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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cell cycle arrest at the G2-M checkpoint is an essential feature of the mechanisms that preserve genomic integrity. CDC25 phosphatases control cell cycle progression by dephosphorylating and activating
cyclin-dependent kinase
/cyclin complexes. Their activities are, therefore, tightly regulated to modulate cell cycle arrest in response to DNA damage exposure. Here, we report that overexpression of
CDC25B
affects viability, reduces clonogenic efficiency, and increases sensitivity of cancer cells to a genotoxic agent. We show that ectopic expression of
CDC25B
results in bypass of a genotoxic-induced G2-M checkpoint. In addition, cancer cells constitutively expressing high level of
CDC25B
are shown to be prone to exit prematurely from the G2-M checkpoint arrest and to enter mitosis. Finally, we show that this exit is dependent on
CDC25B
expression. Together with previous results, our data strongly support a model in which
CDC25B
is the key phosphatase that controls entry into mitosis after DNA damage, thus emphasizing the relevance of its overexpression in many human tumors.
...
PMID:Genotoxic-activated G2-M checkpoint exit is dependent on CDC25B phosphatase expression. 1681 2
CDC25 phosphatases control cell-cycle progression by dephosphorylating and activating cyclin-dependent kinases.
CDC25B
, one of the three members of this family in human cells, is thought to regulate initial mitotic events.
CDC25B
is an unstable protein whose proteasomal degradation is proposed to be controlled by beta-TrCP. Here, we have investigated the regulation of
CDC25B
during mitosis, using time-lapse video microscopy. We found that
CDC25B
expression is high during early mitosis, and that its degradation occurs after the metaphase-anaphase transition and cyclin B1 destruction. We also show that
CDC25B
degradation after metaphase is dependent on the integrity of the KEN-box and RRKSE motifs that are located within the alternatively spliced B domain, and that the CDC25B2 splice variant, that lacks this domain, is stable during mitosis. Furthermore, we show that the N-terminal region of
CDC25B
, encompassing the B domain, undergoes major conformational changes during mitosis that can be monitored by intramolecular fluorescence resonance energy transfer variation of specific
CDC25B
biosensors. This study demonstrates that
CDC25B
splice variants have differential mitotic stabilities, a feature that is likely to have major consequences on the local control of
cyclin-dependent kinase
-cyclin activities during mitotic progression.
...
PMID:Differential mitotic degradation of the CDC25B phosphatase variants. 1759 46
Centrosome amplification is frequently reported in human cancers, although the molecular mechanisms that are responsible for this remain unclear. There is significant evidence to support a role for
cyclin-dependent kinase
(
CDK
)-cyclin complexes in centrosome duplication. The activities of
CDK
-cyclin complexes are, in turn, regulated by the CDC25 family of phosphatases in a strict spatiotemporal manner, and we have recently reported that
CDC25B
localizes to the centrosomes from early S phase. In the present study, we have investigated the role of centrosomally localized
CDC25B
in centrosome duplication. We first observed that overexpression of
CDC25B
under an inducible promoter in S phase results in centrosome overduplication. We found that forced expression of wild-type but not phosphatase-inactive
CDC25B
at the centrosomes results in centrosome amplification, aberrant microtubule organization, and abnormal accumulation of gamma-tubulin. In contrast, inhibition of
CDC25B
phosphatase activity inhibits the assembly of interphase microtubules and the centrosomal localization of gamma-tubulin. We propose that
CDC25B
is part of the pathway that controls the localization of gamma-tubulin to the centrosomes, thereby regulating centrosome duplication during S phase and the nucleation of microtubules. We speculate that abnormal expression of
CDC25B
in numerous human tumors might therefore have a critical role in centrosome amplification and genomic instability.
...
PMID:CDC25B involvement in the centrosome duplication cycle and in microtubule nucleation. 1808 84
Activation of
cyclin-dependent kinase
complexes (CDK) at key cell cycle transitions is dependent on their dephosphorylation by CDC25 dual-specificity phosphatases (CDC25A, B and C in human). The
CDC25B
phosphatase plays an essential role in controlling the activity of CDK1-cyclin B complexes at the entry into mitosis and together with polo-like kinase 1 (PLK1) in regulating the resumption of cell cycle progression after DNA damage-dependent checkpoint arrest in G2. In this study, we analysed the regulation of
CDC25B
-dependent mitosis entry by PLK1. We demonstrate that PLK1 activity is essential for the relocation of
CDC25B
from the cytoplasm to the nucleus. By gain and loss of function analyses, we show that PLK1 stimulates
CDC25B
-induced mitotic entry in both normal conditions and after DNA-damage induced G2/M arrest. Our results support a model in which the relocalisation of
CDC25B
to the nucleus at the G2-M transition by PLK1 regulates its mitotic inducing activity.
...
PMID:The polo-like kinase 1 regulates CDC25B-dependent mitosis entry. 1918 90
Mammalian oocytes are arrested at prophase I until puberty when luteinizing hormone (LH) induces resumption of meiosis of follicle-enclosed oocytes. Resumption of meiosis is tightly coupled with regulating cyclin-dependent kinase 1 (CDK1) activity. Prophase I arrest depends on inhibitory phosphorylation of CDK1 and anaphase-promoting complex-(APC-CDH1)-mediated regulation of cyclin B levels. Prophase I arrest is maintained by endogenously produced cyclic adenosine monophosphate (cAMP), which activates
protein kinase A
(
PKA
) that in turn phosphorylates (and activates) the nuclear kinase WEE2. In addition,
PKA
-mediated phosphorylation of the phosphatase
CDC25B
results in its cytoplasmic retention. The combined effect maintains low levels of CDK1 activity that are not sufficient to initiate resumption of meiosis. LH triggers synthesis of epidermal growth factor-like factors in mural granulosa cells and leads to reduced cGMP transfer from cumulus cells to oocytes via gap junctions that couple the two cell types. cGMP inhibits oocyte phosphodiesterase 3A (PDE3A) and a decline in oocyte cGMP results in increased PDE3A activity. The ensuing decrease in oocyte cAMP triggers maturation by alleviating the aforementioned phosphorylations of WEE2 and
CDC25B
. As a direct consequence
CDC25B
translocates into the nucleus. The resulting activation of CDK1 also promotes extrusion of WEE2 from the nucleus thereby providing a positive amplification mechanism for CDK1 activation. Other kinases, e.g. protein kinase B, Aurora kinase A and polo-like kinase 1, also participate in resumption of meiosis. Mechanisms governing meiotic prophase I arrest and resumption of meiosis share common features with DNA damage-induced mitotic G2-checkpoint arrest and checkpoint recovery, respectively. These common features include CDC14B-dependent activation of APC-CDH1 in prophase I arrested oocytes or G2-arrested somatic cells, and
CDC25B
-dependent cell cycle resumption in both oocytes and somatic cells.
...
PMID:Prophase I arrest and progression to metaphase I in mouse oocytes: comparison of resumption of meiosis and recovery from G2-arrest in somatic cells. 2045 35
Aurora A (AurA) is a major mitotic
protein kinase
involved in centrosome maturation and spindle assembly. Nucleophosmin/B23 (NPM) is a pleiotropic nucleolar protein involved in a variety of cellular processes including centrosome maturation. In the present study, we report that NPM is a strong activator of AurA kinase activity. NPM and AurA coimmunoprecipitate and colocalize to centrosomes in G2 phase, where AurA becomes active. In contrast with previously characterized AurA activators, NPM does not trigger autophosphorylation of AurA on threonine 288. NPM induces phosphorylation of AurA on serine 89, and this phosphorylation is necessary for activation of AurA. These data were confirmed in vivo, as depletion of NPM by ribonucleic acid interference eliminated phosphorylation of
CDC25B
on S353 at the centrosome, indicating a local loss of AurA activity. Our data demonstrate that NPM is a strong activator of AurA kinase activity at the centrosome and support a novel mechanism of activation for AurA.
...
PMID:Nucleophosmin/B23 activates Aurora A at the centrosome through phosphorylation of serine 89. 2245 95
Aurora kinase A (AURKA) is an important mitotic kinase involved in the G2/M transition, centrosome maturation and separation, and spindle formation in somatic cells. We used transgenic models that specifically overexpress in mouse oocytes either wild-type (WT-AURKA) or a catalytically inactive (kinase-dead) (KD-AURKA) AURKA to gain new insights regarding the role of AURKA during oocyte maturation. AURKA activation occurs shortly after hCG administration that initiates maturation in vivo. Although AURKA activity is increased in WT-AURKA oocytes, resumption of meiosis is not observed in the absence of hCG administration. Control oocytes contain one to three microtubule organizing centers (MTOCs; centrosome equivalent) at prophase I. At the time of germinal vesicle breakdown (GVBD), the first visible marker of resumption of meiosis, the MTOC number increases. In WT-AURKA oocytes, the increase in MTOC number occurs prematurely but transiently without GVBD, whereas the increase in MTOC number does not occur in control and KD-AURKA oocytes. AURKA activation is biphasic with the initial activation not requiring
CDC25B
-CDK1 activity, whereas full activation, which is essential for the increase in MTOCs number, depends on CDK1 activity. AURKA activity also influences spindle length and regulates, independent of its
protein kinase
activity, the amount of MTOC associated with gamma-tubulin. Both WT-AURKA and KD-AURKA transgenic mice have normal fertility during first 6 mo of life. These results suggest that although AURKA is not a trigger kinase for G2/M transition in mouse oocytes, it regulates MTOC number and spindle length, and, independent of its
protein kinase
activity, gamma-tubulin recruitment to MTOCs.
...
PMID:Aurora kinase A drives MTOC biogenesis but does not trigger resumption of meiosis in mouse oocytes matured in vivo. 2283 79
Selenoprotein W (SelW) contains a highly reactive selenocysteine (Sec; U) in the CXXU motif corresponding to the CXXC motif in thioredoxin (Trx) and thus it appears to be involved in regulating the cellular redox state. Recent reports on the interaction between SelW and 14-3-3 suggest that SelW may be redox dependently involved in the cell cycle. However, the precise function of SelW has not yet been elucidated. Here, we show that SelW is involved in the G2-M transition, especially in the recovery from G2 arrest after deoxyribonucleic acid (DNA) damage. Knockdown of SelW significantly accumulated phosphorylated
cyclin-dependent kinase
(Cdk1), which eventually led to a delay in recovery from G2 arrest. We also found that inactive Cdk1 is caused by the sustained inactivation of
CDC25B
, which removes the inhibitory phosphate from Cdk1. Our observation from this study reveals that SelW activated
CDC25B
by promoting the dissociation of 14-3-3 from
CDC25B
through the reduction of the intramolecular disulfide bond during recovery. We suggest that SelW plays an important role in the recovery from G2 arrest by determining the dissociation of 14-3-3 from
CDC25B
in a redox-dependent manner.
...
PMID:Selenoprotein W promotes cell cycle recovery from G2 arrest through the activation of CDC25B. 2298 42
Non-melanoma skin cancer frequently results from chronic exposure to ultraviolet (UV) irradiation. UV-induced DNA damage activates cell cycle arrest checkpoints through degradation of the
cyclin-dependent kinase
activators, the cell division cycle 25 (CDC25) phosphatases. We previously reported increased CDC25A in nonmelanoma skin cancer, but
CDC25B
and CDC25C had not been previously examined. Consequently, we hypothesized that increased expression of
CDC25B
and CDC25C increases tumor cell proliferation and skin tumor growth. We found that
CDC25B
and CDC25C were increased in mouse and human skin cancers.
CDC25B
was primarily cytoplasmic in skin and skin tumors and was significantly increased in the squamous cell carcinoma (SCC), while CDC25C was mostly nuclear in the skin, with an increased cytoplasmic signal in the premalignant and malignant tumors. Surprisingly, forced expression of
CDC25B
or CDC25C in cultured SCC cells did not affect proliferation, but instead suppressed apoptosis, while CDC25C silencing increased apoptosis without impacting proliferation. Targeting CDC25C to the nucleus via mutation of its nuclear export sequence, however, increased proliferation in SCC cells. Overexpression of CDC25C in the nuclear compartment did not hinder the ability of CDC25C to suppress apoptosis, neither did mutation of sites necessary for its interaction with 14-3-3 proteins. Analysis of apoptotic signaling pathways revealed that CDC25C increased activating phosphorylation of Akt on Ser
473
, increased inhibitory phosphorylation of proapoptotic BAD on Ser
136
, and increased the survival protein Survivin. Silencing of CDC25C significantly reduced Survivin levels. Taken together, these data suggest that increased expression of
CDC25B
or CDC25C are mechanisms by which skin cancers evade apoptotic cell death.
...
PMID:CDC25B and CDC25C overexpression in nonmelanoma skin cancer suppresses cell death. 3123 25
NEK5, a member of never in mitosis-gene A-related
protein kinase
, is involved in the regulation of centrosome integrity and centrosome cohesion at mitosis in somatic cells. In this study, we investigated the expression and function of NEK5 during mouse oocyte maturation and preimplantation embryonic development. The results showed that NEK5 was expressed from germinal vesicle (GV) to metaphase II (MII) stages during oocyte maturation with the highest level of expression at the GV stage. It was shown that NEK5 localized in the cytoplasm of oocytes at GV stage, concentrated around chromosomes at germinal vesicle breakdown (GVBD) stage, and localized to the entire spindle at prometaphase I, MI and MII stages. The small interfering RNA-mediated depletion of Nek5 significantly increased the phosphorylation level of cyclin-dependent kinase 1 in oocytes, resulting in a decrease of maturation-promoting factor activity, and severely impaired GVBD. The failure of meiotic resumption caused by Nek5 depletion could be rescued by the depletion of Wee1B. We found that Nek5 depletion did not affect
CDC25B
translocation into the GV. We also found that NEK5 was expressed from 1-cell to blastocyst stages with the highest expression at the blastocyst stage, and Nek5 depletion severely impaired preimplantation embryonic development. This study demonstrated for the first time that NEK5 plays important roles during meiotic G2/M transition and preimplantation embryonic development.
...
PMID:NEK5 regulates cell cycle progression during mouse oocyte maturation and preimplantation embryonic development. 3130 58
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