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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Passage through mitosis is required to reset replication origins for the subsequent S phase. During mitosis, a series of biochemical reactions involving cyclin-dependent kinases (CDKs), the anaphase promoting complex or cyclosome (
APC
/C), and a mitotic exit network including
Cdc5
, 14, and 15 coordinates the proper separation and segregation of sister chromatids. Here we show that cyclin B/CDK inactivation can drive origin resetting in either early S phase or mitosis. This origin resetting occurs efficiently in the absence of
APC
/C function and mitotic exit network function. We conclude that CDK inactivation is the single essential event in mitosis required to allow pre-RC assembly for the next cell cycle.
...
PMID:CDK inactivation is the only essential function of the APC/C and the mitotic exit network proteins for origin resetting during mitosis. 1067 71
During mitosis the spindle assembly checkpoint (SAC) delays the onset of anaphase and mitotic exit until all chromosomes are bipolarly attached to spindle fibers. Both lack of attachment due to spindle/kinetochore defects and lack of tension across kinetochores generate the "wait anaphase" signal transmitted by the SAC, which involves the evolutionarily conserved Mad1, Mad2, Mad3/BubR1, Bub1, Bub3 and Mps1 proteins, and inhibits the activity of the ubiquitin ligase Cdc20/
APC
, that promotes both sister chromatid dissociation in anaphase and mitotic exit. In particular, Mad3/BubR1 is directly implicated, together with Mad2, in Cdc20 inactivation in both human and yeast cells, suggesting that its activity is likely finely regulated. We show that budding yeast Mad3, like its human orthologue BubR1, is a phosphoprotein that is hyperphosphorylated during mitosis and when SAC activation is triggered by microtubule depolymerizing agents, kinetochore defects or lack of kinetochore tension. In vivo Mad3 phosphorylation depends on the Polo kinase
Cdc5
and, to a minor extent, the Aurora B kinase Ipl1. Accordingly, replacing with alanines five serine residues belonging to Polo kinase-dependent putative phosphorylation sites dramatically reduces Mad3 phosphorylation, suggesting that Mad3 is likely an in vivo target of
Cdc5
.
...
PMID:Mad3/BubR1 phosphorylation during spindle checkpoint activation depends on both Polo and Aurora kinases in budding yeast. 1597 Jul
In the budding yeast Saccharomyces cerevisiae, the protein phosphatase Cdc14 triggers exit from mitosis by promoting the inactivation of cyclin-dependent kinases (CDKs). Cdc14's activity is controlled by Cfi1/Net1, which holds and inhibits the phosphatase in the nucleolus from G1 until metaphase. During anaphase, two regulatory networks, the Cdc14 Early Anaphase Release (FEAR) network and the Mitotic Exit Network (MEN), promote the dissociation of Cdc14 from its inhibitor, allowing the phosphatase to reach its targets throughout the cell. The molecular circuits that trigger the return of Cdc14 into the nucleolus after the completion of exit from mitosis are not known. Here we show that activation of a ubiquitin ligase known as the Anaphase-Promoting Complex or Cyclosome (
APC
/C) bound to the specificity factor Cdh1 triggers the degradation of the Polo kinase
Cdc5
, a key factor in releasing Cdc14 from its inhibitor in the nucleolus.
...
PMID:APC/C-Cdh1-mediated degradation of the Polo kinase Cdc5 promotes the return of Cdc14 into the nucleolus. 1817 66
Cdh1 activates the Anaphase Promoting Complex/Cyclosome (
APC
/C(Cdh1)) throughout G(1) to degrade key cell cycle proteins. Cdh1 is not essential for cell proliferation, in spite of the fact that overexpression of some its degradation substrates is highly toxic. We report here that cdh1Delta cells are sensitive to stresses that activate the CWI (Cell Wall Integrity) and Hog1 MAP kinase pathways. Stresses did not activate
APC
/C(Cdh1) and cellular sensitivity was thus clearly due to constitutively elevated substrate levels. To explore the contribution of stabilization of individual
APC
/C(Cdh1) substrates to stress sensitivity, we generated cell lines expressing stabilized substrate mutants under their endogenous promoters. Cells expressing stabilized Hsl1 were sensitive to caffeine and failed to activate the Slt2 pathway. Cells expressing partially stable Clb2 were particularly sensitive to different stresses, possibly due to reduced Sic1 levels. Cells expressing stabilized
Cdc5
were much less stress sensitive. Interestingly sensitivity of cdh1Delta cells does not seem to be restricted to G(1) but is manifested also during S and G(2) when the
APC
/C(Cdh1) is inactive anyway. We thus hypothesize that a role of G(1) specific
APC
/C(Cdh1) activity is to reset substrate levels to enables appropriate regulation of substrate accumulation in the subsequent phases of the cell cycle.
...
PMID:APC/CCdh1 specific degradation of Hsl1 and Clb2 is required for proper stress responses of S. cerevisiae. 1971 62
Swe1/Wee1 regulates mitotic entry by inhibiting Clb2-Cdk1 and its accumulation is involved in stress induced G(2) arrest. The
APC
/C(Cdh1) substrates
Cdc5
, Clb2 and Hsl1 regulate Swe1 degradation. We observed that clb2Deltacdh1Delta double mutant S. cerevisiae does not express any detectable levels of Swe1, presumably due to its constitutive degradation. This effect of Cdh1 inactivation is due to stabilization of
Cdc5
and Hsl1, as expression of the non-degradable
Cdc5
(T29A) in clb2Delta cells prevented Swe1 accumulation. Strikingly, expression of non-degradable Hsl1(mdb/mkb) prevented Swe1 accumulation even in wild type Clb2 cells. Interestingly Swe1 accumulation could be reconstituted in all these mutants by eliciting a replication fork stress with hydroxyurea. Cells expressing the Clb2(ME) mutant, that cannot bind Swe1, behaved like clb2Delta cells, and failed to accumulate Swe1 in the absence of Cdh1 or the presence of
Cdc5
(T29A). This suggests that for Swe1 to accumulate it must interact with Clb2. We further show that in the absence of Clb2, Hsl1 is no longer essential for Swe1 degradation. We hypothesize that Clb2-Cdk1 protects Swe1 from premature degradation until its Hsl1 mediated de-protection, which enables its
Cdc5
mediated degradation. Swe1 levels are thus regulated by monitoring the levels of three major mitotic regulators.
...
PMID:Clb2 and the APC/C(Cdh1) regulate Swe1 stability. 2071 23
The anaphase-promoting complex/cyclosome (
APC
/C) controls a variety of cellular processes through its ability to target numerous protein substrates for timely degradation. Substrate selection by this ubiquitin ligase depends on related activator proteins, Cdc20 and Cdh1, which bind and activate the
APC
/C at distinct cell cycle stages. Biochemical and structural studies revealed that Cdc20 and Cdh1 carry conserved receptor domains to recognize specific sequence motifs in substrates, such as D and KEN boxes. The mechanisms for ordered degradation of
APC
/C substrates, however, remain incompletely understood. Here we describe minimal degradation sequences (degrons) sufficient for rapid
APC
/C-Cdh1-specific in vivo degradation. The polo kinase
Cdc5
-derived degron contained an essential KEN motif, whereas a single RxxL-type D box was the relevant signal in the Cdc20-derived degradation domain, indicating that either motif may support specific recognition by Cdh1. In both degrons, the
APC
/C recognition motif was flanked by a nuclear localization sequence. Forced localization of the degron constructs revealed that proteolysis mediated by
APC
/C-Cdh1 is restricted to the nucleus and maximally active in the nucleoplasm. Levels of Iqg1, a cytoplasmic Cdh1 substrate, decreased detectably later than the nucleus-localized Cdh1 substrate Ase1, indicating that confinement to the nucleus may allow for temporal control of
APC
/C-Cdh1-mediated proteolysis.
...
PMID:Insights into the cellular mechanism of the yeast ubiquitin ligase APC/C-Cdh1 from the analysis of in vivo degrons. 2554 Apr 34
The Anaphase Promoting Complex/Cyclosome (
APC
/C) ubiquitin ligase activated by its G1 specific adaptor protein Cdh1 is a major regulator of the cell cycle. The
APC
/C(Cdh1) mediates degradation of dozens of proteins, however, the kinetics and requirements for their degradation are largely unknown. We demonstrate that overexpression of the constitutive active CDH1(m11) mutant that is not inhibited by phosphorylation results in mitotic exit in the absence of the FEAR and MEN pathways, and DNA re-replication in the absence of Cdc7 activity. This mode of mitotic exit also reveals additional requirements for
APC
/C(Cdh1) substrate degradation, which for some substrates such as Pds1 or Clb5 is dephosphorylation, but for others such as
Cdc5
is phosphorylation.
...
PMID:Phosphorylation and dephosphorylation regulate APC/C(Cdh1) substrate degradation. 2625 46
Cdh1, a substrate-recognition subunit of anaphase-promoting complex/cyclosome (
APC
/C), is a tumor suppressor, and it is downregulated in various tumor cells in humans.
APC
/C-Cdh1 is activated from late M phase to G1 phase by antagonizing Cdk1-mediated inhibitory phosphorylation. However, how Cdh1 protein levels are properly regulated is ill-defined. Here we show that Cdh1 is degraded via
APC
/C-Cdh1 and Skp1-Cullin1-F-box (SCF)-Cdc4 in the budding yeast Saccharomyces cerevisiae. Cdh1 degradation was promoted by forced localization of Cdh1 into the nucleus, where
APC
/C and SCF are present. Cdk1 promoted
APC
/C-Cdh1-mediated Cdh1 degradation, whereas polo kinase
Cdc5
elicited SCF-Cdc4-mediated degradation. Thus, Cdh1 degradation is controlled via multiple pathways.
...
PMID:Cdh1 degradation is mediated by APC/C-Cdh1 and SCF-Cdc4 in budding yeast. 3039 69
