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:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Macrophages, treated in vitro with a combination of cisplatin and interferon (IFN)-gamma, have been shown to develop enhanced tumoricidal activity against a number of tumor cell types, through mechanisms which remain largely unknown. In the present study, we have investigated the mechanism involved in the tumor cell cytotoxicity mediated by cisplatin and lFN-gamma treated macrophages, and the effector molecules involved therein. Peritoneal macrophages treated with cisplatin and IFN-gamma, when co-cultured with different tumor cell types, caused tumor cell death by induction of apoptosis. Evidence for this was provided by percent specific DNA fragmentation assay, by specific pattern of internucleosomal DNA fragmentation detected by agarose gel electrophoresis and by microscopic examination of the cells, which revealed nuclear alterations, characteristic of apoptosis. The time kinetics studies of DNA fragmentation, loss in cell viability and apoptotic cell population showed linearity with time; most of the cells that underwent apoptosis were found to be viable even after 24 h co-culture. Macrophages induced apoptosis in tumor targets even in the absence of cell-to-cell contact, i.e. via diffusible effector molecules. In P815 cells, NO produced by cisplatin and IFN-gamma treated macrophages was found to induce apoptosis as addition of N(G)-monomethyl L-arginine (L-NMMA), a specific inhibitor of NO synthase to the co-culture, prevented apoptosis in P815 cells. Further, direct treatment of P815 cells with the NO donor, sodium nitroprusside (SNP), resulted in apoptosis. In L929 cells, the effector molecule was found to be tumor necrosis factor (TNF)-alpha as apoptosis was blocked by the addition of anti-TNF-alpha antibodies to the co-culture but the addition of L-NMMA or SNP had no effect. The study thus shows that cisplatin and IFN-gamma treated macrophages can kill tumor cells by extracellular release of effector molecules which act by inducing apoptosis in a target cell-specific manner.
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PMID:Cisplatin and interferon-gamma treated murine macrophages induce apoptosis in tumor cell lines. 939 25

The mechanism of the enhanced vascular permeability and retention (EPR) effect seen in solid tumors was investigated with sarcoma 180 (S-180) in mice by using the bradykinin receptor antagonist D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin] (HOE 140), the nitric oxide (NO) scavenger 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (PTIO), and the cyclooxygenase (prostaglandin synthase) inhibitor indomethacin. In the S-180 solid tumor model, administration of HOE 140 (0.65 or 1.3 microg/kg/8 h, s.c.), PTIO (167 mg/kg/2 h, four times/8 h, i.p.), or indomethacin (5 or 10 mg/kg/day, three times, i.p.) significantly suppressed the EPR effect in the tumor, and the combined administration of these agents achieved a stronger inhibition of the EPR effect than did each compound alone. Indomethacin (10 mg/kg/day, three times) plus PTIO (167 mg/kg/2 h, four times) given i.p. had the greatest inhibition (70%) on the EPR effect. When HOE 140 was administered s.c. at a dose of 13 microg/kg/12 h for 2 weeks after tumor inoculation, growth of the solid tumor was also suppressed by 32%, by tumor weight. In the ascitic form of S-180, i.p. administration of HOE 140 at 13 microg/kg/12 h initiated immediately after tumor inoculation significantly suppressed formation of S-180 tumor ascites; the life span of ascitic S-180 tumor-bearing mice was prolonged at the same dose of HOE 140. The expression of inducible NO synthase mRNA and of cyclooxygenase 2 mRNA in S-180 tumor tissue was highly elevated, as evidenced by Northern blotting and reverse transcription-PCR and by Southern blot analyses. These results indicate that bradykinin, NO, and prostaglandins play an important role in enhanced vascular permeability in tumor tissue and sustain tumor growth. More importantly, bradykinin antagonists such as HOE 140 may be beneficial for the inhibition of tumor growth.
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PMID:Modulation of enhanced vascular permeability in tumors by a bradykinin antagonist, a cyclooxygenase inhibitor, and a nitric oxide scavenger. 942 72

The murine bone marrow (BM) cells having a certain phenotypic similarity to null natural suppressor (NS) cells have been previously established to be able to inhibit in vitro leukemic cell growth in a genetically unrestricted manner. In this study we found that the treatment of normal (C57BL/6 x DBA)F1 BM cells with a lysosomotropic agent, L-leucine methyl ester (LME), largely abrogated their ability to reduce both P815 mastocytoma and L1210 lymphoma cell proliferation, as well as their NS activity tested for suppression of mitogen (Con A or LPS)-driven spleen cell proliferation. However, after being depleted of the cells binding wheat germ agglutinin (WGA), the BM cells maintained tumor growth-inhibitory activity, while demonstrating no significant NS activity. Moreover, in contrast to T-cell blastogenesis-inhibitory NS activity of BM cells, that was greatly reduced by the addition into the culture of either neutralizing anti-interferon (IFN)-gamma antibody (Ab) or NG-monomethyl-L-arginine, a competitive inhibitor of NO synthase, natural antitumor cytostatic activity of BM cells was not found to be dependent on the presence in medium of IFN-gamma and to be associated with NO production. When incubated at suboptimal numbers with tumor cells on conic, round, and flat well bottoms for 7 h, BM cells provided the most, middle, and least (or no) tumor growth inhibition, respectively, suggesting, thereby, a significance of cell density in cytostatic process. It was also found that the BM cells cultured for 20 h with the medium conditioned by mitogen-preactivated T or B lymphocytes were significantly more suppressive to tumor cell proliferation than the BM cells cultured in medium alone. The potentiation of BM-cell cytostatic activity by T-cell-conditioned medium (CM), but not that by B-cell-CM, was found to be partially reversed by anti-IFN-gamma Ab. Finally, a noticeable tumor growth-inhibitory activity, which could be significantly enhanced upon T-cell-CM, was shown to be also attributable to BM cells from athymic BALB/c mice. Taken together, the results suggest that (1) the tumor growth inhibitory BM cells and the NS BM cells are not identical in their cell compositions, but also differ in their mechanisms of antiproliferative action; (2) a contact cell-to-cell interaction may play a significant role in BM-cell-mediated tumor growth inhibition; (3) the activated lymphocytes, through both IFN-gamma-mediated and IFN-gamma-independent pathways, are able to operatively up-regulate the cytostatic activity of BM cells; and (4) the tumor growth-inhibitory activity exhibited by the normal unmanipulated BM cells, at least in its significant part, may not be a consequence of thymus-dependent immune processes occurring normally in the body.
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PMID:Tumor growth inhibitory and natural suppressor activities of murine bone marrow cells: a comparative study. 942 5

During the past five years we observed many advances in the study of the polymer drug, "SMANCS". This first polymeric drug was approved by the Japanese Ministry of Health and Welfare in 1994 as a drug for primary liver cancer, in which the arterial injection of oily formulation in Lipiodol (a lipid contrast medium) is the standard procedure. The advantage of this tactic is the most extraordinary cancer targeting efficiency with the least systemic side effect and very prolonged slow release of SMANCS. The mechanism of tumor selective accumulation of SMANCS and polymeric drugs in general is discussed in view of the so called-EPR (enhanced permeability and retention) effect of solid tumor. The mode of action of SMANCS at the cellular level seems to accompany the generation of superoxide radical which damages DNA; strand break and modification of guaninine by 8-hydroxylguanine. Immunological potentiation involves either the cellular (M phi, T-cell, NK-cell) or molecular level (induction of cytokines, including interferon gamma). The in vivo effect of SMANCS is most pronounced in the tumor vessels where more concentrated SMANCS is accessible due to the EPR effect, and perhaps the generation of O2.-. Nitric oxide generated by both inducible form of NO synthase (iNOS) by the infiltrated macrophages and NOS of endothelial cells, and superoxide from SMANCS will readily react to form peroxynitrite (O2- + NO-->ONOO-), which is a very potent cytotoxic molecule and will damage (nitrate and oxidize) DNA and proteins. Thus, tissue damage and vascular injury or collapse will be the principle tumor toxic mechanism of SMANCS at tissue level. The dose of SMANCS (or grade I-IV tumor filling) and tumor regression parallel each other, and a profile of AFP-value and technical issues of SMANCS/Lipiodol administration intraarterially are also discussed.
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PMID:[Recent advances in research on SMANCS]. 951 80

Nitric oxide (NO) is a potent short-lived and short range bioactive molecule, which plays a key role in physiological and pathological processes including inflammation and cancer. Detrimental effects of excessive NO production during septic shock have been well recognized. We tested the hypothesis that 'capillary leak syndrome' following systemic interleukin-2 (IL-2) therapy resulted from a cascade of events leading to the induction of NO which, directly or indirectly, injured capillaries and caused fluid leakage. Our results provided the first direct evidence that the induction of active NO synthase (NOS) leading to the overproduction of NO is instrumental in IL-2-induced capillary leakage in mice and that successful blocking of this overproduction with chronic oral administration of NOS inhibitors can mitigate this leakage without interfering with the beneficial antitumor effects of IL-2 therapy. NO blocking agents can, in fact, improve IL-2-induced antitumor effector cell activation, as well as tumor regression. In our studies, NO blocking agents alone reduced the growth and metastasis of a murine mammary carcinoma, at least in part, by mitigating the invasion and angiogenesis-stimulating role of tumor-derived NO. Thus, NOS inhibitors may be useful in treating certain tumors and serve as valuable adjuncts to systemic IL-2 based immunotherapy of cancer and infectious diseases.
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PMID:Role of nitric oxide in IL-2 therapy-induced capillary leak syndrome. 954 28

We investigated whether murine peritoneal macrophages treated with cisplatin or interferon (IFN)-gamma alone, or in combination, could undergo apoptosis, and whether this results either from the cytotoxic effect of the activating agents or indirectly in an autocrine manner by the cytotoxic molecules released by them upon activation. Our data suggest that cisplatin, which has been shown to induce apoptosis in a number of normal as well as tumor cell types, did not induce apoptosis in murine peritoneal macrophages nor was apoptosis caused by IFN-gamma. However, combined treatment with cisplatin and IFN-gamma induced apoptosis in macrophages as studied by percent DNA fragmentation assay, qualitative analysis of DNA on agarose gel electrophoresis, and morphological and nuclear alterations studied by phase contrast and fluorescence microscopy. The factor responsible for inducing apoptosis in macrophages was found to be a higher concentration of NO produced by them upon activation with cisplatin and IFN-gamma. Macrophages treated with cisplatin or IFN-gamma alone produced a low level of NO and did not undergo apoptosis. The inhibitor of NO synthase, L-NMMA, prevented apoptosis in macrophages treated with cisplatin and IFN-gamma, suggesting the involvement of NO in the induction of apoptosis in macrophages. The role of NO in inducing apoptosis in macrophages was further confirmed by the observation that direct treatment with sodium nitroprusside, a NO donor, resulted in apoptosis in macrophages. We have also shown that NO-induced apoptosis in macrophages activated with cisplatin and IFN-gamma requires activation of an endonuclease, as the endonuclease inhibitor, aurine tricarboxylic acid, prevented apoptosis in them.
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PMID:Murine peritoneal macrophages treated with cisplatin and interferon-gamma undergo NO-mediated apoptosis via activation of an endonuclease. 963 24

Ischaemia-reperfusion (I/R) injury is a model system of oxidative stress and a potential anti-cancer therapy. Tumour cytotoxicity follows oxygen radical damage to the vasculature which is modulated by tumour production of the vasoactive agent, nitric oxide (NO.). In vivo hydroxylation of salicylate, to 2,3- and 2,5-dihydroxybenzoate (DHBs), was used to measure the generation of hydroxyl radicals (OH.) following temporary vascular occlusion in two murine tumours (with widely differing capacity to produce NO.) and normal skin. Significantly greater OH. generation followed I/R of murine adenocarcinoma CaNT tumours (low NO. production) compared to round cell sarcoma SaS tumours (high NO. production) and normal skin. These data suggest that tumour production of NO. confers resistance to I/R injury, in part by reducing production of oxygen radicals and oxidative stress to the vasculature. Inhibition of NO synthase (NOS), during vascular reperfusion, significantly increased OH. generation in both tumour types, but not skin. This increase in cytotoxicity suggests oxidative injury may be attenuation by tumour production of NO.. Hydroxyl radical generation following I/R injury correlated with vascular damage and response of tumours in vivo, but not skin, which indicates a potential therapeutic benefit from this approach.
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PMID:Involvement of oxygen free radicals in ischaemia-reperfusion injury to murine tumours: role of nitric oxide. 968 13

Ribonucleotide reductase is essential for DNA synthesis in cycling cells. It has been previously shown that the catalytically competent tyrosyl free radical of its small R2 subunit (R2-Y.) is scavenged in tumor cells co-cultured with macrophages expressing a nitric oxide synthase II activity. We now demonstrate a loss of R2-Y. induced either by .NO or peroxynitrite in vitro. The .NO effect is reversible and followed by an increase in ferric iron release from mouse protein R2. A similar increased iron lability in radical-free, diferric metR2 protein suggests reciprocal stabilizing interactions between R2-Y. and the diiron center in the mouse protein. Scavenging of R2-Y. by peroxynitrite is irreversible and paralleled to an irreversible loss of R2 activity. Formation of nitrotyrosine and dihydroxyphenylalanine was also detected in peroxynitrite-modified protein R2. In R2-overexpressing tumor cells co-cultured with activated murine macrophages, scavenging of R2-Y. following NO synthase II induction was fully reversible, even when endogenous production of peroxynitrite was induced by triggering NADPH oxidase activity with a phorbol ester. Our results did not support the involvement of peroxynitrite in R2-Y. scavenging by macrophage .NO synthase II activity. They confirmed the preponderant physiological role of .NO in the process.
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PMID:Differential sensitivity of the tyrosyl radical of mouse ribonucleotide reductase to nitric oxide and peroxynitrite. 970 59

Kaposi's sarcoma (KS) is a tumor of presumed vascular origin frequently found in patients with AIDS. Recent data suggest that the development of KS is linked with the presence of a newly recognized herpesvirus, human herpesvirus type 8. Nitric oxide (NO), a messenger molecule with vasoactive, antitumor, and antimicrobial effects, is produced by three isoforms of nitric oxide synthases (NOS). In the present report, we investigated the expression of NOS isoforms in KS. By NADPH-diaphorase histochemistry, NOS activity was detectable in endothelia and CD45+ cells within KS lesions. Reactivity for endothelial NOS (eNOS) was found in blood vessel endothelia; however, eNOS reactivity was negative in KS spindle cells in 12 of 17 tumors, and moderately positive in the other 5 lesions. In contrast to KS, tumor cells in three hemangiomas and one angiosarcoma were strongly positive for eNOS. Inducible NOS (iNOS) was absent from KS tumor cells but was found regularly in CD45+, HLA-DR+ cells within the lesions. In five KS-derived spindle cell cultures, neither eNOS nor iNOS proteins were detectable. The sporadic expression of eNOS by KS spindle cells in vivo and the absence of eNOS protein from KS spindle cells in tissue cultures argue against the possibility that the cells are derived from blood vessel endothelia. The consistent expression of iNOS by CD45+, HLA-DR+ cells within KS lesions strongly suggests that leukocyte-derived NO participates in the pathology of this tumor.
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PMID:Nitric oxide synthases in Kaposi's sarcoma are expressed predominantly by vessels and tissue macrophages. 971 82

In recent years, accumulated evidence indicates that free radical species and nitric oxide (NO) or its derivatives are the key denominators in carcinogenesis. Our present topics discussed in this article will focus on the biological significance of free radical generation induced by viral and bacterial infections. In influenza virus infection in mice, the level of xanthine oxidase (XO) at the infected sites was elevated to a great extent. The timing of paralleled induction of XO with that of inducible NO synthase (iNOS) indicates efficient simultaneous reaction: NO + O2*- --> ONOO- (peroxynitrite). Peroxynitrite formation was identified by immunostaining of nitrotyrosine at the local site of infected organs. Peroxynitrite exhibits unique chemical reactivities such as protein nitration, DNA-strand breakage, guanine nitration, etc., which may then bring about not only cytotoxic effect but also mutagenesis. Numbers of evidence in vitro and in vivo show that treatment with chemical carcinogens such as carbon tetrachloride and heterocyclic amines also generated superoxide. The chronic inflammatory reactions, e.g., zymosan- and silica-induced granuloma, revealed very similar free radical generation in vivo. In addition, most experimental solid tumors have elevated levels of iNOS in the tumor tissue, and NO thus generated facilitates vascular permeability, which accelerates nutritional supply to the tumor tissue and hence sustains the rapid tumor growth. These circumstantial evidences suggest that inflammatory responses induced by various pathogens would accelerate mutagenesis as well as tissue damage, whereas NO also sustains more effectively solid tumor growth when normal cells are transformed to tumor or carcinoma cells by the host-derived free radical species.
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PMID:Nitric oxide and oxygen radicals in infection, inflammation, and cancer. 972 38


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