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Query: UMLS:C0344329 (
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28,634
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Activation of the
serine-threonine kinase
p34cdc2 at an inappropriate time during the cell cycle leads to cell death that resembles apoptosis. Premature activation of p34cdc2 was shown to be required for apoptosis induced by a lymphocyte granule protease. The kinase was rapidly activated and tyrosine dephosphorylated at the initiation of apoptosis. DNA fragmentation and nuclear
collapse
could be prevented by blocking p34cdc2 activity with excess peptide substrate, or by inactivating p34cdc2 in a temperature-sensitive mutant. Premature p34cdc2 activation may be a general mechanism by which cells induced to undergo apoptosis initiate the disruption of the nucleus.
...
PMID:Premature p34cdc2 activation required for apoptosis. 760 70
Centrosomes mature as cells enter mitosis, accumulating gamma-tubulin and other pericentriolar material (PCM) components. This occurs concomitant with an increase in the number of centrosomally organized microtubules (MTs). Here, we use RNA-mediated interference (RNAi) to examine the role of the
aurora-A
kinase, AIR-1, during centrosome maturation in Caenorhabditis elegans. In air-1(RNAi) embryos, centrosomes separate normally, an event that occurs before maturation in C. elegans. After nuclear envelope breakdown, the separated centrosomes
collapse
together, and spindle assembly fails. In mitotic air-1(RNAi) embryos, centrosomal alpha-tubulin fluorescence intensity accumulates to only 40% of wild-type levels, suggesting a defect in the maturation process. Consistent with this hypothesis, we find that AIR-1 is required for the increase in centrosomal gamma-tubulin and two other PCM components, ZYG-9 and CeGrip, as embryos enter mitosis. Furthermore, the AIR-1-dependent increase in centrosomal gamma-tubulin does not require MTs. These results suggest that
aurora-A
kinases are required to execute a MT-independent pathway for the recruitment of PCM during centrosome maturation.
...
PMID:Aurora-A kinase is required for centrosome maturation in Caenorhabditis elegans. 1174 51
Mitotic
Aurora-A
kinase was found to be required for formation of bipolar spindle, ensuring accurate chromosome segregation in mitosis. Recently,
Aurora-A
was shown to promote Ran-GTP-induced spindle formation and astral microtubule development. Here, by selective immunodepletion, we showed that
Aurora-A
was required for centrosome- but not Ran-GTP-induced astral microtubule formation in Xenopus egg extracts.
Aurora-A
enhanced microtubule polymerization in both centrosome- and Ran-GTP-induced aster assemblies: shortening the timing of aster assembly and increasing the aster size. Indeed, adding of
Aurora-A
protein alone induced microtubule clustering, which was abrogated by Aurora kinase inhibitory small molecule ZM447439. In addition, we showed that
Aurora-A
was indispensable for Ran-GTP-induced bipolar spindle formation. Inhibition of
Aurora-A
activity by adding of kinase inactive dominant mutant led to spindle
collapse
and formation of monopolar spindle whereas minus-end motor protein dynein/dynactin inhibitor p50/dynamitin rescued the bipolar structure. Lastly, we revealed that
Aurora-A
was necessary for microtubule poleward flux and this requirement depended on kinase activity. Thus, we showed that
Aurora-A
promoted microtubule polymerization and maintained microtubule flux in ensuring proper bipolar spindle assembly.
...
PMID:Requirement of aurora-A kinase in astral microtubule polymerization and spindle microtubule flux. 1841 60
LINGO-1 is a component of the tripartite receptor complexes, which act as a convergent mediator of the intracellular signaling in response to myelin-associated inhibitors and lead to
collapse
of growth cone and inhibition of neurite extension. Although the function of LINGO-1 has been intensively studied, its downstream signaling remains elusive. In the present study, a novel interaction between LINGO-1 and a
serine-threonine kinase
WNK1 was identified by yeast two-hybrid screen. The interaction was further validated by fluorescence resonance energy transfer and co-immunoprecipitation, and this interaction was intensified by Nogo66 treatment. Morphological evidences showed that WNK1 and LINGO-1 were co-localized in cortical neurons. Furthermore, either suppressing WNK1 expression by RNA interference or overexpression of WNK1-(123-510) attenuated Nogo66-induced inhibition of neurite extension and inhibited the activation of RhoA. Moreover, WNK1 was identified to interact with Rho-GDI1, and this interaction was attenuated by Nogo66 treatment, further indicating its regulatory effect on RhoA activation. Taken together, our results suggest that WNK1 is a novel signaling molecule involved in regulation of LINGO-1 mediated inhibition of neurite extension.
...
PMID:LINGO-1 interacts with WNK1 to regulate nogo-induced inhibition of neurite extension. 1976 2
