Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PTEN is a tumor suppressor gene mutated in many human cancers. We generated a bronchioalveolar epithelium-specific null mutation of Pten in mice [SP-C-rtTA/(tetO)(7)-Cre/Pten(flox/flox) (SOPten(flox/flox)) mice] that was under the control of doxycycline. Ninety percent of SOPten(flox/flox) mice that received doxycycline in utero [SOPten(flox/flox)(E10-16) mice] died of hypoxia soon after birth. Surviving SOPten(flox/flox)(E10-16) mice and mice that received doxycycline postnatally [SOPten(flox/flox)(P21-27) mice] developed spontaneous lung adenocarcinomas. Urethane treatment accelerated number and size of lung tumors developing in SOPten(flox/flox) mice of both ages. Histological and biochemical examinations of the lungs of SOPten(flox/flox)(E10-16) mice revealed hyperplasia of bronchioalveolar epithelial cells and myofibroblast precursors, enlarged alveolar epithelial cells, and impaired production of surfactant proteins. Numbers of bronchioalveolar stem cells (BASCs), putative initiators of lung adenocarcinomas, were increased. Lungs of SOPten(flox/flox)(E10-16) mice showed increased expression of Spry2, which inhibits the maturation of alveolar epithelial cells. Levels of Akt, c-Myc, Bcl-2, and Shh were also elevated in SOPten(flox/flox)(E10-16) and SOPten(flox/flox)(P21-27) lungs. Furthermore, K-ras was frequently mutated in adenocarcinomas observed in SOPten(flox/flox)(P21-27) lungs. These results indicate that Pten is essential for both normal lung morphogenesis and the prevention of lung carcinogenesis, possibly because this tumor suppressor is required for BASC homeostasis.
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PMID:Pten controls lung morphogenesis, bronchioalveolar stem cells, and onset of lung adenocarcinomas in mice. 1790 29

The capacity to model cancer within the mouse has advanced significantly in recent years. Perhaps the most notable technical gains have been in the development of techniques that allow the temporal and spatial control of gene expression, so that it is now possible to regulate target genes in the tissue of choice and at a given time [Maddison and Clarke (2005) J. Pathol. 205, 181-193; Shaw and Clarke (2007) DNA Repair 6, 1403-1412; Marsh and Clarke (2007) Expert Rev. Anticancer Ther. 7, 519-531]. We have used these approaches to study tumorigenesis in the murine intestine. Loss of function of the tumour-suppressor gene Apc (adenomatous polyposis coli) has been associated with the development of both human and murine neoplasia, principally those of the intestinal epithelium. However, as Apc has been implicated in multiple cellular functions, the precise mechanisms underlying these associations remain somewhat unclear. I review here the use of an inducible strategy to co-ordinately delete genes from the adult murine epithelium. This approach has allowed a characterization of the direct consequences of inactivation of gene function. For Apc, these include failure in the differentiation programme, failure to migrate, aberrant proliferation and the aberrant induction of apoptosis. Transcriptome analysis of this model has also identified potential new targets for therapeutic intervention, such as Sparc (secreted protein acidic and rich in cysteine), deficiency of which, we have now shown, suppresses adenoma formation. Finally, we have been able to address how other genes modulate the consequences of Apc loss. Thus we show that there is little effect following loss of cyclin D1, Tcf-1 and p53, but that there are marked differences following loss of either c-Myc or Mbd2. The models therefore allow us to define the earliest events associated with carcinogenesis in the intestine.
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PMID:Cancer genetics: mouse models of intestinal cancer. 1795 46

Although the oncogenic role of the Wnt/beta-catenin pathway is well defined, it remains unclear how this pathway is aberrantly activated in lung cancer. We found that Dickkopf (Dkk)-3, a member of Dkk family of Wnt antagonists, is frequently inactivated in lung cancer and plays a role in suppressing lung cancer cell growth through inhibition of beta-catenin/T-cell factor (TCF)-4 signaling. Dkk3 is the only Dkk family member abundantly expressed in normal lung, but silenced by promoter hypermethylation in a large fraction of lung cancer cell lines and lung tumors. Downregulation of Dkk3 was correlated with tumor progression and expression of nuclear beta-catenin in lung tumors. Ectopic expression of Dkk3 in lung cancer cells with Dkk3 hypermethylation induced apoptosis and inhibited TCF-4 activity as well as nuclear accumulation of beta-catenin and expression of TCF-4 targets c-Myc and cyclin D1. Furthermore, small interference RNA knock down of Dkk3 in cells lacking Dkk3 hypermethylation was sufficient to promote cell proliferation, beta-catenin nuclear translocation and expression of c-Myc. These observations suggested that epigenetic inactivation of Dkk3 activates the Wnt/beta-catenin pathway, thereby promoting the growth of lung cancer cells.
Carcinogenesis 2008 Jan
PMID:Downregulation of Dkk3 activates beta-catenin/TCF-4 signaling in lung cancer. 1804 88

Vitamin A deficiency is associated with carcinogenesis, and upregulation of CYP26A1, a major retinoic acid (RA)-catabolizing enzyme, has recently been shown in cancer. We have previously demonstrated alterations of RA biosynthesis in Barrett's oesophagus, the precursor lesion to oesophageal adenocarcinoma. The aims of this study were to determine CYP26A1 expression levels and functional effects in Barrett's associated carcinogenesis. Retinoic acid response element reporter cells were used to determine RA levels in non-dysplastic and dysplastic Barrett's cell lines and endoscopic biopsies. CYP26A1 expression levels, with or without induction by RA and lithocholic acid, were determined by quantitative reverse transcriptase-PCR (RT-PCR) and immunohistochemistry. CYP26A1 promoter activity was determined by a luciferase reporter construct. CYP26A1 was stably overexpressed in GihTERT cells, which were evaluated for gene-expression changes (pathway array and quantitative RT-PCR), cellular proliferation (cytometric DNA profile and colorimetric assay) and invasion (in vitro matrigel assay) with or without the CYP inhibitor ketaconazole. RA levels decreased progressively with the degree of dysplasia (P<0.05) and were inversely correlated with CYP26A1 gene levels and activity (P<0.01). CYP26A1 expression was increased synergistically by RA and lithocholic acid (P<0.05). Overexpression of CYP26A1 led to induction of c-Myc, epidermal growth factor receptor and matrix metalloproteinase 3 as well as downregulation of tissue inhibitor metalloproteinase 1 and 3. Functional effects of CYP26A1 overexpression were increased proliferation (P<0.01) and invasion in vitro (P<0.01), which were inhibited by ketaconazole. Overexpression of CYP26A1 causes intracellular RA depletion and drives the cell into a highly proliferative and invasive state with induction of other known oncogenes.
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PMID:A novel role for the retinoic acid-catabolizing enzyme CYP26A1 in Barrett's associated adenocarcinoma. 1805 32

Protein phosphatase 2A (PP2A), an Akt pathway inhibitor, is considered to be activated by methylation of its catalytic subunit. Also PP2A downregulation was proposed to take part in carcinogenesis. Recently, PP2A activation was shown to be activated in response to DNA damage. To obtain further information on the role of PP2A in tumors and response to DNA damage, we investigated the relationship between PP2A methylation and activity, cell proliferation, Akt activation, c-Myc expression and PTEN activity in B16 melanoma cells untreated and after chloroethylnitrosourea (CENU) treatment. In untreated cells, okadaic acid, an antagonist of PP2A methylation, inhibited PP2A activity, stimulated cell proliferation, increased Akt activation and c-Myc expression. Xylulose-5-phosphate, an agonist of PP2A methylation, increased PP2A activity, decreased cell proliferation, Akt activation and c-Myc expression. However, both PP2A methylation modulators increased PTEN activity. During the response to CENU treatment, PP2A methylation and activity were strongly increased, Akt activation and c-Myc expression were decreased. However PTEN activity was increased. After tumor cell growth recovery, these modifications were moderately decreased. PP2A methylation was quantified and correlated positively with PP2A activity, and negatively with criteria for cell aggressiveness (cell proliferation, Akt activation, c-Myc expression). Based on these data, PP2A methylation status controls PP2A activity and oncoproteins expression and PP2A is strongly activated after CENU treatment thus partly explaining the growth inhibition in response to this agent. It follows that PP2A promethylating agents are potential candidates for anticancer drugs.
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PMID:PP2A activity is controlled by methylation and regulates oncoprotein expression in melanoma cells: a mechanism which participates in growth inhibition induced by chloroethylnitrosourea treatment. 1809 42

Multiple cell-autonomous mechanisms exist in complex metazoans to resist oncogenic transformation, including a variety of tumor- suppressor pathways that control cell proliferation and apoptosis. In vertebrates, additional mechanisms of tumor resistance could potentially rely on cancer cell elimination by specialized cytotoxic leukocytes, such as natural killer (NK) cells. Such mechanisms would require that cancer cells be reliably distinguished from normal cells. The ligands for NKG2D, an activating NK cell receptor, are expressed on many tumor cell lines and at least some primary human tumors. However, it is unknown whether their expression is induced as a direct result of oncogenic transformation in vivo. We provide evidence that NKG2D ligands are induced on spontaneously arising tumors in a murine model of lymphomagenesis and that c-Myc is involved in their regulation. Expression of NKG2D ligands is induced at an early, distinct stage of tumorigenesis upon acquisition of genetic lesions unique to cancer cells, potentially defining a critical step in carcinogenesis. This finding suggests that the regulation of NKG2D ligands depends on a mechanism for intrinsic sensing of oncogenic transformation.
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PMID:Intrinsic sensor of oncogenic transformation induces a signal for innate immunosurveillance. 1822 57

Refractoriness to carcinogen-induced increases in epithelial cell proliferation is a very important characteristic of parous mammary glands. We found that N-methyl-N-nitrosourea (MNU)-induced proliferative burst in the mammary ductal epithelium was blocked in parous glands but not in age-matched virgin (AMV) glands. The inhibition of the proliferative burst in MNU-treated parous mammary glands coincided with the upregulation of Mnt, a Myc-suppressor, and the formation of histone deacetylase 1/Mnt/Max complexes that unexpectedly contained c-Myc. These complexes formed on the promoters of Myc targets, such as ornithine decarboxylase, cyclin D2, and transforming growth factor beta1 genes, in quiescent fibroblasts, and were disassembled in serum-stimulated cells. These results suggest that the complexes also function as transcription repressors of the growth-related Myc targets in MNU-treated parous mammary glands. Using the chemical mammary carcinogenesis model of human c-Ha-ras transgenic (Tg) rats, we confirmed that parity protected the mammary glands at the postinitiation phase of tumorigenesis. Although the incidence of 7,12-dimethylbenz[alpha]anthracene-induced palpable tumors was reduced from 61.5% in the AMV Tg rats to 28.5% in the parous animals, the incidence of early neoplastic lesions in the parous rats was the same as that in the AMV rats. Restriction fragment length polymorphism analysis detected mutations in the human c-Ha-ras gene in most of the normal-appearing parous Tg glands, as well as in the virgin glands. We propose that accelerated formation of HDAC1/c-Myc/Mnt/Max complexes in response to carcinogen exposure results in down-regulation of growth-related genes, leading to the refractoriness of parous mammary glands at the postinitiation phase of carcinogenesis.
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PMID:Induction of a novel histone deacetylase 1/c-Myc/Mnt/Max complex formation is implicated in parity-induced refractoriness to mammary carcinogenesis. 1827 30

A 1 year carcinogenicity bioassay was conducted in rats treated with three short cycles of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP)/high-fat (HF) diet, followed by 2% white tea (wt/vol), 0.05% epigallocatechin-3-gallate (EGCG) or 0.065% caffeine as sole source of fluid intake. Thirty-two percent of the PhIP/HF controls survived to 1 year, compared with 50, 48.7 and 18.2% in groups given white tea, EGCG and caffeine, respectively. After 1 year, PhIP/HF controls had tumors in the colon, skin, small intestine, Zymbal's gland, salivary gland and pancreas. For all sites combined, excluding the colon, tumor incidence data were as follows: PhIP/HF 69.5%, PhIP/HF + EGCG 48.7%, PhIP/HF + white tea 46.9% and PhIP/HF + caffeine 13.3%. Unexpectedly, a higher incidence of colon tumors was detected in rats post-treated with white tea (69%) and caffeine (73%) compared with the 42% incidence in PhIP/HF controls. In the colon tumors, beta-catenin mutations were detected at a higher frequency after caffeine posttreatment, and there was a shift toward more tumors harboring substitutions of Gly34 with correspondingly high protein and messenger RNA expression seen for both beta-catenin and c-Myc. c-Myc expression exhibited concordance with tumor promotion, and there was a concomitant increase in cell proliferation versus apoptosis in colonic crypts. A prior report described suppression of PhIP-induced colonic aberrant crypts by the same test agents, but did not incorporate a HF diet. These findings are discussed in the context of epidemiological data which do not support an adverse effect of tea and coffee on colon tumor outcome-indeed, some such studies suggest a protective role for caffeinated beverages.
Carcinogenesis 2008 Apr
PMID:Protective versus promotional effects of white tea and caffeine on PhIP-induced tumorigenesis and beta-catenin expression in the rat. 1828 38

This study evaluated the effect of dietary fat on prostate cancer development by using the Hi-Myc mouse transgenic prostate cancer model. Hi-Myc mice develop murine prostatic intraepithelial neoplasia (mPIN) as early as 2 to 4 weeks and invasive adenocarcinoma between 6 and 9 months due to the overexpression of human c-Myc in the mouse prostate. Three-week-old male Hi-Myc mice were placed on high-fat (HF; 42% Kcal) or low-fat (LF; 12% Kcal) diets, and equal caloric intake was maintained until euthanasia at 7 months. The number of mice that developed invasive adenocarcinoma at 7 months was 27% less in the LF diet group (12/28) compared with the HF diet group (23/33, P < 0.05). Epithelial cells in mPIN lesions in the LF group had a significantly lower proliferative index compared with epithelial cells in the HF group (21.7% versus 28.9%, P < 0.05). During the mPIN phase of carcinogenesis (4 months), the LF group had higher serum insulin-like growth factor (IGF) binding protein-1 levels (21.0 +/- 8.9 ng/mL versus 3.2 +/- 0.8 ng/mL, P < 0.05) relative to the HF group. Akt (Ser(473)) phosphorylation, Akt kinase activity, and phosphorylation of downstream targets of Akt in prostates were significantly reduced in the LF diet group compared with the HF group. We conclude that dietary fat reduction delays transition from mPIN to invasive cancer in this Myc-driven transgenic mouse model, possibly through suppression of the IGF-Akt pathway and decreased proliferation of mPIN epithelial cells.
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PMID:Effect of low-fat diet on development of prostate cancer and Akt phosphorylation in the Hi-Myc transgenic mouse model. 1841 78

Macrophage immigration inhibitory factor (MIF) is a ubiquitously expressed proinflammatory mediator that has also been implicated in cell growth, cell cycle and carcinogenesis. In this study, we demonstrate siRNA-mediated knockdown of MIF results in G(0)/G(1) cell cycle arrest in HEK293 cells. To elucidate the molecular mechanism of cell cycle perturbation following MIF knockdown, we employed microarray to investigate the genome-wide expression profile in MIF-deficient cells and normal cells. Quantitative real-time PCR were used to confirm the differential expression patterns of approximately 50 transcripts involved in cell cycle and signaling identified by microarray. The dynamic model of MIF-dependent signaling pathways linked to cell cycle machinery were constructed through analyzing gene expression data in the context of known biological pathways. The results demonstrate that knockdown of MIF could inhibit G(1)/S transition through inhibition of MAPK, PI3K/Akt, NFkappaB, c-Myc-dependent pathway and activation of TGFbeta, p53-dependent pathway. Meanwhile, inhibition of E2F-, NFkappaB, c-Myc and Ap-1-mediated transcription and stimulation of p53 and FoxO4 transcriptional activity will lead to differential expression of cell cycle regulators and subsequent cell cycle arrest in G(0)/G(1) phase in MIF-knockdown cells. This study provides novel insights into the pleiotropic activities of endogenous MIF, especially its essential and crucial role in cell proliferation and the cell cycle.
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PMID:A global genomic view of MIF knockdown-mediated cell cycle arrest. 1846 21


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