UMLS:C0033036 - FACTA Search

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

Cdc20 is an essential cell-cycle regulator required for the completion of mitosis in organisms from yeast to man and contains at its C terminus a WD40 repeat domain that mediates protein-protein interactions. In mitosis, Cdc20 binds to and activates the ubiquitin ligase activity of a large molecular machine called the anaphase-promoting complex/cyclosome (APC/C) and enables the ubiquitination and degradation of securin and cyclin B, thus promoting the onset of anaphase and mitotic exit. APC/C(Cdc20) is temporally and spatially regulated during the somatic and embryonic cell cycle by numerous mechanisms, including the spindle checkpoint and the cytostatic factor (CSF). Therefore, Cdc20 serves as an integrator of multiple intracellular signaling cascades that regulate progression through mitosis. This review summarizes recent progress toward the understanding of the functions of Cdc20, the mechanisms by which it activates APC/C, and its regulation by phosphorylation and by association with its binding proteins.
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PMID:Cdc20: a WD40 activator for a cell cycle degradation machine. 1761 86

Overexpression of cyclin E, an activator of cyclin-dependent kinase 2, has been linked to human cancer. In cell culture models, the forced expression of cyclin E leads to aneuploidy and polyploidy, which is consistent with a direct role of cyclin E overexpression in tumorigenesis. In this study, we show that the overexpression of cyclin E has a direct effect on progression through the latter stages of mitotic prometaphase before the complete alignment of chromosomes at the metaphase plate. In some cases, such cells fail to divide chromosomes, resulting in polyploidy. In others, cells proceed to anaphase without the complete alignment of chromosomes. These phenotypes can be explained by an ability of overexpressed cyclin E to inhibit residual anaphase-promoting complex (APC(Cdh1)) activity that persists as cells progress up to and through the early stages of mitosis, resulting in the abnormal accumulation of APC(Cdh1) substrates as cells enter mitosis. We further show that the accumulation of securin and cyclin B1 can account for the cyclin E-mediated mitotic phenotype.
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PMID:Cyclin E overexpression impairs progression through mitosis by inhibiting APC(Cdh1). 1766 32

The spindle assembly checkpoint (SAC) monitors attachment to microtubules and tension on chromosomes in mitosis and meiosis. It represents a surveillance mechanism that halts cells in M-phase in the presence of unattached chromosomes, associated with accumulation of checkpoint components, in particular, Mad2, at the kinetochores. A complex between the anaphase promoting factor/cylosome (APC/C), its accessory protein Cdc20 and proteins of the SAC renders APC/C inactive, usually until all chromosomes are properly assembled at the spindle equator (chromosome congression) and under tension from spindle fibres. Upon release from the SAC the APC/C can target proteins like cyclin B and securin for degradation by the proteasome. Securin degradation causes activation of separase proteolytic enzyme, and in mitosis cleavage of cohesin proteins at the centromeres and arms of sister chromatids. In meiosis I only the cohesin proteins at the sister chromatid arms are cleaved. This requires meiosis specific components and tight regulation by kinase and phosphatase activities. There is no S-phase between meiotic divisions. Second meiosis resembles mitosis. Mammalian oocytes arrest constitutively at metaphase II in presence of aligned chromosomes, which is due to the activity of the cytostatic factor (CSF). The SAC has been identified in spermatogenesis and oogenesis, but gender-differences may contribute to sex-specific differential responses to aneugens. The age-related reduction in expression of components of the SAC in mammalian oocytes may act synergistically with spindle and other cell organelles' dysfunction, and a partial loss of cohesion between sister chromatids to predispose oocytes to errors in chromosome segregation. This might affect dose-response to aneugens. In view of the tendency to have children at advanced maternal ages it appears relevant to pursue studies on consequences of ageing on the susceptibility of human oocytes to the induction of meiotic error by aneugens and establish models to assess risks to human health by environmental exposures.
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PMID:Spindle formation, chromosome segregation and the spindle checkpoint in mammalian oocytes and susceptibility to meiotic error. 1809 27

Several models have been suggested above, describing possible modes of spindle checkpoint action: 1. Cdc20 sequestration (by Mad2-Cdc20 and/or MCC). 2. Stable MCC-APC/C association. 3. Cdc20 turnover (in budding yeast). 4. Cdc20-APC/C modification (by Mps1, Bub1, MAPK, Aurora B or BubR1 kinases). Several of these mechanisms could affect APC/C activity by modifying, competing for, and/or blocking the binding site(s) for its substrates. Alternatively, they could reduce the processivity of ubiquitination of substrates, or prevent the release of substrates and thereby reduce substrate turnover. Indeed, the processivity of ubiquitination can determine the order of destruction of APC/C substrates (Rape et al., 2006). Most substrates require multiple APC/C binding events in order to build polyubiquitin chains, and only polyubiquitinated substrates are recognised by the 26S proteasome for destruction. Thus, if the processivity of ubiquitination or the turnover of APC/C substrates were impaired in mitosis, the degradation of securin and cyclin would no longer take place, which would result in mitotic arrest. Our results have highlighted the importance of Mad3 as an anaphase inhibitor, and suggest that it usually acts in concert with Mad2 to efficiently inhibit Cdc20-APC/C. Further experiments are necessary to fully understand their mechanism of action, and this will require a wide range of approaches including dynamic studies of the 'flux' of Mad2 and BubR1 through signalling scaffolds, further structural insights, the identification of important phosphorylation sites on both the checkpoint proteins and Cdc20-APC/C, and an in vitro reconstitution of MCC inhibition of the APC/C. We look forward to seeing the complex regulation of mitotic progression being described over the coming years.
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PMID:The spindle checkpoint: how do cells delay anaphase onset? 1836 27

Id-1 (Inhibitor of DNA binding/differential-1) plays a positive role in tumorigenesis through regulation of multiple signaling pathways. Recently, it is suggested that upregulation of Id-1 in cancer cells promotes chromosomal instability. However, the underlying molecular mechanism is not known. In this study, we report a novel function of Id-1 in regulation of mitosis through physical interaction with Cdc20 (cell division cycle protein 20) and Cdh1 (Cdc20 homolog 1). During early mitosis, Id-1 interacts with Cdc20 and RASSF1A (Ras association domain family 1A), leading to enhanced APC(Cdc20) activity, which in turn promotes cyclin B1/securin degradation and premature mitosis. During late mitosis, Id-1 binds to Cdh1 and disrupts the interaction between Cdh1 and APC, resulting in suppression of APC(Cdh1) activity. On the other hand, overexpression of Cdh1 leads to Id-1 protein degradation, suggesting that Id-1 may also act as a substrate of APC(Cdh1). The negative effect of Id-1 on APC(Cdh1) results in suppression of APC(Cdh1)-induced Aurora A and Cdc20 degradation, leading to failure in cytokinesis. As a result, overexpression of Id-1 in human prostate epithelial cells leads to polyploidy in response to microtubule disruption, and this effect is abolished when Id-1 expression is suppressed using antisense technology. These results demonstrate a novel function of Id-1 in promoting chromosomal instability through modification of APC/C activity during mitosis and provide a novel molecular mechanism accounted for the function of Id-1 as an oncogene.
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PMID:Id-1 promotes chromosomal instability through modification of APC/C activity during mitosis in response to microtubule disruption. 1837 12

Glypican-1 (GPC1), a member of the mammalian glypican family of heparan sulfate proteoglycans, is highly expressed in glioma blood vessel endothelial cells (ECs). In this study, we investigated the role of GPC1 in EC replication by manipulating GPC1 expression in cultured mouse brain ECs. Moderate GPC1 overexpression stimulates EC growth, but proliferation is significantly suppressed when GPC1 expression is either knocked down or the molecule is highly overexpressed. Flow cytometric and biochemical analyses show that high or low expression of GPC1 causes cell cycle arrest at mitosis or the G2 phase of the cell cycle, accompanied by endoreduplication and consequently polyploidization. We further show that GPC1 inhibits the anaphase-promoting complex/cyclosome (APC/C)-mediated degradation of mitotic cyclins and securin. High levels of GPC1 induce metaphase arrest and centrosome overproduction, alterations that are mimicked by overexpression of cyclin B1 and cyclin A, respectively. These observations suggest that GPC1 regulates EC cell cycle progression at least partially by modulating APC/C-mediated degradation of mitotic cyclins and securin.
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PMID:Glypican-1 regulates anaphase promoting complex/cyclosome substrates and cell cycle progression in endothelial cells. 1841 14

Securin is a chaperone protein with bifunctional properties. It binds to separase to inhibit premature sister chromatid separation until the onset of anaphase, and it also takes part in cell-cycle arrest after UV irradiation. At metaphase-to-anaphase transition, securin is targeted for proteasomal destruction by the anaphase-promoting complex or cyclosome (APC/C), allowing activation of separase. However, although securin is reported to undergo proteasome-dependent degradation after UV irradiation, the ubiquitin ligase responsible for securin ubiquitylation has not been well characterized. In this study, we show that UV radiation induced a marked reduction of securin in both the nucleus and cytoplasm. Moreover, we show that GSK-3beta inhibitors prevent securin degradation, and that CUL1 and betaTrCP are involved in this depletion. We also confirmed that SKP1-CUL1-betaTrCP (SCF(betaTrCP)) ubiquitylates securin in vivo, and identified a conserved and unconventional betaTrCP recognition motif (DDAYPE) in the securin primary amino acid sequence of humans, nonhuman primates and rodents. Furthermore, downregulation of betaTrCP caused an accumulation of securin in non-irradiated cells. We conclude that SCF(betaTrCP) is the E3 ubiquitin ligase responsible for securin degradation after UV irradiation, and that it is involved in securin turnover in nonstressed cells.
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PMID:UV-induced degradation of securin is mediated by SKP1-CUL1-beta TrCP E3 ubiquitin ligase. 1846 May 83

Successful mitosis requires the right protein be degraded at the right time. Central to this is the spindle checkpoint that prevents the destruction of securin and cyclin B1 when there are improperly attached chromosomes. The principal target of the checkpoint is Cdc20, which activates the anaphase-promoting complex/cyclosome (APC/C). A Drosophila Cdc20/fizzy mutant arrests in mitosis with high levels of cyclins A and B, but paradoxically the spindle checkpoint does not stabilize cyclin A. Here, we investigated this paradox and found that Cdc20 is rate limiting for cyclin A destruction. Indeed, Cdc20 binds efficiently to cyclin A before and in mitosis, and this complex has little associated Mad2. Furthermore, the cyclin A complex must bind to a Cks protein to be degraded independently of the checkpoint. Thus, we identify a crucial role for the Cks proteins in mitosis and one mechanism by which the APC/C can target substrates independently of the spindle checkpoint.
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PMID:Cdc20 and Cks direct the spindle checkpoint-independent destruction of cyclin A. 1847 75

The Spindle Assembly Checkpoint (SAC) delays the onset of anaphase until every chromosome is properly bioriented at the spindle equator. Mutations in SAC genes have been found in tumors and compromised SAC function can increase the incidence of some carcinomas in mice, providing further links between cancer etiology, chromosome segregation defects and aneuploidy. Here we review recent developments in our understanding of SAC control with particular emphasis on the role of the kinetochore, the nature of the tension sensing mechanism and the possibility that the SAC encompasses more than just stabilization of securin and/or cyclin-B via inhibition of the APC/C to delay anaphase initiation. Our primary emphasis is on the SAC in the budding yeast Saccharomyces cerevisiae. However, relevant findings in other cells are also discussed to highlight the generally conserved nature of SAC signaling mechanisms.
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PMID:Kinetochore structure and spindle assembly checkpoint signaling in the budding yeast, Saccharomyces cerevisiae. 1850 95

For successful mitosis, Cyclin B1 and Securin must be degraded efficiently before anaphase. Destruction of these mitotic regulators by the 26S proteasome is the result of their poly-ubiquitination by a multi-subunit E3 ligase: the Anaphase-Promoting Complex or Cyclosome (APC/C). Clearly, the APC/C is not just important for mitosis. Destruction of APC/C substrates such as Cdc20, Plk1, Aurora A and Skp2 directs events in G1. Strikingly, the APC/C needs to stay active even in quiescent cells to keep them out of the cell cycle and forms an intriguing link with pRb. An inactive APC/C stabilizes Geminin, Cyclin A and Cyclin B1, thereby securing completion of DNA synthesis and progression through G2-phase. In prometaphase the APC/C becomes active again, but is controlled by the spindle assembly checkpoint. Here we discuss how the APC/C is either held in check or released. We argue that shedding more light on the APC/C is also important to understand cancer and could help the design of treatment.
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PMID:To cell cycle, swing the APC/C. 1854 49

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