the yeast Neks do not appear to be essential for cell cycle progression, elegant studies on Fin1 have revealed key functions in chromosome segregation and mitotic exit (3, 4). In contrast, higher eukaryotes express multiple Neks with 11 genes (Nek1 to Nek11) encoded within the human genome (1). With the exception of human Nek6 and Nek7 and Nek10, all Neks have an N-terminal kinase domain followed by a C-terminal non-catalytic regulatory domain. However, the length and composition of motifs present within these C-terminal extensions vary considerably, reflecting diverse roles in cell regulation.Of the human proteins, Nek2 is the most closely related to the fungal kinases, being 47% identical to NIMA within the amino acid sequence of their catalytic domains. Nek2 localizes to centrosomes. Here, it contributes to spindle pole formation during mitosis (5) through phosphorylation of proteins involved in centriolar cohesion, including C-Nap1 and rootletin, to allow spindle pole separation (6 ...

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Coordinate Regulation of the Mother Centriole Component Nlp by Nek2 and Plk1 Protein Kinases

Rapley

Baxter

Blot

et al. 2005

Molecular and Cellular Biology

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Mitotic entry requires a major reorganization of the microtubule cytoskeleton. Nlp, a centrosomal protein that binds ␥-tubulin, is a G 2 /M target of the Plk1 protein kinase. Here, we show that human Nlp and its Xenopus homologue, X-Nlp, are also phosphorylated by the cell cycle-regulated Nek2 kinase. X-Nlp is a 213-kDa mother centriole-specific protein, implicating it in microtubule anchoring. Although constant in abundance throughout the cell cycle, it is displaced from centrosomes upon mitotic entry.

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Multisite phosphorylation of C-Nap1 releases it from Cep135 to trigger centrosome disjunction

Hardy

Lee

Hames

et al. 2014

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During mitotic entry, centrosomes separate to establish the bipolar spindle. Delays in centrosome separation can perturb chromosome segregation and promote genetic instability. However, interphase centrosomes are physically tethered by a proteinaceous linker composed of C-Nap1 (also known as CEP250) and the filamentous protein rootletin. Linker disassembly occurs at the onset of mitosis in a process known as centrosome disjunction and is triggered by the Nek2-dependent phosphorylation of C-Nap1. However, the mechanistic consequences of C-Nap1 phosphorylation are unknown. Here, we demonstrate that Nek2 phosphorylates multiple residues within the C-terminal domain of C-Nap1 and, collectively, these phosphorylation events lead to loss of oligomerization and centrosome association. Mutations in non-phosphorylatable residues that make the domain more acidic are sufficient to release C-Nap1 from the centrosome, suggesting that it is an increase in overall negative charge that is required for this process. Importantly, phosphorylation of C-Nap1 also perturbs interaction with the core centriolar protein, Cep135, and interaction of endogenous C-Nap1 and Cep135 proteins is specifically lost in mitosis. We therefore propose that multisite phosphorylation of C-Nap1 by Nek2 perturbs both oligomerization and Cep135 interaction, and this precipitates centrosome disjunction at the onset of mitosis.

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Joanne E. Baxter

Components of the Hippo pathway cooperate with Nek2 kinase to regulate centrosome disjunction

A Role for the Fizzy/Cdc20 Family of Proteins in Activation of the APC/C Distinct from Substrate Recruitment

Structure and Regulation of the Human Nek2 Centrosomal Kinase

Coordinate Regulation of the Mother Centriole Component Nlp by Nek2 and Plk1 Protein Kinases

Multisite phosphorylation of C-Nap1 releases it from Cep135 to trigger centrosome disjunction

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