Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0684249 (lung carcinoma)
 23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cloned Lewis lung carcinoma (LLC) variants were used in an in vitro migration model for dissemination, to determine if prostaglandin E2 (PGE2) produced by nonmetastatic LLC cells could directly stimulate dissemination of metastatic LLC cells and to identify an intracellular mechanism for such an effect. The migration of metastatic LLC clones was stimulated not only by exogenous PGE2 but also by nonmetastatic LLC cells, by their production of a migration-stimulatory factor which was sensitive to indomethacin and anti-PGE2 antibodies. Nonmetastatic LLC clones were unresponsive to migration stimulation by PGE2. The results of in vivo metastasis studies were consistent with those of in vitro migration studies. In vivo lung metastasis was increased by PGE2, as well as by nonmetastatic cells when they were either admixed with the metastatic LLC inoculum, irradiated and injected adjacent to the metastatic LLC tumor, or localized in chambers and implanted s.c. into mice given injections of metastatic LLC cells. Indomethacin blocked metastasis stimulation by nonmetastatic cells. The in vitro PGE2 stimulation of metastatic LLC cells appeared to be linked to a cyclic AMP (cAMP) response, since migration could also be stimulated by dibutyryl-cyclic AMP and blockage of a cAMP response with nicotinic acid ablated the PGE2 stimulation of migration. In vivo metastasis could be stimulated by elevation of cAMP with aminophylline. The differential responsiveness of metastatic versus nonmetastatic LLC cells to PGE2 could not be due to PGE2-adenylate cyclase coupling, since PGE2 increased the cAMP levels in cultures of both metastatic and nonmetastatic LLC cells. There was, however, a difference in the cyclic AMP-dependent protein kinase (PKA) response to PGE2, with PKA activity of metastatic LLC being stimulated by PGE2 and by the adenylate cyclase-stimulator forskolin, whereas PKA of nonmetastatic LLC was not stimulated by these cAMP elevators, suggesting a dysfunction in the cAMP-PKA coupling.
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PMID:Association of a functional prostaglandin E2-protein kinase A coupling with responsiveness of metastatic Lewis lung carcinoma variants to prostaglandin E2 and to prostaglandin E2-producing nonmetastatic Lewis lung carcinoma variants. 215 67

The natural killer (NK) cell cytotoxic capacity of C57BL/6 mice with implantation of Lewis lung carcinoma (LLC) was quantitated during tumor growth. The NK activity became suppressed at 1 week of tumor growth and remained suppressed. The mechanisms for the suppression during the first 3 weeks of tumor growth included secretion of prostaglandin E2 (PGE2) by both the LLC tumor and host macrophages. With tumor growth, plasma PGE2 concentrations progressively increased. Oral administration of indomethacin to tumor-bearing mice prevented the rise in serum PGE2 concentrations and the suppression of NK activity. Cultured LLC cells and splenic macrophages isolated from mice during the first 3 weeks of tumor growth secreted increased amounts of PGE2. Macrophages from tumor-bearer spleen cells were shown to suppress NK activity. Depletion of these macrophages restored the NK activity, and addition of these macrophages to normal spleen cells resulted in an indomethacin-sensitive suppression of the NK response. The mechanisms of suppression in mice bearing large tumors were different than those observed with smaller tumors. With a large tumor burden, the plasma PGE2 concentrations declined. Indomethacin treatment did not prevent the suppression of NK activity, and depletion of splenic macrophages did not restore NK cytotoxicity.
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PMID:Macrophage-mediated suppression of natural killer cell activity in mice bearing Lewis lung carcinoma. 345 7

Macrophage-like P388D1 cells, when stimulated with lipopolysaccharide (LPS), produced a factor(s) whose activity was inhibitory to growth of Lewis lung carcinoma cells. Indomethacin, a prostaglandin-synthesis inhibitor, augmented the production of tumoristatic activity by LPS-stimulated P388D1 cells, whereas exogenous prostaglandin E2 (PGE2) suppressed its secretion. These results suggest that P388D1 cells regulate their antitumor abilities by producing PGE2, which inhibits production of soluble factor(s) with tumoristatic activities.
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PMID:Prostaglandin E2 regulation of tumoristatic factor production by macrophage-like P388D1 cells. 659 90

The present study was designed to investigate the contribution of the endothelium and that of the L-arginine pathway on the contractile responses of isolated human pulmonary arteries to electrical field stimulation (EFS) and noradrenaline. Isometric tension was measured in artery rings obtained from portions of human lung after thoracic surgery for removal of lung carcinoma (18 patients). Electrical field stimulation (EFS) induced frequency-dependent contractions of isolated human pulmonary arteries which were abolished by tetrodotoxin, guanethidine and prazosin (all at 10(-6) M). The increases in tension were of greater magnitude in arteries denuded of endothelium. NG-nitro-L-arginine methyl ester (L-NAME) (10(-4) M) potentiated the contractile response to EFS in artery rings with endothelium but not in endothelium-denuded arteries. The potentiation induced by L-NAME was completely reversed by L-arginine (10(-4) M) but not by D-arginine (10(-4) M). Indomethacin (3 x 10(-6) M) had no significant effect on the contractile response to EFS. Contractile responses to noradrenaline were similar in arteries with and without endothelium. Our results suggest that electrical field stimulation releases endothelium-derived nitric oxide, which inhibits the contractile responses of human pulmonary arteries. Although adrenergic nerves seem to be responsible for the contraction, the transmitter involved in the release of nitric oxide does not appear to be noradrenaline.
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PMID:Influence of endothelial nitric oxide on neurogenic contraction of human pulmonary arteries. 748 99

Considerable research effort is currently being directed towards understanding the mechanisms mediating the antiproliferative effects of non-steroidal anti-inflammatory drugs (NSAIDs) and, more recently, of cyclooxygenase (COX)-2 inhibitors as well. A key question is whether NSAIDs (excluding sulindac) exert their anticarcinogenic effects in vivo by a mechanism that is dependent on their capacity to inhibit COX activity. Some studies with cultured tumor cells in vitro have argued against such a linkage, showing that NSAIDs inhibit cell replication and/or augment apoptosis only at concentrations that exceed those required to inhibit COX activities 10- to 100-fold. The significance of these results for the observed anticarcinogenic effects of NSAIDs in vivo has not yet been evaluated. We addressed this question by comparing, for the same tumor cells, the effects of the NSAID indomethacin on cell growth parameters when the cells were grown in culture to the effects seen in the in vivo growing tumor in the mouse. Indomethacin added to cultured Lewis lung carcinoma cells exerted a potent antiproliferative effect ((3)H thymidine assay) and reduced cell viability (MTT[3-(4,5-dimethyl(thiazol-2-yl)-2,5 diphenyl tetrazolium bromide] assay) at low doses (10-20 microM) in parallel with its inhibitory effect on cellular cyclooxygenase. These effects of indomethacin appeared to arise from a clear antiproliferative shift in the profile of the cell cycle parameters towards a reduced percentage of cells at the S and G(2)/M phases, together with an increased percentage of cells at the G(1) phase. Significantly, similar results were seen when indomethacin was given in vivo at the low dose of 2 mg per kg/day, which blocked blood platelet COX activity and at the same time produced a delay in tumor growth initiation and attenuation of apparent primary tumor growth as well as growth of lung metastases. These results thus provide strong support for the notion that COX inhibition is a major determinant in the antitumorigenic effect of indomethacin in vivo.
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PMID:Comparative effects of indomethacin on cell proliferation and cell cycle progression in tumor cells grown in vitro and in vivo. 1123 99

Cyclooxygenase (COX) inhibitors are chemopreventive in many tumours but the role of COX inhibition in their effects is contentious. Here we determined if COX inhibitors influenced apoptosis in two non-small cell lung cancer cells one which over expresses COX-2 (MOR-P) and one which expresses neither isoform (H-460). NS398, a selective COX inhibitor, and indomethacin, a non-selective COX inhibitor, were cytotoxic in both cell lines, independently of their COX-2 expression. Furthermore, the cytotoxic concentrations were far greater than the concentrations required to inhibit COX. As indomethacin was more effective we used it in mechanistic studies. Indomethacin induced apoptotic cell death assessed as cytochrome c and apoptotic inducing factor (AIF) release, caspase activation, PARP, lamin B and gelsolin cleavage, chromatin condensation and nuclear fragmentation. The pan-caspase inhibitor, z-VAD, attenuated cell death, and blocked caspase activation, PARP cleavage and nuclear fragmentation without preventing cytochrome c release, suggesting that cytochrome c release is upstream of caspase activation. These observations suggest that COX inhibitors induce apoptosis in non-small lung cancer cells through cytochrome c and AIF release, and subsequent caspase activation, independently of COX-2 expression and prostaglandin production.
Lung Cancer 2003 Apr
PMID:Cyclooxygenase (COX) inhibitors induce apoptosis in non-small cell lung cancer through cyclooxygenase independent pathways. 1266 5

DCF chemotherapy regimen includes docetaxel, cisplatin, and 5-fluorouracil (5-FU). Cardiotoxicity is one of the well-known side effects of 5-FU, docetaxel, and cisplatin. In addition, the complications and side effects are more apparent when these three agents are given in combination. For the first time we describe a case of acute pericarditis associated with DCF regimen in a male patient. A 55-year-old man recently diagnosed with syncrone nasopharenx and non-small cell lung carcinoma was admitted to the oncology unit for chemotherapy. On the fourth day of infusion therapy with DCF he developed a central chest pain that was in pleuritic character and aggravated by recumbence. On electrocardiography (ECG), there was ST elevation on V2-6, D1, D2, and AVL. The patient was immediately transported to the cardiac catheterization laboratory for primary percutaneous coronary intervention. On coronary angiography, coronary arteries were normal. There was no segmentary wall motion abnormality on left ventricle in transthoracic echocardiography. The patient was diagnosed with acute pericarditis and the DCF regimen was discontinued. After 3 days, chest pain disappeared and ECG was normalized. According to the present case, the management of DCF-induced pericarditis includes stopping the drug and administering supportive treatment. The best method to prevent recurrent pericarditis induced by DCF is to use an alternate chemotherapeutic regimen.
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PMID:Acute pericarditis during 5-fluorouracil, docetaxel and cisplatin therapy. 2336 1