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)

The c-Myc protein is a transcription factor with an N-terminal transcriptional regulatory domain and C-terminal oligomerization and DNA-binding motifs. Previous studies have demonstrated that p107, a protein related to the retinoblastoma protein, binds to the c-Myc transcriptional activation domain and suppresses its activity. We sought to characterize the transforming activity and transcriptional properties of lymphoma-derived mutant MYC alleles. Alleles encoding c-Myc proteins with missense mutations in the transcriptional regulatory domain were more potent than wild-type c-Myc in transforming rodent fibroblasts. Although the mutant c-Myc proteins retained their binding to p107 in in vitro and in vivo assays, p107 failed to suppress their transcriptional activation activities. Many of the lymphoma-derived MYC alleles contain missense mutations that result in substitution for the threonine at codon 58 or affect sequences flanking this amino acid. We observed that in vivo phosphorylation of Thr-58 was absent in a lymphoma cell line with a mutant MYC allele containing a missense mutation flanking codon 58. Our in vitro studies suggest that phosphorylation of Thr-58 in wild-type c-Myc was dependent on cyclin A and required prior phosphorylation of Ser-62 by a p107-cyclin A-CDK complex. In contrast, Thr-58 remained unphosphorylated in two representative mutant c-Myc transactivation domains in vitro. Our studies suggest that missense mutations in MYC may be selected for during lymphomagenesis, because the mutant MYC proteins have altered functional interactions with p107 protein complexes and fail to be phosphorylated at Thr-58.
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PMID:A link between increased transforming activity of lymphoma-derived MYC mutant alleles, their defective regulation by p107, and altered phosphorylation of the c-Myc transactivation domain. 762 99

We have investigated the effects of deregulated expression of the human c-MYC protooncogene on cyclin gene expression and on the transcription factor E2F. We found that constitutive expression of MYC or activation of conditional MycER chimeras led to higher levels of cyclin A and cyclin E mRNA. Activation of cyclin A expression by MYC led to a growth factor-independent association of cyclin A and cdk2 with the transcription factor E2F and correlated with an increase in E2F transcriptional activity. In contrast, expression of the G1 phase cyclin D1 was strongly reduced in MYC-transformed cells. In synchronized cells, repression of cyclin D1 by MYC occurred very early in the G1 phase of the cell cycle.
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PMID:Differential modulation of cyclin gene expression by MYC. 838 81

Lovastatin is a potent inhibitor of protein prenylation, and it has been reported to have pleiotropic cellular effects. In the present study we have elucidated the effects of lovastatin on cell cycle progression and apoptosis of normal human B-lymphocytes. When added to B-lymphocytes stimulated with anti-immunoglobulin (anti-mu) and SAC, lovastatin (20 microM) inhibited the cells in the late G1 phase of the cell cycle. Thus, no early activation parameters such as Ca(2+) flux or MYC induction were affected by lovastatin, whereas progression of cells into the second cell cycle as well as DNA synthesis was markedly reduced. We therefore examined the effects of lovastatin on components of the cell cycle machinery responsible for regulating the G1/S transition. We demonstrated that pRB phosphorylation, cdk2 activity needed for this phosphorylation, and the levels of cyclin A, D, and E were inhibited after 24 h of lovastatin treatment, while the levels of p27(Kip1) were elevated. There was no effect on p21(Cip1), cyclin D2, cdk4, and cdk6. These data are consistent with the cells being inhibited by lovastatin between 24 and 32 h into G1. Lovastatin added to stimulated B-cells in late G1 still inhibited the DNA synthesis by 60%, but at this point only minor effects were noted on the cell cycle machinery. We therefore looked for induced apoptosis as an explanation for reduced S-phase entry of the cells. However, despite the ability to enhance the apoptosis of unstimulated B-cells from 48 to 61% as judged by the TUNEL method, lovastatin only marginally affected apoptosis when administered to stimulated B-cells. Thus, it appears that accelerated apoptosis cannot account for the effect of lovastatin on cell cycle progression.
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PMID:Lovastatin inhibits G1/S transition of normal human B-lymphocytes independent of apoptosis. 1050 7

MYC transcription factors are potent stimulators of cell proliferation. It has been suggested that the CDK-inhibitor p27kip1 is a critical G1 phase cell cycle target of c-MYC. We show here that mouse embryo fibroblasts deficient for both p27kip1 and the related p21cip1 are still responsive to stimulation by c-MYC and can be arrested in G1 by a dominant negative mutant of c-MYC. This growth arrest can be overruled by ectopic expression of E2F or adenovirus E1A, but not by a mutant of E1A defective for binding to retinoblastoma family proteins. We show that fibroblasts with a genetic disruption of all three retinoblastoma family members (pRb, p107 and p130) are unresponsive to a dominant negative c-MYC mutant. These data indicate that p27kip1 is not the only rate limiting cell cycle target of c-MYC and suggest that regulation of E2F is also essential for c-MYC's mitogenic activity.
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PMID:p27kip1-independent cell cycle regulation by MYC. 1103 98

We have explored the effects of the conditional MYC-estrogen receptor fusion protein, MYC-ERTM, in human mortal fibroblasts, WI38, on cell-cycle entry, apoptosis and gene expression. The results indicate that activation of MYC-ERTM in WI38 cells is sufficient to cause S phase entry of quiescent cells, which is preceded by phosphorylation of Rb and activation of the Cdk2-associated kinase. We also analysed the MYC protein variant, MYC-S, which lacks part of the transcriptional activation domain but includes the conserved MYC box II and 26 amino acids N-terminal to it. MYC-S was previously shown to promote proliferation and apoptosis of immortalized rodent cell lines. The results indicate that MYC-S has undetectable activity as an inducer of S phase or apoptosis of quiescent WI38 cells. However, Myc-S stimulates proliferation of WI38 cells in the presence of 10% fetal calf serum. Surprisingly, we found that MYC-S, previously considered solely a repressor of specific reporter genes, is instead a weak transactivator of endogenous target genes both in mortal and immortalized cells. In addition, MYC-S exhibit a weak repressor activity upon an endogenous target gene only in immortalized cells. MYC-S transcriptional properties suggest that MYC box II and the adjacent N-terminal amino acids, while not sufficient for full repression function, participate in transactivation of endogenous target genes.
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PMID:Differential activity of conditional MYC and its variant MYC-S in human mortal fibroblasts. 1106 56

The aim of this study was to evaluate the expression profile of proteins involved in growing of human non-small cell lung cancer (NSCLC) in athymic nude mice. The expressions of 20 gene products in primary NSCLC of 170 patients were analyzed and the proteins were correlated with the transplantability of the carcinomas in nude mice. There was no relationship between xenotransplantability of human non-small cell lung cancer in nude mice and histology, stage or lymph node involvement. Of the analyzed proliferative factors PCNA, cyclin A, cyclin D, cdk2, cdk4 and cell cycle phases only cyclin D, cdk4 and the cell cycle phases were up-regulated in growing carcinomas. There was also a correlation between the apoptotic indices and the take rate in nude mice. Concerning microvessel density and angiogenic factors only VEGF showed a relation to xenotransplantability. Of the proto-oncogenes and suppressor gene products N-RAS, P53, FOS and JUN revealed a relationship to the take rate of NSCLC, while such a relationship was not found with MYC, ERBB-1 and ERBB-2. In a second step, a hierarchical cluster analysis was carried out. The resulting clusters were correlated with the take rate of the carcinomas in nude mice. The expression of JUN, N-RAS, FOS, cyclin D, and cdk4 were significantly different in both groups with non- overlapping confidence intervals. Thus, the up-regulation of the proteins JUN, N-RAS, FOS, cyclin D and cdk4 predicts the growth of NSCLC in nude mice.
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PMID:Expression profile of proteins involved in the xenotransplantability of non-small cell lung cancers into athymic nude mice. 1178 7

Depending upon the cellular and physiologic context, the overexpression of the MYC proto-oncogene results in rapid cell growth, proliferation, induction of apoptosis and/or proliferative arrest. What determines the precise consequences upon MYC activation is not clear. We have found that cyclin-dependent kinase 2 (CDK2) is required by MYC to induce apoptosis. MYC-induced apoptosis was suppressed in mouse embryonic fibroblasts (MEF) knocked out for Cdk2 or normal human fibroblasts (NHF) upon expression of the CDK2 inhibitor p27 or treated with RNAi directed at CDK2. Knockout of Cdk2 did not prevent MYC from inducing p53 and Bim. The inhibition of CDK2 did not prevent apoptosis induced by the DNA damaging agent etoposide. Our results surprisingly suggest that CDK2 defines whether MYC induction causes apoptosis.
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PMID:CDK2 is required by MYC to induce apoptosis. 1676 Jun 55

Overexpression of the MYC proto-oncogene exerts protean biological effects that may contribute to its ability to induce tumorigenesis including enforcing cellular growth and proliferation and inducing genomic instability. MYC overexpression may induce genomic damage at least in part by causing inappropriate DNA replication. MYC may induce inappropriate DNA replication through the activation of Cyclin E/CDK2. To address this possibility, the effects of ectopic p27 expression in immortal rat fibroblasts or human breast epithelial cell lines on MYC-induced endo-reduplication was determined. p27 inhibited Cyclin E/CDK2 associated kinase activity, but failed to prevent MYC from inducing transit from G1 to S phase; inhibited at lower but not higher levels of MYC transit from G2 to S and endo-reduplication; however, MYC failed to enforce mitotic cellular division. In addition, MYC was found to induce Cyclin E; and Cyclin E in turn was found to be able to induce endo-reduplication. Hence, MYC appears induce inappropriate cell cycle transit, but not mitotic cellular division independent of p27 mediated inhibition of Cyclin E/Cdk2. Our results have implications for the mechanisms by which MYC overexpression dysregulates cell cycle transit, causes genomic destabilization and is restrained from causing tumorigenesis.
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PMID:MYC can enforce cell cycle transit from G1 to S and G2 to S, but not mitotic cellular division, independent of p27-mediated inihibition of cyclin E/CDK2. 1676 Jun 57

MicroRNAs (miRNAs) are small non-coding RNAs that regulate a large variety of cellular processes including differentiation, apoptosis and proliferation. Several miRNAs display defective expression patterns in human tumors with the consequent alteration of target oncogene or tumor suppressor genes. Many of these miRNAs modulate the major proliferation pathways through direct interaction with critical regulators such as RAS, PI3K/PTEN or ABL, as well as members of the retinoblastoma pathway, Cyclin-CDK complexes or cell cycle inhibitors of the INK4 or Cip/Kip families. A complex interplay between miRNAs and MYC or E2F family members also exists to modulate cell cycle-dependent transcription during normal or tumoral proliferation. The ability of miRNAs to modulate these proliferation pathways may have relevant implications not only in physiological or developmental processes but also in tumor progression or cancer therapy.
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PMID:Control of cell proliferation pathways by microRNAs. 1884 98

The MYC and RAS oncogenes are frequently activated in cancer and, together, are sufficient to transform rodent cells. The basis for this cooperativity remains unclear. We found that although Ras interfered with Myc-induced apoptosis, Myc repressed Ras-induced senescence, together abrogating two main barriers of tumorigenesis. Inhibition of cellular senescence required phosphorylation of Myc at Ser-62 by cyclin E/cyclin-dependent kinase (Cdk) 2. Cdk2 interacted with Myc at promoters, where it affected Myc-dependent regulation of genes, including Bmi-1, p16, p21, and hTERT, which encode proteins known to control senescence. Repression of senescence by Myc was abrogated by the Cdk inhibitor p27Kip1, which is induced by antiproliferative signals like IFN-gamma or by pharmacological inhibitors of Cdk2 but not by inhibitors of other Cdks. In contrast, a phospho-mimicking Myc-S62D mutant was resistant to these manipulations. Inhibition of cyclin E/Cdk2 reversed the senescence-associated gene expression pattern imposed by Myc/cyclin E/Cdk2. This indicates a role of Cdk2 as a transcriptional cofactor and activator of the antisenescence function of Myc and provides mechanistic insight into the Myc-p27Kip1 antagonism. Finally, our findings highlight that pharmacological inhibition of Cdk2 activity is a potential therapeutical principle for cancer therapy, in particular for tumors with activated Myc or Ras.
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PMID:Phosphorylation by Cdk2 is required for Myc to repress Ras-induced senescence in cotransformation. 1996

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