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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CDC4/FBXW7 is part of a ubiquitin ligase complex which targets molecules such as
cyclin E
, c-myc, and c-jun for destruction. CDC4 mutations occur in several cancer types and are best described in colorectal tumors. Knockout of CDC4 in vitro in colorectal cancer cells causes changes suggestive of chromosomal instability (CIN). In p53(+/-) mice, radiation-induced lymphomas show deletion or mutation of one copy of CDC4 and knockdown of CDC4 leads to increased aneuploidy in mouse fibroblasts. We screened 244 colorectal tumors and 40 cell lines for CDC4 mutations and allelic loss. Six percent (18 of 284) of tumors, including near-diploid (CIN-) lesions, harbored CDC4 mutations and there was no association between mutation and CIN (polyploidy). The CDC4 mutation spectrum in colorectal tumors was heavily biased towards C:G > T:A changes, either missense mutations at critical arginine residues or nonsense changes in the 5' half of the gene. The reasons for this odd mutation spectrum were unclear but C:G > T:A changes were not found more often than expected at
APC
, K-ras, or p53 in the same tumors and we found no specific defects in DNA repair to account for the observations. No colorectal tumor was found to carry two CDC4 mutations predicted to abolish protein function; partial loss of CDC4 function may therefore cause tumorigenesis. The in vitro studies, therefore, did not assess the functional effects of mutant alleles which are found in vivo. CDC4 mutations may be selected primarily to drive progression through the cell cycle although CIN might be an important secondary effect in some cancers.
...
PMID:CDC4 mutations occur in a subset of colorectal cancers but are not predicted to cause loss of function and are not associated with chromosomal instability. 1635 43
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.
...
PMID:Metaphase arrest by cyclin E-Cdk2 requires the spindle-checkpoint kinase Mps1. 1702 95
Since the discovery of cytostatic factor (CSF) 35 years ago, significant progress has been made in identifying molecular components of CSF activity and the mechanism of CSF-induced metaphase II arrest (CSF arrest). This short review focuses on recent discoveries in the field and discusses the implication of these results for a general picture of CSF establishment and release. One recent focus is on the
cyclin E
/Cdk2 pathway. The discovery of a downstream target for
cyclin E
/Cdk2, the spindle checkpoint protein Mps1, provides insight into how
cyclin E
/Cdk2 contributes to CSF arrest. The anaphase promoting complex/cyclosome (
APC
/C) inhibitor Emi2 is another recent focus of work in the field. It is now clear that not only is degradation of Emi2 critical for CSF release, but its abrupt accumulation during meiosis II (M II) is also required for the establishment of CSF arrest. Thus, by discrete pathways of
APC
/C inhibition operative during CSF arrest, the stability of cell cycle arrest in the egg appears to be reinforced by multiple mechanisms.
...
PMID:New insight into metaphase arrest by cytostatic factor: from establishment to release. 1732 13
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.
...
PMID:Cyclin E overexpression impairs progression through mitosis by inhibiting APC(Cdh1). 1766 32
Expression of the anaphase-promoting complex/cyclosome (
APC
/C) inhibitor Emi1 is required for the accumulation of
APC
/C substrates crucial for DNA synthesis and mitotic entry. We show that in vivo Emi1 expression correlates with the proliferative status of the cellular compartment and that cells lacking Emi1 undergo cellular senescence. Emi1 depletion leads to strong decreases in E2F target mRNA and
APC
/C substrate protein abundances. However,
cyclin E
mRNA and
cyclin E protein
levels and associated kinase activities are increased. Cells lacking Emi1 undergo DNA damage, likely explained by replication stress upon deregulated
cyclin E
- and A-associated kinase activities. Inhibition of ATM kinase prevents induction of senescence, implying that senescence is a consequence of DNA damage. Surprisingly, no senescence or no extensive amount of senescence is evident upon depletion of the Emi1-stabilizing factor Evi5 or Pin1, respectively. Our data suggest that maintenance of a protein stabilization/mRNA expression positive-feedback circuit fueled by Emi1 is required for accurate cell cycle progression, maintenance of DNA integrity, and prevention of cellular senescence.
...
PMID:Loss of Emi1-dependent anaphase-promoting complex/cyclosome inhibition deregulates E2F target expression and elicits DNA damage-induced senescence. 1787 40
The endocycle is a commonly observed variant cell cycle in which cells undergo repeated rounds of DNA replication with no intervening mitosis. How the cell cycle machinery is modified to transform a mitotic cycle into endocycle has long been a matter of interest. In both plants and animals, the transition from the mitotic cycle to the endocycle requires Fzr/Cdh1, a positive regulator of the Anaphase-Promoting Complex/Cyclosome (
APC
/C). However, because many of its targets are transcriptionally downregulated upon entry into the endocycle, it remains unclear whether the
APC
/C functions beyond the mitotic/endocycle boundary. Here, we report that
APC
/C Fzr/Cdh1 activity is required to promote the G/S oscillation of the Drosophila endocycle. We demonstrate that compromising
APC
/C activity, after cells have entered the endocycle, inhibits DNA replication and results in the accumulation of multiple
APC
/C targets, including the mitotic cyclins and Geminin. Notably, our data suggest that the activity of
APC
/C Fzr/Cdh1 during the endocycle is not continuous but is cyclic, as demonstrated by the
APC
/C-dependent oscillation of the pre-replication complex component Orc1. Taken together, our data suggest a model in which the cyclic activity of
APC
/C Fzr/Cdh1 during the Drosophila endocycle is driven by the periodic inhibition of Fzr/Cdh1 by
Cyclin E
/Cdk2. We propose that, as is observed in mitotic cycles, during endocycles,
APC
/C Fzr/Cdh1 functions to reduce the levels of the mitotic cyclins and Geminin in order to facilitate the relicensing of DNA replication origins and cell cycle progression.
...
PMID:APC/CFzr/Cdh1 promotes cell cycle progression during the Drosophila endocycle. 1832 83
Endoreplicating cells undergo multiple rounds of DNA replication leading to polyploidy or polyteny. Oscillation of
Cyclin E
(CycE)-dependent kinase activity is the main driving force in Drosophila endocycles. High levels of CycE-Cdk2 activity trigger S phase, while down-regulation of CycE-Cdk2 activity is crucial to allow licensing of replication origins. In mitotic cells relicensing in S phase is prevented by Geminin. Here we show that Geminin protein oscillates in endoreplicating salivary glands of Drosophila. Geminin levels are high in S phase, but drop once DNA replication has been completed. DNA licensing is coupled to mitosis through the action of the anaphase-promoting complex/cyclosome (
APC
/C). We demonstrate that, even though endoreplicating cells never enter mitosis,
APC
/C activity is required in endoreplicating cells to mediate Geminin oscillation. Down-regulation of
APC
/C activity results in stabilization of Geminin protein and blocks endocycle progression. Geminin is only abundant in cells with high CycE-Cdk2 activity, suggesting that
APC
/C-Fzr activity is periodically inhibited by CycE-Cdk2, to prevent relicensing in S-phase cells.
...
PMID:The anaphase-promoting complex/cyclosome (APC/C) is required for rereplication control in endoreplication cycles. 1855 83
Terminally differentiated cells in Drosophila melanogaster wings and eyes are largely resistant to proliferation upon deregulation of either E2F or
cyclin E
(CycE), but exogenous expression of both factors together can bypass cell cycle exit. In this study, we show this is the result of cooperation of cell cycle control mechanisms that limit E2F-CycE positive feedback and prevent cycling after terminal differentiation. Aberrant CycE activity after differentiation leads to the degradation of E2F activator complexes, which increases the proportion of CycE-resistant E2F repressor complexes, resulting in stable E2F target gene repression. If E2F-dependent repression is lost after differentiation, high anaphase-promoting complex/cyclosome (
APC
/C) activity degrades key E2F targets to limit cell cycle reentry. Providing both CycE and E2F activities bypasses exit by simultaneously inhibiting the
APC
/C and inducing a group of E2F target genes essential for cell cycle reentry after differentiation. These mechanisms are essential for proper development, as evading them leads to tissue outgrowths composed of dividing but terminally differentiated cells.
...
PMID:A robust cell cycle control mechanism limits E2F-induced proliferation of terminally differentiated cells in vivo. 2054 1
Cyclins E1 drives the initiation of DNA replication, and deregulation of its periodic expression leads to mitotic delay associated with genomic instability. Since it is not known whether the closely related protein cyclin E2 shares these properties, we overexpressed cyclin E2 in breast cancer cells. This did not affect the duration of mitosis, nor did it cause an increase in p107 association with CDK2. In contrast,
cyclin E1
overexpression led to inhibition of the
APC
complex, prolonged metaphase and increased p107 association with CDK2. Despite these different effects on the cell cycle, elevated levels of either
cyclin E1
or E2 led to hallmarks of genomic instability, i.e., an increased proportion of abnormal mitoses, micronuclei and chromosomal aberrations. Cyclin E2 induction of genomic instability by a mechanism distinct from
cyclin E1
indicates that these two proteins have unique functions in a cancer setting.
...
PMID:Cyclin E2 induces genomic instability by mechanisms distinct from cyclin E1. 2354 69
Fbw7 and Cdh1 are substrate-recognition subunits of the SCF- and
APC
-type E3 ubiquitin ligases, respectively. There is emerging evidence suggesting that both Fbw7 and Cdh1 function as tumor suppressors by targeting oncoproteins for destruction. Loss of Fbw7, but not Cdh1, is frequently observed in various human tumors. However, it remains largely unknown how Fbw7 mechanistically functions as a tumor suppressor and whether there is a signaling crosstalk between Fbw7 and Cdh1. Here, we report that Fbw7-deficient cells not only display elevated expression levels of SCF(Fbw7) substrates, including
cyclin E
, but also have increased expression of various
APC
(Cdh1) substrates. We further defined
cyclin E
as the critical signaling link by which Fbw7 governs
APC
(Cdh1) activity, as depletion of
cyclin E
in Fbw7-deficient cells results in decreased expression of
APC
(Cdh1) substrates to levels comparable to those in wild-type (WT) cells. Conversely, ectopic expression of
cyclin E
recapitulates the aberrant
APC
(Cdh1) substrate expression observed in Fbw7-deficient cells. More importantly, 4A-Cdh1 that is resistant to Cdk2/
cyclin E
-mediated phosphorylation, but not WT-Cdh1, reversed the elevated expression of various
APC
(Cdh1) substrates in Fbw7-deficient cells. Overexpression of 4A-Cdh1 also resulted in retarded cell growth and decreased anchorage-independent colony formation. Altogether, we have identified a novel regulatory mechanism by which Fbw7 governs Cdh1 activity in a
cyclin E
-dependent manner. As a result, loss of Fbw7 can lead to aberrant increase in the expression of both SCF(Fbw7) and
APC
(Cdh1) substrates. Our study provides a better understanding of the tumor suppressor function of Fbw7, and suggests that Cdk2/
cyclin E
inhibitors could serve as effective therapeutic agents for treating Fbw7-deficient tumors.
...
PMID:Regulation of APC(Cdh1) E3 ligase activity by the Fbw7/cyclin E signaling axis contributes to the tumor suppressor function of Fbw7. 2367 Jan 62
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