EC:2.7.11.22 - FACTA Search

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Addition of nerve growth factor (NGF) to PC12 cells promotes neuronal differentiation while inhibiting cell proliferation. In order to understand how NGF exerts its antimitogenic effect during differentiation, we have studied the mechanism by which this factor activates the promoter of the CDK inhibitor p21W4F1/CIP1. The minimal region of the p21 promoter required for the NGF-induction was mapped to a contiguous stretch of 10 bp located 83 bases upstream of the transcription initiation site. This GC-rich region was shown to interact specifically with the transcription factor Sp1 and the related protein Sp3, in either exponentially-growing or NGF-treated PC12 cells. The addition of NGF resulted in an accumulation of the transcriptional co-activator p300 in complexes associated with the NGF-responsive region. Transcriptional activity of Sp1, Sp3 and p300 was specifically induced by NGF in a Gal4-fusion assay, indicating that induction of p21 during neuronal differentiation may involve regulation of the activity of these factors by NGF. Furthermore, p300 was able to act as a co-activator for Sp1-mediated transcriptional activation in PC12 cells, suggesting that p300 and Sp1 may cooperate in activating p21 transcription during the withdrawal of neuronal precursors from the cell cycle. This hypothesis is supported by experiments showing that p300 and Sp1 form complexes in PC12 cells.
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PMID:Cooperation of Sp1 and p300 in the induction of the CDK inhibitor p21WAF1/CIP1 during NGF-mediated neuronal differentiation. 1036 58

Lactoferrin inhibits cell proliferation and suppresses tumor growth in vivo. However, the molecular mechanisms underlying these effects remain unknown. In this in vitro study, we demonstrate that treatment of breast carcinoma cells MDA-MB-231 with human lactoferrin induces growth arrest at the G1 to S transition of the cell cycle. This G1 arrest is associated with a dramatic decrease in the protein levels of Cdk2 and cyclin E correlated with an inhibition of the Cdk2 kinase activity. Cdk4 activity is also significantly decreased in the treated cells and is accompanied by an increased expression of the Cdk inhibitor p21(CIP1). Furthermore, we show that lactoferrin maintains the cell cycle progression regulator retinoblastoma protein pRb in a hypophosphorylated form. Additional experiments with synchronized cells by serum depletion confirm the anti-proliferative activity of human lactoferrin. These effects of lactoferrin occur through a p53-independent mechanism both in MDA-MB-231 cells and other epithelial cell lines such as HBL-100, MCF-7, and HT-29. These findings demonstrate that lactoferrin induces growth arrest by modulating the expression and the activity of key G1 regulatory proteins.
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PMID:Lactoferrin inhibits G1 cyclin-dependent kinases during growth arrest of human breast carcinoma cells. 1041 49

The heart is a postmitotic organ unable to regenerate after injury. The mechanisms controlling cell cycle arrest in cardiomyocytes are still unknown. Adenoviral delivery of E2F-1 to primary rat cardiomyocytes resulted in an increase in the expression of key cell cycle activators and apoptosis in >90% of the cells. However, insulin-like growth factor I (IGF-I) rescued cardiomyocytes from E2F-1-induced apoptosis. Furthermore, overexpression of E2F-1 in the presence of IGF-I induced the specific downregulation of total p21(CIP1) and p27(KIP1) protein levels and their dissociation from cyclin-dependent kinases (cdks). In contrast, p16(INK4) and p57(KIP2) protein levels and their association with cdks remained unaltered. The dissociation of p21(CIP1) and p27(KIP1) from their cdk complexes correlated well with the activation of cdk2, cdk4, and cdk6 and the release from cell cycle arrest. Under these circumstances, the number of cardiomyocytes in S phase rose from 1.2% to 23%. These results indicate that IGF-I renders cardiomyocytes permissive for cell cycle reentry. Finally, the specific downregulation of p21(CIP1) and p27(KIP1) further suggests their key role in the maintenance of cell cycle arrest in cardiomyocytes.
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PMID:E2F-1 overexpression in cardiomyocytes induces downregulation of p21CIP1 and p27KIP1 and release of active cyclin-dependent kinases in the presence of insulin-like growth factor I. 1041 94

Paradoxically, oncogenes and growth factors can induce proliferation and promote cellular survival but can also cause apoptosis and growth arrest. What determines whether a cell decides to proliferate, arrest growth, or die? Mitogens and activators of mitogen-activated pathways initiate the simultaneous production of proliferative (cyclins) and anti-proliferative (CDK inhibitors such as p21WAF1/CIP1) signals. Quiescent cells may respond to these signals by proliferation whereas proliferating cells may respond by growth arrest. Although pro-apoptotic oncoproteins, which constitute the downstream pathway (cyclin D, E2F, c-myc) directly induce proliferation, the activation of the upstream steps (growth factor receptors, Ras, cytoplasmic kinases) is required to prevent apoptosis.
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PMID:A node between proliferation, apoptosis, and growth arrest. 1044 Aug 67

The activity of the E2F transcription factor is regulated in part by pRB, the protein product of the retinoblastoma tumor suppressor gene. Studies of tumor cells show that the p16(ink4a)/cdk4/cyclin D/pRB pathway is mutated in most forms of cancer, suggesting that the deregulation of E2F, and hence the cell cycle, is a common event in tumorigenesis. Extragenic mutations that enhance or suppress E2F activity are likely to alter cell-cycle control and may play a role in tumorigenesis. We used an E2F overexpression phenotype in the Drosophila eye to screen for modifiers of E2F activity. Coexpression of dE2F and its heterodimeric partner dDP in the fly eye induces S phases and cell death. We isolated 33 enhancer mutations of this phenotype by EMS and X-ray mutagenesis and by screening a deficiency library collection. The majority of these mutations sorted into six complementation groups, five of which have been identified as alleles of brahma (brm), moira (mor) osa, pointed (pnt), and polycephalon (poc). osa, brm, and mor encode proteins with homology to SWI1, SWI2, and SWI3, respectively, suggesting that the activity of a SWI/SNF chromatin-remodeling complex has an important impact on E2F-dependent phenotypes. Mutations in poc also suppress phenotypes caused by p21(CIP1) expression, indicating an important role for polycephalon in cell-cycle control.
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PMID:A genetic screen for modifiers of E2F in Drosophila melanogaster. 1047 12

A novel synthetic retinoid, 6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (CD437), is a selective ligand of the RARgamma nuclear receptor. We examined the in vitro effects of CD437 and found that CD437 induces S phase arrest within 24 to 48 h, followed by cell death, in the p53-negative Hep3B and the p53-positive HepG2 human hepatoma cell lines. Based on observations of cellular and nuclear fragmentation, chromatin condensation, and DNA fragmentation, the CD437-mediated cell-killing effect appears to be due to apoptosis. On morphological examination, a number of CD437-treated cells were found to have increased 5- to 10-fold in size and persisted as single giant cells without cell division, while the remainder underwent nuclear division (multiple nuclei) but were unable to complete cytokinesis, and finally all died by apoptosis. In HepG2 cells that possessed wild-type p53, CD437-induced S phase arrest and apoptosis were accompanied by the up-regulation of cyclin A, cyclin B, p53, p21(CIP1/Waf1), Bad, and Bcl-Xs proteins and by a decrease in Bcl-2 protein levels. In Hep3B cells, CD437-mediated S phase arrest and apoptosis were also associated with a concomitant up-regulation of cyclin A, cyclin B, Bad, and Bcl-Xs. However, Hep3B cells did not express p53 or Bcl-2 messages. Olomoucine and roscovitine, the potent p34(cdc2) and CDK2 inhibitors, effectively blocked CD437-mediated cyclin A- and B-dependent kinase activation and prevented CD437-induced cell death. Furthermore, antisense oligonucleotide complementary to cyclin A and B mRNA significantly rescued CD437-induced apoptosis. These findings suggest that activation of cyclin A- and B-dependent kinases is a critical determinant of apoptotic death mediated by CD437.
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PMID:Involvement of cyclin-dependent kinase activities in CD437-induced apoptosis. 1052 23

Replicative senescence is characterized by irreversible growth arrest and has been defined by four genetic complementation groups. One of these groups is associated with the predominance of underphosphorylated, growth-suppressive retinoblastoma tumor suppressor protein (pRb). Although certain members of the cyclin-dependent kinase (cdk)/cyclin family, some of which phosphorylate pRb, are underexpressed in senescent cells, others are expressed but inactive. This lack of cdk activity and arrest in the G1 phase of the cell cycle is likely attributable to the induction upon senescence of the G1-S cdk/cyclin inhibitors p21 (WAF1/CIP1/Sdi) and p16INK4. In fact, in early presenescent normal diploid fibroblasts in which p21 is inactivated, senescence is bypassed or postponed. Moreover, in senescent cells in which p53 function was inhibited, DNA synthesis was reinitiated, an effect likely attributable, in part, to the dependence of p21 expression on p53. We report here that the apparent inactivation of p21 in senescent human fibroblasts through the introduction of inhibitory alpha-p21 antibodies causes these cells to reenter the S-phase of the cell cycle. The disruption of p21 activity affects the p21-Rb-E2F pathway in that the expression of genes transcriptionally regulated by E2F, such as cyclin A and cdc2, were found to be up-regulated in injected cells. No evidence of cell division was observed. This suggests that p21 plays an important role in the maintenance of senescence and in the inhibition of S-phase progression, but inhibition of p21 activity is insufficient to permit cells to complete the cell cycle.
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PMID:Microinjection of anti-p21 antibodies induces senescent Hs68 human fibroblasts to synthesize DNA but not to divide. 1053 18

The TRAIL death receptor KILLER/DR5 is induced by DNA damaging agents in wild-type p53-expressing cells. Here we show that, unlike the p53-target CDK-inhibitor p21WAF1/CIP1, the TRAIL death receptor KILLER/DR5 is only induced in cells undergoing p53-dependent apoptosis and not cell cycle arrest. Thus GM glioblastoma cells carrying an inducible MMTV-driven p53 gene undergo cell cycle arrest and upregulate p21 but not KILLER/DR5 expression upon dexamethasone exposure. WI38 normal lung fibroblasts undergoing cell cycle arrest in response to ionizing irradiation also induce p21 but not KILLER/DR5 gene expression. KILLER/DR5 upregulation is also deficient in irradiated lymphoblastoid cells derived from patients with Ataxia Teleangiectasia suggesting a role for the ATM-p53 pathway in regulating KILLER/DR5 expression after DNA damage. Inhibition of transcription by Actinomycin D blocks both KILLER/DR5 and p21 induction in cells undergoing p53-dependent apoptosis. Our results suggest that the p53-dependent transcriptional induction of KILLER/DR5 death receptor is restricted to cells undergoing apoptosis and not cells undergoing exclusively p53-dependent G1 arrest.
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PMID:Induction of the TRAIL receptor KILLER/DR5 in p53-dependent apoptosis but not growth arrest. 1059 42

Transforming growth factor beta (TGF-beta)-mediated G(1) arrest previously has been shown to specifically target inactivation of cyclin D:cyclin-dependent kinase (Cdk) 4/6 complexes. We report here that TGF-beta-treated human HepG2 hepatocellular carcinoma cells arrest in G(1), but retain continued cyclin D:Cdk4/6 activity and active, hypophosphorylated retinoblastoma tumor suppressor protein. Consistent with this observation, TGF-beta-treated cells failed to induce p15(INK4b), down-regulate CDC25A, or increase levels of p21(CIP1), p27(KIP1), and p57(KIP2). However, TGF-beta treatment resulted in the specific inactivation of cyclin E:Cdk2 complexes caused by absence of the activating Thr(160) phosphorylation on Cdk2. Whole-cell lysates from TGF-beta-treated cells showed inhibition of Cdk2 Thr(160) Cdk activating kinase (CAK) activity; however, cyclin H:Cdk7 activity, a previously assumed mammalian CAK, was not altered. Saccharomyces cerevisiae contains a genetically and biochemically proven CAK gene, CAK1, that encodes a monomeric 44-kDa Cak1p protein unrelated to Cdk7. Anti-Cak1p antibodies cross-reacted with a 45-kDa human protein with CAK activity that was specifically down-regulated in response to TGF-beta treatment. Taken together, these observations demonstrate that TGF-beta signaling mediates a G(1) arrest in HepG2 cells by targeting Cdk2 CAK and suggests the presence of at least two mammalian CAKs: one specific for Cdk2 and one for Cdk4/6.
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PMID:Transforming growth factor beta targeted inactivation of cyclin E:cyclin-dependent kinase 2 (Cdk2) complexes by inhibition of Cdk2 activating kinase activity. 1061 20

In search for angiogenesis inhibitors, we tested protease and proteasome inhibitors for the induction of G1 arrest and selective inhibition of growth of human umbilical vein endothelial cells (HUVECs). Serine protease-, cysteine protease-, aspartate protease-, and aminopeptidase-inhibitors did not inhibit bFGF/FBS-induced S-phase induction in HUVECs, but a proteasome inhibitor, lactacystin did inhibit it reversibly. Lactacystin increased the cellular level of p53 and cdk2-associated p21WAF1/CIP1 leading to cdk2 inactivation. In addition to the angiogenesis inhibitor TNP-470, lactacystin also inhibited the growth of HUVECs selectively at about a 20 times lower concentration than that of other human cell lines, including normal fibroblasts and carcinoma cells. Lactacystin induced p53-dependent p21WAF1/CIP1 expression at lower concentrations in HUVECs than in other cells. These cellular effects were also observed with a tripeptide-type proteasome inhibitor, N-Ac-Leu-Leu-norleucinal.
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PMID:Induction of G1 arrest and selective growth inhibition by lactacystin in human umbilical vein endothelial cells. 1062 38

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