Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Saccharomyces cerevisiae, Pds1 is an anaphase inhibitor and plays an essential role in DNA damage and spindle checkpoint pathways. Pds1 is phosphorylated in response to DNA damage but not spindle disruption, indicating distinct mechanisms delaying anaphase entry. Phosphorylation of Pds1 is Mec1 and Chk1 dependent in vivo. Here, we show that Pds1 is phosphorylated at multiple sites in vivo in response to DNA damage by Chk1. Mutation of the Chk1 phosphorylation sites on Pds1 abolished most of its DNA damage-inducible phosphorylation and its checkpoint function, whereas its anaphase inhibitor functions and spindle checkpoint functions remain intact. Loss of Pds1 phosphorylation correlates with APC-dependent Pds1 destruction in response to DNA damage. We also show that APC(Cdc20) is active in preanaphase arrested cells after DNA damage. This suggests that Pds1 is stabilized by phosphorylation in response to DNA damage, but APC(Cdc20) activity is not altered. Our results indicate that phosphorylation of Pds1 by Chk1 is the key function of Chk1 required to prevent anaphase entry.
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PMID:Pds1 phosphorylation in response to DNA damage is essential for its DNA damage checkpoint function. 1139 Mar 56

The presence of DNA damage activates a conserved cellular response known as the DNA damage checkpoint pathway. This pathway induces a cell cycle arrest that persists until the damage is repaired. Consequently, the failure to arrest in response to DNA damage is associated with genomic instability. In budding yeast, activation of the DNA damage checkpoint pathway leads to a mitotic cell cycle arrest. Following the detection of DNA damage, the checkpoint signal is transduced via the Mec1 kinase, which in turn activates two kinases, Rad53 and Chk1 that act in parallel pathways to bring about the cell cycle arrest. The downstream target of Rad53 is unknown. The target of Chk1 is Pds1, an inhibitor of anaphase initiation whose degradation is a prerequisite for mitotic progression. Pds1 degradation is dependent on its ubiquitination by the anaphase-promoting complex/cyclosome ubiquitin ligase, acting in conjunction with the Cdc20 protein (APC/CCdc20). Previous studies showed that the Rad53 and Chk1 pathways independently lead to Pds1 stabilization but the mechanism for this was unknown. In the present study we show that both the Chk1 and the Rad53 pathways inhibit the APC/CCdc20-dependent ubiquitination of Pds1 but they affect different steps of the process: the Rad53 pathway inhibits the Pds1-Cdc20 interaction whereas Chk1-dependent phosphorylation of Pds1 inhibits the ubiquitination reaction itself. Finally, we show that once the DNA damage is repaired, Pds1 dephosphorylation is involved in the recovery from the checkpoint induced cell cycle arrest.
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PMID:Two distinct pathways for inhibiting pds1 ubiquitination in response to DNA damage. 1294 83

In eukaryotic cells, control mechanisms of cell-cycle progression have evolved to accurately monitor the integrity of genetic information to be transferred to the progeny. Cdc25A phosphatase is an essential activator of cell-cycle progression and is targeted by checkpoint signals. Ubiquitylation regulates Cdc25A activity through fine tuning of its protein levels. Two different ubiquitin ligases (APC/C and SCF complex) are involved in Cdc25A turnover. While APC/C is involved in regulating Cdc25A at the exit of mitosis, SCF regulates the abundance of Cdc25A in S phase and G2. In response to DNA damage or to stalled replication, the activation of the ATM and ATR protein kinases leads to Chk1 and Chk2 activation and to Cdc25A hyperphosphorylation. These events stimulate SCF-mediated ubiquitylation of Cdc25A and its proteolysis. This contributes to delaying cell-cycle progression, thereby preventing genomic instability. Based on recent findings, we discuss the role of Cdc25A ubiquitylation and degradation in cell-cycle progression and in response to DNA damage. Moreover, we discuss the role of phosphorylation at multiple sites in triggering ubiquitylation signals.
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PMID:Cdc25A phosphatase: combinatorial phosphorylation, ubiquitylation and proteolysis. 1502 92

In order to prevent division of damaged chromosomes, cells activate a checkpoint to inhibit mitotic progression in order to repair the damaged DNA. Upon detection of DNA damage two downstream checkpoint kinases, Chk1 and Rad53, are activated by the sensor kinase, Mec1, to block the metaphase to anaphase transition and mitotic exit, respectively. Recent data from studies with budding yeast suggested that the DNA damage checkpoint also enlists the cAMP dependent protein kinase (PKA) pathway, which is an integral part of the nutrient sensing mechanism in budding yeast, to inhibit mitosis in response to DNA damage. Genetic and biochemical evidence suggested that the PKA pathway contributes to the inhibition of mitotic progression by mediating the phosphorylation of the APC specificity factor Cdc20. Phosphorylation of Cdc20 assists the activity of the checkpoint pathways in the inhibition of the degradation of mitotic inhibitors securin, Pds1, and the B type cyclin, Clb2, in order to block anaphase and mitotic exit. Cdc20 was phosphorylated following DNA damage in a PKA and Mec1 dependent manner, suggesting PKA activation is dependent on Mec1. Here we discuss possible mechanisms for how PKA activity could be regulated in response to DNA damage and we will also address the implication of these results in evaluating current cancer treatments.
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PMID:Stopped for repairs: a new role for nutrient sensing pathways? 1519 Feb 5

Cytostatic factor (CSF) arrests vertebrate eggs in metaphase of meiosis II through several pathways that inhibit activation of the anaphase-promoting complex/cyclosome (APC/C). In Xenopus, the Mos-MEK1-MAPK-p90(Rsk) cascade utilizes spindle-assembly-checkpoint components to effect metaphase arrest. Another pathway involves cyclin E-Cdk2, and sustained cyclin E-Cdk2 activity in egg extracts causes metaphase arrest in the absence of Mos; this latter finding suggests that an independent pathway contributes to CSF arrest. Here, we demonstrate that metaphase arrest with cyclin E-Cdk2, but not with Mos, requires the spindle-checkpoint kinase monopolar spindles 1 (Mps1), a cyclin E-Cdk2 target that is also implicated in centrosome duplication. xMps1 is synthesized and activated during oocyte maturation and inactivated upon CSF release. In egg extracts, CSF release by calcium was inhibited by constitutively active cyclin E-Cdk2 and delayed by wild-type xMps1. Ablation of cyclin E by antisense oligonucleotides blocked accumulation of xMps1, suggesting that cyclin E-Cdk2 controls Mps1 levels. During meiosis II, activated cyclin E-Cdk2 significantly inhibited the APC/C even in the absence of the Mos-MAPK pathway, but this inhibition was not sufficient to suppress S phase between meiosis I and II. These results uniquely place xMps1 downstream of cyclin E-Cdk2 in mediating a pathway of APC/C inhibition and metaphase arrest.
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PMID:Metaphase arrest by cyclin E-Cdk2 requires the spindle-checkpoint kinase Mps1. 1702 95

Diallyl trisulfide (DATS), a cancer chemopreventive constituent of garlic, inhibits growth of cancer cells by interfering with cell cycle progression, but the mechanism is not fully understood. Here, we show the existence of a novel ataxia-telangiectasia mutated and Rad3 related (ATR)/checkpoint kinase 1 (Chk1)-dependent checkpoint partially responsible for DATS-mediated prometaphase arrest in cancer cells, which is different from the recently described gamma irradiation-induced mitotic exit checkpoint. The PC-3 human prostate cancer cells synchronized in prometaphase by nocodazole treatment and released to DATS-containing medium remained arrested in prometaphase, whereas the cells released to normal medium exited mitosis and resumed cell cycle. The mitotic arrest was maintained even after 4 h of culture of DATS-treated cells (4-h treatment) in drug-free medium. The DATS-arrested mitotic cells exhibited accumulation of anaphase-promoting complex/cyclosome (APC/C) substrates cyclin A and cyclin B1 and hyperphosphorylation of securin, which was accompanied by increased phosphorylation of the APC/C regulatory subunits Cdc20 and Cdh1. The DATS-mediated accumulation of cyclin B1 and hyperphosphorylation of securin, Cdc20, and Cdh1 were partially but markedly attenuated by knockdown of Chk1 or ATR protein. The U2OS osteosarcoma cells expressing doxycycline-inducible kinase dead ATR were significantly more resistant not only to DATS-mediated prometaphase arrest but also to the accumulation of cyclin B1 and hyperphosphorylation of securin, Cdc20, and Cdh1 compared with cells expressing wild-type ATR. However, securin protein knockdown failed to rescue cells from DATS-induced prometaphase arrest. In conclusion, the present study describes a novel signaling pathway involving ATR/Chk1 in the regulation of DATS-induced prometaphase arrest.
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PMID:Activation of a novel ataxia-telangiectasia mutated and Rad3 related/checkpoint kinase 1-dependent prometaphase checkpoint in cancer cells by diallyl trisulfide, a promising cancer chemopreventive constituent of processed garlic. 1740 33

In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion. Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions. Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu-dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition.
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PMID:Unprotected Drosophila melanogaster telomeres activate the spindle assembly checkpoint. 1824 67

In response to DNA damage in G2, mammalian cells must avoid entry into mitosis and instead initiate DNA repair. Here, we show that, in response to genotoxic stress in G2, the phosphatase Cdc14B translocates from the nucleolus to the nucleoplasm and induces the activation of the ubiquitin ligase APC/C(Cdh1), with the consequent degradation of Plk1, a prominent mitotic kinase. This process induces the stabilization of Claspin, an activator of the DNA-damage checkpoint, and Wee1, an inhibitor of cell-cycle progression, and allows an efficient G2 checkpoint. As a by-product of APC/C(Cdh1) reactivation in DNA-damaged G2 cells, Claspin, which we show to be an APC/C(Cdh1) substrate in G1, is targeted for degradation. However, this process is counteracted by the deubiquitylating enzyme Usp28 to permit Claspin-mediated activation of Chk1 in response to DNA damage. These findings define a novel pathway that is crucial for the G2 DNA-damage-response checkpoint.
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PMID:The Cdc14B-Cdh1-Plk1 axis controls the G2 DNA-damage-response checkpoint. 1866 36

In mitosis, the spindle checkpoint detects a single unattached kinetochore, inhibits the anaphase-promoting complex or cyclosome (APC/C), and prevents premature sister chromatid separation. The checkpoint kinase Bub1 contributes to checkpoint sensitivity through phosphorylating the APC/C activator, Cdc20, and inhibiting APC/C catalytically. We report here the crystal structure of the kinase domain of Bub1, revealing the requirement of an N-terminal extension for its kinase activity. Though the activation segment of Bub1 is ordered and has structural features indicative of active kinases, the C-terminal portion of this segment sterically restricts substrate access to the active site. Bub1 uses docking motifs, so-called KEN boxes, outside its kinase domain to recruit Cdc20, one of two known KEN box receptors. The KEN boxes of Bub1 are required for the spindle checkpoint in human cells. Therefore, its unusual active-site conformation and mode of substrate recruitment suggest that Bub1 has an exquisitely tuned specificity for Cdc20.
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PMID:Structure and substrate recruitment of the human spindle checkpoint kinase Bub1. 1899 37

Shugoshin 1 (Sgo1) protects centromeric sister-chromatid cohesion in early mitosis and, thus, prevents premature sister-chromatid separation. The protein level of Sgo1 is regulated during the cell cycle; it peaks in mitosis and is down-regulated in G1/S. Here we show that Sgo1 is degraded during the exit from mitosis, and its degradation depends on the anaphase-promoting complex/cyclosome (APC/C). Overexpression of Cdh1 reduces the protein levels of ectopically expressed Sgo1 in human cells. Sgo1 is ubiquitinated by APC/C bound to Cdh1 (APC/C(Cdh1)) in vitro. We have further identified two functional degradation motifs in Sgo1; that is, a KEN (Lys-Glu-Asn) box and a destruction box (D box). Although removal of either motif is not sufficient to stabilize Sgo1, Sgo1 with both KEN box and D box deleted is stable in cells. Surprisingly, mitosis progresses normally in the presence of non-degradable Sgo1, indicating that degradation of Sgo1 is not required for sister-chromatid separation or mitotic exit. Finally, we show that the spindle checkpoint kinase Bub1 contributes to the maintenance of Sgo1 steady-state protein levels in an APC/C-independent mechanism.
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PMID:Multiple anaphase-promoting complex/cyclosome degrons mediate the degradation of human Sgo1. 1901 61


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