EC:4.1.1.17 - FACTA Search

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Query: EC:4.1.1.17 (ornithine decarboxylase)
6,351 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of the product of the c-myc protooncogene in the regulation of cellular proliferation and differentiation is well established. Recent reports that c-Myc can serve as a sequence-specific transcriptional activator have begun to elucidate the mechanism by which c-Myc exerts such a profound effect on the mitotic status of a cell. To identify a potential target gene for Myc-mediated trans-activation, we examined the regulation of the ornithine decarboxylase (ODC) gene by c-Myc. ODC is the first and rate-limiting enzyme involved in the synthesis of the polyamines and has been shown to be required for entry into and progression through the cell cycle. Using a conditionally active c-Myc-estrogen receptor chimeric protein, we found estrogen-dependent activation of ODC expression and enzymatic activity. The induction of ODC mRNA expression was not dependent upon de novo protein synthesis. These data suggest that one downstream pathway for Myc-directed cell cycle control is the induction of ODC expression.
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PMID:c-Myc induces the expression and activity of ornithine decarboxylase. 829 93

c-Myc is a transcriptional activator implicated in the control of cell proliferation, differentiation and transformation, but is also involved in the regulation of programmed cell death, apoptosis. Despite intensive research, the molecular mechanisms by which c-Myc triggers and executes cell death remain still elusive. Here, we made use of Rat 1A MycER cells expressing a conditionally active c-Myc protein and tested first the hypothesis that ornithine decarboxylase (ODC), which is a transcriptional target of c-Myc, were a mediator of c-Myc-induced apoptosis. However, our results show that the activity of ODC is not required for the c-Myc-mediated apoptosis to occur in these cells. We also found that the expression of p53, p21waf1/cip1, Bcl-2, Bax, Bcl-xL, Bad and cyclins D1, E, A and B did not show any significant changes following c-Myc induction. But, our studies revealed that the c-Myc induced apoptosis is associated with a specific cleavage of poly(ADPribose) polymerase (PARP), suggesting that a cysteine protease of the ICE/CED-3 family is involved. Moreover, we found that the cysteine protease CPP32/Caspase-3, which is known to cleave PARP, is processed from its inactive form to an active protease composed of 17 and 12 kDa subunits; whilst Ich-1/Caspase-2 belonging to another subset of this protease family was not processed/ activated following c-Myc activation. The activation of CPP32 and apoptotic cell death were inhibited by addition of Z-VAD-fmk, a universal inhibitor of ICE-like proteases. Further, a selective inhibitor of CPP32-like proteases (Z-DEVD-fmk) partly inhibited apoptosis. These results provide evidence that the ICE/CED3-family proteases, CPP32 and likely others, play a critical role in the execution of a nuclear proto-oncogene, c-Myc-induced apoptosis.
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PMID:Involvement of CPP32/Caspase-3 in c-Myc-induced apoptosis. 946 64

It is accepted that apoptosis is a gene-controlled process of cellular self-destruction. It occurs during physiological regulation and in pathological situations in the life of a cell. In the immune system, several different intracellular and extracellular factors have been associated with the induction of apoptosis, and the final responses depend on the cell system and the acquired signals. In lymphoid cells, dexamethasone-induced apoptosis is associated with c-myc downregulation in cells that remain in G0-G1 until the point of death. Ornithine decarboxylase (ODC), a key enzyme involved in polyamine biosynthesis, is regulated by c-myc, which is a transcriptional activator implicated not only in the control of cell proliferation and differentiation but also in programmed cell death. As dimethylsulphoxide (DMSO) induces apoptosis in the RPMI-8402 human pre-T cell line, the present study analysed the involvement of the c-myc proto-oncogene and polyamine pathway as mediators of apoptosis. Cell growth, programmed cell death, c-myc expression, ODC activity and intracellular polyamine content were detected after DMSO and difluoromethylornithine (DFMO) treatment. DMSO-treated cells exhibit a decrease in ODC activity and polyamine levels associated with cell growth arrest and programmed cell death induction. The expression of c-myc proto-oncogene, as its mRNA or protein, is specifically down-regulated. DFMO, a well defined polyamine biosynthesis inhibitor, completely blocks ODC activity, resulting in growth inhibition but not apoptosis. Moreover, in these samples no evidence of changes of c-myc expression were found. The results obtained suggest that, in RPMI-8402 cells, DMSO provokes a c-myc-dependent decrease of ODC activity followed by a depletion of intracellular polyamine levels, associated with programmed cell death and cell growth arrest.
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PMID:The c-myc gene regulates the polyamine pathway in DMSO-induced apoptosis. 1053 58

Myc is a transcriptional activator whose deregulated expression not only promotes proliferation but also induces or sensitizes cells to apoptosis. Here we demonstrate that c-myc plays a role in triggering apoptosis in CEM T leukaemia cells exposed to progressive medium exhaustion. Indeed starved cells undergo apoptosis in the presence of constitutively elevated c-myc expression and the phorbol ester, phorbol 12-miristate 13-acetate (PMA), which rescues cells from apoptosis, induces complete c-myc down-regulation. We also investigate the hypothesis that ornithine decarboxylase (ODC), a transcriptional target of c-myc, is a down-stream mediator of c-myc driven apoptosis. We demonstrate that PMA induces in starved cells an earlier and larger decrease in ODC expression (mRNA and activity) and intracellular polyamine content, compared to untreated starved cells. Moreover we show that alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ODC enzymatic activity, effectively reduces, while exogenous added polyamines enhance apoptosis in starved cells. All these data indicate that ODC and polyamines may act as facilitating factors in triggering apoptosis induced by growth/survival factors withdrawal.
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PMID:Down-modulation of c-myc expression by phorbol ester protects CEM T leukaemia cells from starvation-induced apoptosis: role of ornithine decarboxylase and polyamines. 1159 94

Somatic cells in the majority of colorectal polyps and cancers contain mutations/deletions in the adenomatous polyposis coli (APC) tumor suppressor gene. APC is involved in normal intestinal development and acts to influence a variety of cellular processes. Loss of APC function leads to intestinal neoplasia in both mice and humans. APC influences expression of specific genes, including the c-Myc oncogene, which functions as a transcriptional activator. Loss of APC function leads to alterations in c-Myc-regulated genes including ornithine decarboxylase (ODC), the first enzyme in polyamine synthesis. A single nucleotide polymorphism (SNP) in the ODC promoter affecting c-Myc-dependent expression has been associated with risk of colorectal and other cancers. Pharmaceuticals that target structural features of the c-Myc promoter, and suppress expression of c-Myc and other genes regulated by similar promoter elements, are being developed as potential colorectal cancer chemotherapies. Difluoromethylornithine (DFMO), a selective inhibitor of ODC, is under clinical evaluation as a colorectal cancer chemopreventive agent. APC and APC-dependent genes, such as c-Myc and ODC, may be useful as genetic markers of risk and as targets for chemoprevention and therapy for colorectal cancer.
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PMID:A comprehensive strategy to combat colon cancer targeting the adenomatous polyposis coli tumor suppressor gene. 1638 48

The promoter of the ornithine decarboxylase (ODC) gene contains two E-boxes, which are critical sites for transcriptional activation by the binding of c-Myc-Max heterodimers. We have identified heterogeneous nuclear ribonuclear protein U (hnRNP U) as a component of the complex formed on the E-box-containing promoter region of the ODC gene by using DNA-affinity chromatography, immunoprecipitation and chromatin immunoprecipitation assays. The N-terminal domain of hnRNP U was responsible for the association with c-Myc-Max complex. Down-regulation of hnRNP U with RNA interference blocked the induction of the ODC gene and cell growth by serum stimulation, suggesting that hnRNP U is a coactivator of the c-Myc-Max complex and essential for cell proliferation. Electrophoretic mobility-shift assays revealed that the segment between the two E-boxes in the promoter is the primary binding site of hnRNP U. The putative binding sequence was narrowed-down to a 13-nucleotide segment by comparing the sequence between the E-boxes with the binding sites of hnRNP U, which were recently identified in the promoter of Bmal1, a core component of the circadian molecular oscillator. These findings increase our knowledge of how the c-Myc-Max complex exerts its transcriptional regulatory role and suggest that hnRNP U may be a coactivator of this transcriptional activator complex.
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PMID:hnRNP U interacts with the c-Myc-Max complex on the E-box promoter region inducing the ornithine decarboxylase gene. 1957 63

The (c-)Myc oncoprotein and its cousins, the N-Myc and L-Myc proteins, show all hallmarks of transcriptional activator proteins: Myc carries a carboxy-terminal DNA binding domain, which mediates sequence-specific binding to DNA. At its amino-terminus, Myc carries a transcriptional regulatory domain that strongly activates transcription when fused to an ectopic DNA binding domain; moreover, the strength of activation of different members of the Myc family correlates with their ability to transform rodent cells. Furthermore, activation of conditional alleles of Myc, either tetracycline or estrogen inducible, upregulates expression of a large number of genes, both in tissue culture and in transgenic animals. Indeed, many of these genes have essential roles in cell proliferation, cell growth, and metabolism; two of them, odc, encoding ornithine decarboxylase, a rate-limiting enzyme of polyamine biosynthesis, and rpl24, encoding a constituent of the large ribosomal subunit, are haploinsufficient for Myc-induced lymphomagenesis but not for normal development, arguing very strongly that upregulation of both genes is critical for Myc-dependent tumor formation. Undoubtedly, therefore, Myc exerts part of its biological activities via transcriptional upregulation of a large number of target genes. One of the key issues in the field is whether there are additional biochemical activities of the Myc protein and, if so, whether and how they contribute to Myc biology. This review summarizes evidence demonstrating that Myc has the ability to repress transcription and that this may be an important function during oncogenic transformation.
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PMID:Transcriptional repression: the dark side of myc. 2177 59

Neoplastic growth is associated with increased polyamine biosynthetic activity and content. Tumor promoter treatment induces the rate-limiting enzymes in polyamine biosynthesis, ornithine decarboxylase (ODC), and S-adenosylmethionine decarboxylase (AdoMetDC), and targeted ODC overexpression is sufficient for tumor promotion in initiated mouse skin. We generated a mouse model with doxycycline (Dox)-regulated AdoMetDC expression to determine the impact of this second rate-limiting enzyme on epithelial carcinogenesis. TetO-AdoMetDC (TAMD) transgenic founders were crossed with transgenic mice (K5-tTA) that express the tetracycline-regulated transcriptional activator within basal keratinocytes of the skin. Transgene expression in TAMD/K5-tTA mice was restricted to keratin 5 (K5) target tissues and silenced upon Dox treatment. AdoMetDC activity and its product, decarboxylated AdoMet, both increased approximately 8-fold in the skin. This enabled a redistribution of the polyamines that led to reduced putrescine, increased spermine, and an elevated spermine:spermidine ratio. Given the positive association between polyamine biosynthetic capacity and neoplastic growth, it was somewhat surprising to find that TAMD/K5-tTA mice developed significantly fewer tumors than controls in response to 7,12-dimethylbenz[a]anthracene/12-O-tetradecanoylphorbol-13-acetate chemical carcinogenesis. Importantly, tumor counts in TAMD/K5-tTA mice rebounded to nearly equal the levels in the control group upon Dox-mediated transgene silencing at a late stage of tumor promotion, which indicates that latent viable initiated cells remain in AdoMetDC-expressing skin. These results underscore the complexity of polyamine modulation of tumor development and emphasize the critical role of putrescine in tumor promotion. AdoMetDC-expressing mice will enable more refined spatial and temporal manipulation of polyamine biosynthesis during tumorigenesis and in other models of human disease.
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PMID:S-adenosylmethionine decarboxylase overexpression inhibits mouse skin tumor promotion. 2261 Jan 66