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

We have tested the tumoricidal potency of enzyme immunotoxins constructed of antibodies conjugated to glucose oxidase and to lactoperoxidase. Murine plasmacytoma cells were targeted in vitro with the use of affinity-purified rabbit anti-plasmacytoma membrane antibodies (conjugated to glucose oxidase or lactoperoxidase) or rabbit serum raised against plasmacytoma microsome membranes followed by goat anti-rabbit immunoglobulin conjugates (to glucose oxidase or lactoperoxidase). Cytotoxicity was generated subsequently by incubation of the washed cells in a medium supplemented with glucose and sodium iodide, which were the substrates of these enzymes. This resulted in the presumed metabolic release of highly toxic reduced oxygen species and iodinated derivatives. Targeting of tumor cells with both conjugates, as opposed to one of them alone, produced a synergistic killing effect. The gain of specific versus unspecific cytotoxicity was upwards of 10,000-fold. The killing rates were elevated (t10 values less than 30 min) and linear over time. The resultant reduction in tumor cell viability was in the order of 5 to 6 logs after only 20 to 90 min of incubation in the glucose/NaI medium. Cytotoxicity was enhanced by the gamma-glutamyl cysteine synthetase inhibitor buthionine-S,R-sulfoximine and by the glutathione reductase inhibitor 1,3-bis(2-chloroethyl)-1-nitrosourea, while catalase was inhibitory. The results suggest that these enzyme immunotoxins may be suitable for the ex vivo purging of autologous bone marrow grafts.
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PMID:Immunotoxins containing glucose oxidase and lactoperoxidase with tumoricidal properties: in vitro killing effectiveness in a mouse plasmacytoma cell model. 279 Jul 77

The coexistence of activated polymorphonuclear leukocytes and lymphocytes in tumor masses and inflammatory tissues suggests the possibility of interaction between secreted neutrophil products and nearby lymphocytes. To test this hypothesis, we examined the effects of neutrophil myeloperoxidase and H2O2 on lymphocytes. Human peripheral blood mononuclear leukocytes were exposed to myeloperoxidase, an H2O2-generating system (glucose + glucose oxidase), and a halide, and were then tested for functional activities. Natural killer activity against K562 cells, lymphocyte proliferation in response to mitogens, and generation of immunoglobulin-secreting cells were all susceptible to oxidative injury by myeloperoxidase and H2O2. The degree as well as the mechanism of suppression was dependent on the glucose oxidase concentration (i.e., the rate of H2O2 delivery). At low H2O2 flux, myeloperoxidase was essential for induction of lymphocyte suppression; as the rate of H2O2 generation increased, suppression became myeloperoxidase-independent and was mediated by H2O2 alone. Various lymphocyte functions were differentially susceptible to oxidative injury by myeloperoxidase and H2O2. The proliferative response to poke-weed mitogen was the least sensitive, whereas antibody formation was the most sensitive. Proliferative responses to concanavalin A and phytohemagglutinin as well as natural killer activity displayed intermediate degrees of susceptibility. In all assays, lymphocyte viability was greater than 90%. Removal of monocytes from mononuclear leukocytes by adherence to glass increased susceptibility of lymphocytes to oxidative injury. Monocytes in proportions within the range present in peripheral blood mononuclear leukocytes protected lymphocyte functions against oxidative injury by myeloperoxidase and H2O2. This study demonstrates a differential susceptibility of various immune functions to oxidative injury by the neutrophil products myeloperoxidase and H2O2, and shows, in addition, that monocytes can modulate these interactions.
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PMID:Immunomodulation by neutrophil myeloperoxidase and hydrogen peroxide: differential susceptibility of human lymphocyte functions. 300 17

Hydrogen peroxide produced by stimulated phagocytic cells or during the metabolism of drugs, is toxic to various cell types. The aim of this study was to investigate its toxicity against normal vs. tumor rat hepatocytes. Isolated normal hepatocytes and tumor hepatocytes from three hepatocarcinoma cell lines, Fao, C2 (Faof1C2) and HTC, were incubated in the presence of a H2O2-generating system consisting of glucose and varied concentrations of glucose oxidase. The toxicity of H2O2 was quantified by measuring the percentage of lactate dehydrogenase activity released in the culture medium after various times of incubation. By comparison to normal hepatocytes, tumor hepatocytes exhibited an increased susceptibility to lysis by H2O2. At a concentration of 100 mU per ml, glucose oxidase induced a lactate dehydrogenase activity release of only 6.1 +/- 2.2% (mean +/- S.E.) from normal hepatocytes and of 71.0 +/- 2.9, 45.5 +/- 2.5 and 34.7 +/- 3.4% from Fao, C2 and HTC cells, respectively, after an 18-hr incubation. At a concentration of 10 mU per ml, glucose oxidase had no toxic effect to normal hepatocytes or HTC cells, whereas it induced a lactate dehydrogenase activity release of 58.7 +/- 7.6 and 51.2 +/- 5.6% from Fao and C2 cells, respectively. In addition, the time courses of lactate dehydrogenase activity release, studied with 500 mU per ml glucose oxidase, demonstrated that Fao cells, C2 cells and, to a lesser degree, HTC cells were lysed more rapidly than normal hepatocytes. The toxicity of glucose oxidase was suppressed by the addition of catalase, indicating that it was actually mediated by H2O2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vitro toxicity of hydrogen peroxide against normal vs. tumor rat hepatocytes: role of catalase and of the glutathione redox cycle. 319 84

We have assessed the tumoricidal potential of enzyme-antibody conjugates on murine myeloma cells. Conjugates of glucose oxidase (EC 1.1.3.4) and lactoperoxidase (EC 1.11.1.7) were specifically targeted on the NSO tumor cells. Optimal conditions for tumor cell killing, as assayed by [51Cr] release required the binding of both antibody conjugates to the cell membrane. This is followed by washing and incubation in medium containing glucose and 0.1 mM iodide. Under these conditions 90% of the incorporated [51Cr] labeled is released from the cells, and NSO clonogenicity is reduced by a factor greater than 5 logs by 2 h of incubation.
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PMID:In-vitro cytolysis of myeloma tumor cells with glucose oxidase and lactoperoxidase antibody conjugates. 376 10

There is growing evidence that natural killer (NK) cells play an important role in immune surveillance against tumors and certain infections. The coexistence of activated neutrophils with lymphocytes in tumor masses and inflammatory tissues suggests the possibility of interaction between secreted neutrophil products and nearby lymphocytes. We examined the susceptibility of lymphocyte NK activity to oxidative injury by the neutrophil myeloperoxidase (MPO) system and H2O2 with the use of a cellfree model system. Exposure of human mononuclear leukocytes (MNL) to MPO, an H2O2-generating system (glucose + glucose oxidase), and a halide (C1- or I-) resulted in marked suppression of MNL-NK activity, as measured by 51Cr release from K562 tumor targets (p less than 0.001). This suppression was dependent on the presence and activity of each system component and was blocked by azide and catalase, but not by heated catalase. In spite of the marked functional suppression of NK activity, MNL viability was more than 95% and target binding frequency was not affected. NK suppression was reversible after 24 hr in culture. The mechanism of suppression was dependent on the amount and rate of H2O2 delivered, and on MNL number. MPO was essential when H2O2 flux was low or when MNL numbers were high. As H2O2 flux increased or MNL numbers decreased, NK suppression gradually became MPO-independent and was mediated by H2O2 alone. The ability of the MPO system to compromise lymphocyte NK function may explain the in vitro inhibition of NK activity of mixed cell populations by the tumor promoter phorbol esters, because these agents are potent stimulants for neutrophil secretion of MPO and H2O2. This study may also provide a possible mechanism for the reported in situ NK activity suppression by adherent phagocytic cells during carcinogenesis in both humans and animals.
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PMID:Down-regulation of human natural killer activity against tumors by the neutrophil myeloperoxidase system and hydrogen peroxide. 609 70

To facilitate detection of SV40 surface-associated tumor antigen (T-ag), conditions were established to surface label T-ag on intact cells by lactoperoxidase-catalyzed radioiodination (125I/LPO). SDS-PAGE analysis of anti-T immunoprecipitates of SV40-transformed and -infected cells labelled with 125I/LPO revealed the presence of iodinated T-ag. Several types of control experiments were employed to guarantee the surface specificity of the 125I/LPO labelling technique. When SV40-transformed mouse cells were surface labelled with lactoperoxidase and glucose oxidase immobilized on insoluble beads, a preparation less readily internalized than soluble enzymes, T-ag was iodinated. Selective immunoprecipitation of surface antigens demonstrated that lactoperoxidase did not iodinate internally localized T-ag. A reconstruction experiment in which an extract of SV40-infected cells was added to uninfected cells prior to surface labelling suggested that T-ag released from lysed cells did not adhere significantly to monolayer surfaces and become iodinated. Finally, systematic omission of reactants from the iodination reaction revealed that exogenous addition of lactoperoxidase and H2O2 was necessary to generate an iodinated T-ag, indicating that endogenous host cell reactants do not contribute significantly to the iodination of T-ag. 125I-labelled T-ag was detectable on the surface of SV40 tsA-infected cells at the nonpermissive temperature 24 h post infection, indicating that the tsA lesion does not prevent the interaction of T-ag with the cell surface. When 125I/LPO-labelled transformed or infected cells were chased for 2.5 h after labelling, iodinated T-ag was no longer associated with the cell monolayer but was immunoprecipitable from culture supernatants. Cultures from which labelled T-ag had been shed could then be relabelled with 125I/LPO and surface-associated T-ag was again detectable. These data suggest that surface-associated T-ag is continuously shed from the cell surface and is rapidly replaced in the membrane by intracellular T-ag.
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PMID:Detection of simian virus 40 surface-associated large tumor antigen by enzyme-catalyzed radioiodination. 627 27

The cytolytic capacity of monocytes per se and stimulated monocytes has been documented to only a limited extent, and when observed has been ascribed to the generation of a variety of cytolytic molecular entities. In the present study we have examined de novo human monocyte-mediated tumor cytotoxicity and that induced by the agent 12-O-tetradecanoylphorbol-13-acetate (TPA). Cytolytic function was analyzed by reference to the release of [111In] oxine from two prelabeled tumor cell lines, K562 and U937, in a 16-hr assay in the presence of serum to more closely mimic in vivo circumstances. Observed cytolysis was clearly related to TPA concentration and effector cell number. Maximal cytolysis was obtained with TPA at 5 ng/ml, at which specific releases were 43% +/- 6 and 18% +/- 5 (mean +/- 1 SEM) at an effector cell to target cell (E:T) ratio of 2.5:1 and 65% +/- 6, and 41% +/- 12 at an E:T ratio of 20:1, for K562 and U937, respectively. In contrast, unstimulated monocytes expressed minimal cytolytic activity, or at best a low cytotoxic effect at high cellular ratios. When TPA-stimulated monocyte-mediated cytolysis was examined, catalase (2750 U/ml) inhibited K562 and U937 cytolysis by 92% and 84%, respectively; superoxide dismutase (300 U/ml) only inhibited cytotoxicity by 17% and 24%, respectively, implicating a central role of H2O2 rather than superoxide ions. Sodium azide (1 mM), an inhibitor of myeloperoxidase, did not diminish cytolysis; in contrast, it increased K562 and U937 cytolysis by 34% and 57%. This increased cytotoxicity was observed for K562 at low levels of cytotoxicity. These data tend to dismiss an essential role of the H2O2-halide-myeloperoxidase pathway of cytolysis. The OH scavengers, histidine (20 mM) and ethanol (40 mM), did not affect K562 killing; mannitol (50 mM), another OH scavenger, had only a slight inhibitory effect (23%). Finally, H2O2 generated by a glucose-glucose oxidase system directly mediated K562 killing and, to a lesser extent, U937 lysis. These results point strongly towards the role of: 1) a myeloperoxidase-independent mechanism of cytotoxicity, with 2) H2O2 as a key mediator of the cytolytic mechanism, and 3) a limited role of O2.- in synergy with H2O2 in the cytolytic activity of monocytes, and suggest that significant cytolytic function requires an inductive event.
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PMID:Human monocyte-mediated tumor cytotoxicity. I. Demonstration of an oxygen-dependent myeloperoxidase-independent mechanism. 632 94

A solid-phase, enzyme-linked immunosorbent assay (ELISA) for a human lung tumor-associated antigen (LTA) was based on immobilized LTA that was detected with the use of an antiserum raised in a goat against a highly purified antigen preparation. Bound goat antibodies were detected in a series of steps that included incubation with a) biotinylated rabbit antibodies to goat immunoglobulins, b) glucose oxidase conjugated to avidin, and c) peroxidase and the substrates glucose and 2,2'-azino-di-(3-ethylbenzthiazoline sulfonic acid). The absorbance of the final product was measured at 405 nm, and its formation was dependent on substrate incubation time and antibody concentration. The antigen was immobilized and highly purified, and the goat antiserum was bound to and eluted from an immobilized crude antigen column before use. The ELISA could detect less than 1 ng antigen and was able to discriminate extracts of normal lung tissue from those of lung tumor. As was found earlier with a radioimmunoassay for the same antigen, normal human serum could inhibit in the ELISA but only when used at high concentration, indicating levels of antigen or antigen-like activity in the 100-200 ng/ml range. With the use of this assay, 3 lung cancer patients were monitored 6-12 months prior to death. In all 3 patients, LTA levels rose dramatically 2-4 months before the patients died; in 2 patients the levels exceeded 3,000 ng/ml just before death. In contrast, in 2 of these patients, carcinoembryonic antigen levels remained essentially unchanged, with no more than a twofold increase prior to death.
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PMID:A solid-phase, enzyme-linked immunosorbent assay for a human lung tumor-associated antigen. 636 40

Medium conditioned by tumor cells (TCM) and certain nonmalignant cells contains a trypsin-sensitive factor that suppresses macrophage oxidative metabolism. Because the killing of intracellular pathogens such as Toxoplasma gondii and Leishmania donovani by macrophages is largely oxygen-dependent, we tested the effect of TCM on the antiprotozoal activity of mouse peritoneal macrophages. After 24 hr of cultivation with TCM, in vivo and in vitro activated macrophages could no longer kill toxoplasmas or inhibit their replication. In vivo administration of TCM resulted in similar impairment. The leishmanicidal activity of resident and activated macrophages, when measured 6 hr after infection, was markedly suppressed by in vitro exposure to TCM. The addition of exogenous H2O2 in the form of glucose-glucose oxidase reconstituted the capacity of TCM-exposed macrophages to kill L. donovani promastigotes as quickly as control cells. Thus, TCM appears to deactivate macrophages by the functional criteria of suppressed antitoxoplasmal and antileishmanial activity, as well as by the biochemical criterion of suppressed oxidative metabolism.
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PMID:Suppression of macrophage antimicrobial activity by a tumor cell product. 640 80

When the subcellular distribution of secretory component (SC) and carcinoembryonic antigen (CEA) were determined immunoelectronmicroscopically, SC was found on the baso-lateral surface and CEA on the apical surface of the normal gastrointestinal epithelium. In contrast, on the neoplastic cells SC and/or CEA were found all around the cell surface. Taking the change in the distribution of CEA on the neoplastic cells as an advantage, an attempt was made to develop an immunotherapeutic method for adenocarcinoma. The method was based upon an assumption that intravenously injected anti-CEA is not accessible to normal epithelial cells, since the tight junction will act as a barrier for the diffusion of antibodies from the interstitium to the apical cell surface, but the anti-CEA will form immunecomplexes with the CEA on the baso-lateral surface of neoplastic cells. Specifically, CEA-producing human gall bladder carcinoma were transplanted into nude mice. To the tumor-bearing mice, glucose oxidase-labeled anti-CEA was intravenously injected. As a control, glucose oxidase-labeled normal rabbit IgG was injected. This was followed with an injection of NaI. It was found that in those mice injected with the labeled anti-CEA, the size of tumor was reduced as much as 30% within three days. In the controls, the tumor continued to grow. In those injected with the labeled anti-CEA, CEA-anti-CEA immunecomplexes were deposited on the glomerular basement membrane, consequently a search for an insoluble apical antigen is currently made.
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PMID:Distribution of oncodevelopmental markers in neoplastic cells: therapeutic implications. 674 76


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