Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C1519670 (tumor angiogenesis)
6,052 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyclooxygenase (COX) enzymes catalyze a key step in the conversion of arachidonate to PGH2, the immediate substrate for a series of cell specific prostaglandin and thromboxane synthases. Prostaglandins play critical roles in numerous biologic processes, including the regulation of immune function, kidney development, reproductive biology, and gastrointestinal integrity. There are two COX isoforms, which differ mainly in their pattern of expression. COX-1 is expressed in most tissues, whereas COX-2 usually is absent, but is induced by numerous physiologic stimuli. Surprisingly, disruption of Cox1 (Ptgs1) in the mouse did not result in gastrointestinal abnormalities. cox-2 (Ptgs2) null mice show reproductive anomalies and defects in kidney development. Epidemiologic, animal, and human data indicate that NSAIDs, inhibitors of cyclooxygenase, are chemopreventive for colon cancer. COX-2 is overexpressed in 50% of benign polyps and 80-85% of adenocarcinomas. Offspring from cox-2 null by Apcdelta716 matings exhibit an 86% reduction in polyp number when compared to offspring from control animals, thus providing genetic evidence that COX-2 contributes to tumor formation or growth. The in vivo mechanism by which COX-2 affects tumor growth has not been determined. It is possible that both tumor and stromally derived COX-2 could influence tumor angiogenesis and/ or immune function.
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PMID:The role of cyclooxygenases in inflammation, cancer, and development. 1063 Jun 43

Previous retrospective studies suggest that the phase of the menstrual cycle at surgery (proliferative versus secretory) for breast cancer may significantly affect patient survival. Fluctuations during the menstrual cycle of the expression of genes involved in metastases in breast cancer tissue have also been reported. We hypothesized that the menstrual phase may also affect similar changes in gene expression of other cancers. We focused our attention on cancer of the uterine cervix because the hysterectomy specimen obtained at original surgery for the cancer can be used retrospectively to determine cycle phase. We analyzed tumor specimens from 36 premenopausal cervical cancer patients who had undergone hysterectomy as their primary treatment. We used reverse transcription-PCR to quantify gene expression during the different phases of the menstrual cycle as determined from the endometrial specimen. We explored a panel of genes that may affect metastatic propensity, namely, metalloproteinase-9 (MMP-9), tissue inhibitor of metalloproteinase-2 (TIMP-2), cyclooxygenase 1 and 2 (COX-1 and COX-2), and vascular endothelial growth factor (VEGF). A significantly higher level of TIMP-2 and COX-2 gene expression (P = 0.007 and 0.030, respectively) was detected during the proliferative phase compared to the secretory phase of the cycle. The expression of the other genes was not significantly affected by the stage of the menstrual cycle. The finding that TIMP-2 and COX-2 expression in cervical cancer may be affected by the stage of the menstrual cycle supports the hypothesis that ovarian hormones may affect the expression of genes involved in metastasis. These findings need to be replicated, and their implications for tumor angiogenesis, invasion, and metastatic propensity need to be explored both in human studies and in experimental models.
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PMID:Expression of metastases-associated genes in cervical cancers resected in the proliferative and secretory phases of the menstrual cycle. 1115 16

The present paper reviews current concepts on the role of cyclooxygenase (COX) in the development of malignant tumors. An inducible isoform of cyclooxygenase is expressed in neoplastic, pre-neoplastic, and peri-neoplastic cells by mutation of oncogenes (such as ras), tumor promoters, mitogens, cytokines, their receptors, and pathogenic factors such as Helicobacter. Cells overexpressing cox-2 escape apoptosis, have abnormal cell-to-cell interactions, and acquire invasive phenotypes. On the other hand, angiogenesis plays a key role in the development of malignant tumors. Both in vitro and in vivo studies indicate that cox-2 overexpression upregulates angiogenic factors in neoplastic cells and promotes tumor angiogenesis. It is also possible that cox-2 expression upregulates angiogenic factors in peri-neoplastic cells that express the isozyme. Interestingly, cox-1, the other isozyme that is expressed in tumor vascular endothelia, participates in tumor angiogenesis, because an anti-sense oligonucleotide of cox-1 suppresses in vitro angiogenesis induced by cox-2-overexpressing cells. A non-specific COX inhibitor, not a specific COX-2 inhibitor, reduced growth and angiogenesis in cancer xenografts by inhibition of COX-1 in vascular endothelial cells, even when the tumor did not express COX-2. These results demonstrate that COX inhibitors suppress angiogenesis and tumor growth by inhibiting expression of angiogenic factors and vascular endothelial cell migration. Furthermore, another concept is emerging to indicate that prostaglandins (COX-2 products and mediators of classic inflammation) suppress host immunity against tumors. This evidence supports the hypothesis that COX is an important perigenetic factor in the development of cancer growth, and offers a new strategy against cancer using COX inhibitors (nonsteroidal anti-inflammatory drugs).
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PMID:Cyclooxygenase-2 upregulation as a perigenetic change in carcinogenesis. 1137 Aug 18

To investigate angiogenesis during intestinal polyp development, we determined the microvessel density (MVD) in polyps of Apc knockout (Apc(Delta716)) mice, a model for human familial adenomatous polyposis. We scored MVD also in several compound mutants carrying Apc(Delta716), namely, mice with an additional mutation in Smad4, in which the polyps progress into invasive adenocarcinomas; mice with a cyclooxygenase (COX)-2 gene (Ptgs2) mutation, in which adenoma growth is suppressed; and mice with prostaglandin E(2) EP receptor gene mutations. In both simple Apc(Delta716) and compound Apc(Delta716) Smad4 mutants, MVD increased in a polyp size-dependent manner only in the polyps expanded beyond a threshold of about 1 mm in diameter. These results indicate that tumor angiogenesis is stimulated only after tumors grow to a certain size, and this angiogenic switch is common to both benign adenomas and malignant adenocarcinomas. In Apc(Delta716) polyposis attenuated by the COX-2 gene mutation, in contrast, MVD did not increase even in polyps larger than 1 mm. The same phenomenon was observed in the compound mutant mice with Apc(Delta716) and the EP(2) receptor gene mutations, but not in other EP compound mutants. We also immunohistochemically studied COX-2 and angiogenic factors, vascular endothelial growth factor and basic fibroblast growth factor. Interestingly, expression of these proteins was also increased in polyps larger than 1 mm. These results suggest that, in both benign and malignant mouse intestinal tumors, stromal expression of COX-2 results in elevated prostaglandin E(2) levels that stimulate cell surface receptor EP(2), followed by induction of vascular endothelial growth factor that causes tumor angiogenesis.
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PMID:Cyclooxygenase 2- and prostaglandin E(2) receptor EP(2)-dependent angiogenesis in Apc(Delta716) mouse intestinal polyps. 1180 2

Metabolism of arachidonic acid through cyclooxygenase, lipoxygenase, or P450 epoxygenase pathways leads to the formation of various bioactive eicosanoids. In this review, we discuss alterations in expression pattern of eicosanoid-generating enzymes found during prostate tumor progression and expound upon their involvement in tumor cell proliferation, apoptosis, motility, and tumor angiogenesis. The expression of cyclooxygenase-2, 12-lipoxygenase, and 15-lipoxygenase-1 are up-regulated during prostate cancer progression. It has been demonstrated that inhibitors of cyclooxygenase-2, 5-lipoxygenase and 12-lipoxygenase cause tumor cell apoptosis, reduce tumor cell motility and invasiveness, or decrease tumor angiogenesis and growth. The eicosanoid product of 12-lipoxygenase, 12(S)-hydroeicosatetraenoic acid, is found to activate Erkl/2 kinases in LNCaP cells and PKCalpha in rat prostate AT2.1 tumor cells. Overexpression of 12-lipoxygenase and 15-lipoxygenase-1 in prostate cancer cells stimulate prostate tumor angiogenesis and growth, suggesting a facilitative role for 12-lipoxygenase and 15-lipoxygenase-1 in prostate tumor progression. The expression of 15-lipoxygenase-2 is found frequently to be lost during the initiation and progression of prostate tumors. 15(S)-hydroxyeicosatetraenoic acid, the product of 15-lipoxygenase-2, inhibits proliferation and causes apoptosis in human prostate cancer cells, suggesting an inhibitory role for 15-lipoxygenase-2 in prostate tumor progression. The regulation of prostate cancer progression by eicosanoids, in either positive or negative ways, provides an exciting possibility for management of this disease.
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PMID:Role of eicosanoids in prostate cancer progression. 1208 62

Nitric oxide (NO), produced by distinct nitric oxide synthase (NOS) isoforms, and prostaglandins generated by expression of cyclooxygenases are important mediators in tumor progression. Previous studies have shown that NO can influence the formation of prostaglandin E2 (PGE2). We provide evidence that NO, derived from iNOS and eNOS activity in LMM3 murine mammary adenocarcinoma cell line, is involved in tumor angiogenesis and in tumor cell migration. LMM3 cells that also stimulate their neovascularization activity and migration liberate high basal amounts of PGE2. There is large amount of evidence that postulates positive regulatory interactions between NOS and cyclooxygenase (COX) isoforms. We here show that, in the LMM3 cell line, while PGE2 exerts a positive modulation on NOS activity, NO closes the loop with a negative feed back on COX activity. We also provide evidence of a positive regulatory effect of protein tyrosine kinases on NOS as well as on COX enzymatic functions affecting tumor induced angiogenesis and cell migration.
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PMID:Nitric oxide synthase-cyclooxygenase interactions are involved in tumor cell angiogenesis and migration. 1246 94

Evidence indicates that cyclooxygenase (COX)-2-derived prostaglandins (PGs) contribute to tumor growth by inducing angiogenesis. We investigated the role of COX-2 in hepatitis B virus (HBV)-associated hepatocellular carcinoma (HCC). COX-2 and vascular endothelial growth factor (VEGF) expressions were examined by immunohistochemistry in 24 HBV-associated HCC. Tumor micro-vessel density (MVD) was assessed using CD34 immunohistochemistry. Hep3B HCC cell line, which carries integrated HBV genome, was stably transfected with human COX-2 cDNA. COX-2 and VEGF expressions were determined by Western blot while PG level was determined by ELISA. The effects of PGs on VEGF expression were also investigated. Expression of COX-2 and VEGF in HCC cells were observed in 19 (79%) and 16 (67%) cases, respectively. Well-differentiated HCC expressed COX-2 more strongly than less-differentiated HCC (p<0.001). COX-2 expression was found to correlate with VEGF expression and MVD (p=0.003 and 0.004, respectively). COX-2 overexpressing Hep3B clone had higher VEGF expression as compared to non-COX-2 expressing clone and parental cells. Treatment of the COX-2 overexpressing cells with a COX-2-selective inhibitor, NS-398 (10 microM), decreased PGE2 level and attenuated VEGF expression. Addition of PGE2 (10 microM) and the stable analog of PGI2, carbaprostacyclin (5 microM), to Hep3B cells also increased VEGF expression. Up-regulation of COX-2 correlates with VEGF expression and tumor angiogenesis in HBV-associated HCC. Moreover, COX-2 up-regulates VEGF expression in HCC cells, possibly via PGs production. Selective inhibition of COX-2 may block HCC associated angiogenesis and thus provides a rational approach for treatment of this malignancy.
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PMID:Cyclooxygenase-2 pathway correlates with vascular endothelial growth factor expression and tumor angiogenesis in hepatitis B virus-associated hepatocellular carcinoma. 1501 Aug 22

It is well known that cyclooxygenase (COX) -2 is expressed in a variety of human malignant solid tumors, associated with tumor angiogenesis, cell proliferation and inhibition of apoptosis. Here, we examined the effect of NS398, a selective COX-2 inhibitor, on two human esophageal squamous cell carcinoma (SCC) cell lines, TE-1 and TE-12. Western blot analysis confirmed the expression of COX-2 in TE-12, but not in TE-1. Treatment with 100microM NS398 suppressed the cell viability in TE-12 (48.6% of control) after 48 hours, in contrast to showing no effects in TE-1. The apoptotic index was extremely low in both cell lines after the treatment. NS398 clearly increased the number of cells in the G2/M phase and decreased the cells in the G1 and S phases in TE-12, but not TE-1. A pre-G1 fraction was not noted in either cell line. Moreover, TE-12 cells showed a decrease in the expression levels of cyclin B1 and an increase in p27Kip1. These findings suggest that NS398 inhibits cell growth and induces G2/M arrest in human SCC cells expressing COX-2.
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PMID:A selective cyclooxygenase-2 inhibitor, NS398, inhibits cell growth and induces cell cycle arrest in the G2/M phase in human esophageal squamous cell carcinoma cells. 1535 16

High-level expression of cyclooxygenase (COX)-2 is reported in 80-90% of colorectal adenocarcinomas. Selective inhibition of COX-2 was shown to reduce colorectal tumorigenesis in different models of carcinogenesis and to prevent metastasis in xenograft tumor models, as well as to suppress in vitro induced angiogenesis. Recently, COX-2 was reported to be expressed not only in malignant epithelial cells, but also in the neovasculature that feeds the tumor in a variety of solid human cancers. Thus, one of the possible mechanisms by which selective COX-2 inhibitor reduces tumor growth and metastasis is through inhibition of tumor angiogenesis. Although a report suggested a possible role of endothelial COX-1 in the process of angiogenesis, in a recent study, the selective inhibition of COX-2 was shown to strongly inhibit angiogenesis by inducing endothelial cell (EC) apoptosis. In the present study, using human umbilical vein endothelial cells (HUVECs) as a model of angiogenesis, we investigated the potential antiangiogenic effect of the selective COX-2 inhibitor and its mechanism of action, and clearly demonstrated that selective inhibition of COX-2 caused a dose-dependent decrease in the proliferative activity of ECs, as well as an inhibition of capillary-like tube formation. The inhibitory effect on EC proliferation was dependent on the cell cycle arrest to the G1 phase and not on cell apoptosis.
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PMID:Selective inhibition of cyclooxygenase (COX)-2 inhibits endothelial cell proliferation by induction of cell cycle arrest. 1547 9

New drugs aiming at the development of targeted therapies have been assayed in combination with ionizing radiation over the past few years. The rationale of this concept comes from the fact that the cytotoxic potential of targeted drugs is limited, thus requiring concomitant association with a cytotoxic agent for the eradication of tumor cells. Conversely a low level of cumulative toxicity is expected from targeted drugs. Most targeted drugs act through inhibition of post-translational modifications of proteins, such as dimerization of growth factor receptors, prenylation reactions, or phosphorylation of tyrosine or serine-threonine residues. Many systems involving the proteasome, neoangiogenesis promoters, TGF-beta, cyclooxygenase or the transcription factor NF-kappaB, are currently under investigation in hopes they will allow a control of cell proliferation, apoptosis, cell cycle progression, tumor angiogenesis and inflammation. A few drugs have demonstrated an antitumor potential in particular phenotypes. In most instances, however, radiation-drug interactions proved to be strictly additive in terms of cell growth inhibition or induced cell death. Strong potentiation of the response to radiotherapy is expected to require interaction with DNA repair mechanisms.
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PMID:[Targeted drugs in radiation therapy]. 1567 56


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