UMLS:C0027651 - FACTA Search

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

Neuroblastoma (NB), a tumor originating from the sympathetic nervous system, is the most common extracranial neurological tumor of childhood. Human NB cells may differentiate in vitro under treatment with biological agents, as gamma-interferon (IFN-gamma) and tumor necrosis factor (TNF). Unfortunately, NB cell lines resistant to the differentiation-inducing effects of both drugs have been observed. Here we demonstrate that a combination of IFN-gamma plus TNF causes extensive and generalized differentiation of NB cells toward a neuronal phenotype. Both IFN-gamma and TNF, given alone, moderately reduced cell growth and induced partial morphological maturation. Their combination further reduced cell proliferation. The combined treatment gave a synergistic rather than additive cytostatic effect, documented also by a dramatically enhanced differentiation toward a neuronal morphology. Membrane immunofluorescence showed a homologous and heterologous up-regulation of IFN-gamma receptor, as well as a marked induction of HLA Class I antigens and, to a lesser extent, of Class II antigens on NB cells induced to differentiate. Treatment of NB cell lines with IFN-gamma/TNF results in the induction of a differentiated phenotype, as indicated by the increased expression of the Mr 160,000 and 200,000 neurofilament proteins and that of microtubule-associated proteins. Evaluation of biochemical markers of neuronal differentiation confirmed the ability of the combined treatment to induce neuroblast maturation. These results suggest that the combination of IFN-gamma and TNF should be considered for experimental clinical trials in neuroblastoma.
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PMID:The combination of gamma-interferon and tumor necrosis factor causes a rapid and extensive differentiation of human neuroblastoma cells. 137 Oct 90

The protein-bound polysaccharide PSK was tested for the ability to activate human natural killer (NK) cells. When blood lymphocytes and purified CD3-CD16+ large granular lymphocytes (LGL) were treated in vitro overnight with PSK, they demonstrated enhanced NK cell activity against K562. The PSK-activated killer cells also lysed NK-resistant targets and freshly isolated autologous and allogeneic tumor cells. The PSK effect was observed with concentrations that could be obtained in the blood of cancer patients receiving oral administration of PSK. PSK-induced enhancement of NK activity was not abrogated by monoclonal antibodies (mAb) that neutralized interferon (IFN) alpha, IFN gamma, or interleukin-2 (IL-2). In addition, mAb reactive with p55 (alpha chain) or p75 (beta chain) glycoproteins of IL-2 receptors had no effects on PSK-enhanced NK activity even when used simultaneously. These results indicate that the PSK could activate human NK cells independently of IFN and IL-2/IL-2R systems.
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PMID:Activation of human natural killer cells by the protein-bound polysaccharide PSK independently of interferon and interleukin 2. 137 83

The anti-proliferative activity of human interferon (HuIFN) was enhanced by dipyridamole, 2,6-bis-(diethanolamino)-4,8-dipiperidinopyrimido-[5,4-d]-py rimidine, when tested against various human tumor cell lines, including KT (breast carcinoma), PLC/PRF/5 (hepatoma), MGC-I, U251-SP and T98 (glioma), HAC-2 and SHIN-3 (ovarian carcinoma), and MM-ICB (melanoma). The enhancement occurred irrespective of the kind of HuIFN used (alpha, beta or gamma) and the original degree of susceptibility of the cells to HuIFN. Even low doses down to 0.01 microM of dipyridamole that had no intrinsic anti-proliferative activity could enhance the effect of HuIFN. The enhancement of HuIFN effects seems not to be caused by induction of HuIFN production, because neither anti-viral activity nor HuIFN antigens were detected in culture medium in cells treated with dipyridamole. Mopidamole, a derivative of dipyridamole lacking one piperidine residue, produced little enhancement of the effects of HuIFN. Among ovarian cancer cell lines tested, the enhancement of the activity of HuIFN by dipyridamole for HAC-2 and SHIN-3 cells was equivalent to or greater than that for 3 chemotherapy agents (adriamycin, vincristine, and a camptothecin derivative). However, neither HOC-21 ovarian cancer cells nor HEC-1 endometrial adenocarcinoma cells were susceptible to any combinations. When MGC-1, U251-SP, and HAC-2 cells were injected into nude mice, the growth of tumors was more markedly inhibited by the subcutaneous administration of HuIFN in combination with oral administration of dipyridamole than by the HuIFN alone. Thus, this combination therapy seems to be worth trying for human cancer, although the enhancement of the effects of HuIFN by dipyridamole varied among the cell lines examined.
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PMID:Dipyridamole enhances an anti-proliferative effect of interferon in various types of human tumor cells. 137 1

To facilitate investigation of its physical and functional properties, 11 monoclonal antibodies (mAbs) and a goat polyclonal IgG specific for the mouse interferon- (IFN-gamma) receptor were characterized and their potential uses studied. Eight of the mAbs interacted with epitopes on the extracellular domain of the receptor, two interacted with epitopes on the intracellular domain, and one interacted with an epitope that could not be localized definitively to either region. Of the 11 mAbs, the majority (8) were IgGs, 2 were IgMs, and 1 was an IgA. Relative avidities of the seven that could be determined ranged from 333 to 0.002 microM-1. Both the polyclonal goat IgG and mAb GR-20 (the latter specific for an epitope in the binding site for IFN-gamma) blocked binding of the ligand and, as expected, prevented induction by IFN-gamma of priming of macrophages for tumor cell killing. None of the other mAbs had an effect despite the fact that GR-22 partially (greater than 50%) blocked binding of IFN-gamma. Neither the polyclonal IgG nor any of the mAbs had an agonist effect. The relative usefulness of the antibodies for immunoprecipitation, immunoblotting, immunoassay, and cell staining with and without prior fixation is described. The results of immunocytochemical staining directly confirmed that the majority of immunologically reactive receptor protein expressed by cells is intracellular. To facilitate use by other investigators, the hybridomas that produce these mAbs will be offered to the American Type Culture Collection.
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PMID:Characterization and use of monoclonal and polyclonal antibodies against the mouse interferon-gamma receptor. 137 54

The low-molecular-weight imidazoquinolinamine derivative, 1-(2-methylpropyl)-1H-imidazo[4,5-c]quinolin-4-amine (imiquimod, previously described as R-837), induced alpha-interferon (IFN-alpha) in mice. IFN induction was identified at oral doses as low as 3 mg/kg. The 10% lethal dose for daily treatment with imiquimod was 200 mg/kg. Oral treatment with 30 mg/kg imiquimod once every three days significantly inhibited MC-26 colon carcinoma. Delay of treatment from day 1 to day 5, when tumors were easily palpable, did not reduce benefits. Ten daily treatments were slightly more effective than five. However, delivery of the same total dose of imiquimod either once every day for 20 days, once every 4 days, once every 7 days, or once every 10 days inhibited tumor growth to the same level. The antitumor effects of imiquimod were significantly abrogated by an antiserum to murine IFN-alpha, suggesting that the antitumor effect was to a substantial extent mediated by IFN induction. Imiquimod also significantly reduced the number of lung colonies in mice inoculated i.v. with MC-26 tumor cells. Combination of treatment with imiquimod and cyclophosphamide was significantly (P less than 0.01) better than treatment with either drug alone. Combination treatment with cyclophosphamide led to cures in some of the mice inoculated either s.c. or i.v. with MC-26 cells. Treatment with imiquimod also inhibited the growth of RIF-1 sarcoma and Lewis lung carcinoma but was ineffective for P388 leukemia. Imiquimod is an oral IFN-alpha inducer with antitumor effectiveness for transplantable murine tumors.
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PMID:Inhibition of murine tumor growth by an interferon-inducing imidazoquinolinamine. 137 95

The human myeloid cell nuclear differentiation antigen (MNDA) is expressed specifically in cells of the granulocyte/monocyte lineage. The MNDA has been isolated by using a monoclonal antibody affinity matrix and reversed-phase high performance liquid chromatography. Its NH2-terminal sequence has been obtained, as well as additional sequence information derived from peptides produced by cyanogen bromide and SV8 protease cleavages. Meaningful similarities were observed in extended regions between the MNDA and the reported beta interferon-inducible proteins, 202 and 204, from Ehrlich ascites mouse tumor cells. An amphipathic, basic alpha-helical region, showing no similarity to the 202 and 204 proteins, exhibited close similarity to a region in the interferon response factor-2, a protein which binds the interferon stimulated response element. The relatively high number of S(T)PXX motifs present in the partial amino acid sequence of the MNDA, described herein, suggests that the MNDA binds DNA and is a transcription factor.
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PMID:Characterization of the human myeloid cell nuclear differentiation antigen: relationship to interferon-inducible proteins. 137 1

Natural killer (NK) cells are probably involved in the elimination of virus-infected cells and of certain tumor cells. NK cell-mediated cytotoxicity (NK-CMC) was extensively studied and was found to consist of several steps. Following recognition and conjugation between the effector and the target cell, the latter one induces release of NK cytotoxic factor (NKCF) from the effector cells. The NKCF binds to the target cell which is subsequently killed. None of the molecules involved in these steps was completely characterized. In the present study it is demonstrated that isolated membranes of target cells can effectively induce the release of NKCF. Furthermore, the activity of such isolated membranes was found to be modulated by interferon (IFN) treatment of the cells prior to membrane isolation. It was therefore concluded that an NKCF-inducing structure (NKIS) is present on plasma membranes and is distinct from the NK-recognition structure. Similarly, the sensitivity to NK-CMC could be transferred from sensitive cells to IFN-gamma-treated (NK-resistant) cells by membrane fusion with the aid of Sendai virus envelope glycoproteins. It is proposed that transfer of NKIS is responsible for the acquired sensitivity to NK-CMC. In addition, it is shown that NKIS activity was recovered following membrane solubilization and reconstitution. Its level on cell surface was modulated by treatment of cells with tunicamycin, thus indicating that NKIS was probably a cell surface glycoprotein.
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PMID:An inducer of NKCF (NK cytotoxic factor) release: localization on target-cell membrane and initial characterization. 137 86

The concept of antiangiogenic therapy was first proposed in the early 1970s as a method of restricting tumor growth by inhibiting angiogenesis. In subsequent years sufficient knowledge about the process of angiogenesis itself was obtained so that it is now possible to begin to develop antiangiogenic therapy for clinical use. At least three strategies are feasible: (i) inhibition of release of angiogenic molecules from tumor cells; (ii) neutralization of angiogenic molecules that have already been released; and (iii) inhibition of vascular endothelial cells from responding to angiogenic stimulation. Most of the angiogenic inhibitors that have been discovered at the time of writing, directly interfere with the ability of endothelial cells to form new capillary blood vessels. Antiangiogenic activity is a newly found property of alpha-interferon. Although alpha-interferon is a relatively weak angiogenesis inhibitor in comparison to others, it has been very successful in the treatment of life-threatening hemangiomas in children. Early clinical experience with this first angiogenesis inhibitor to reach clinical trial, indicates that optimal antiangiogenic therapy in the future is likely to be based on the long-term use of inhibitors with low toxicity, and with little chance of inducing drug-resistance. It is apparent that different types of angiogenesis inhibitor may be administered together and that these compounds may also be administered to cancer patients as adjuncts to conventional chemotherapy. It is important to recognize that tumor vasculature has other properties besides angiogenesis, which make it a potential specific target for anti-cancer therapy.
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PMID:Inhibition of angiogenesis. 137 14

Peripheral blood lymphocytes cultured in interleukin-2 IL-2 acquire the ability to recognize and kill a wide range of tumor cells. Such promiscuous killer cells are termed lymphokine-activated killer (LAK) cells. We recently reported that the interaction of LAK cells with tumor cells stimulated the LAK cells to release interferon (IFN) gamma. Here, we report that the release of IFN gamma by LAK cells can be further enhanced by addition of the monoclonal antibodies (mAbs), anti-CD3, anti-(T cell receptor alpha beta) (TCR alpha beta) and a mitogenic combination of anti-CD2 (T112 + T113). Other antibodies, including a non-mitogenic anti-CD2 mAb (Leu5b), that recognize T cell-associated antigens were not stimulatory. The same stimulatory mAbs also synergized with tumor cells to stimulate tumor-infiltrating lymphocytes (TIL) to secrete IFN gamma. Additional experiments indicated that it was the T cell subset of LAK cells (LAK-T cells) that was stimulated by tumor cells and mAbs to release IFN gamma. Inhibition studies with specific mAbs suggest that the stimulation of IFN gamma release by LAK-T cells was dependent both on the aggregation of TCR-CD3 complexes on the LAK-T cell, and on the interaction of accessory molecules with their ligands. The accessory molecules we have identified as critical are LFA 1 and CD2/LFA-2 on LAK-T cells interacting with their respective ligands ICAM-1 and LFA3. Thus our data suggest that cytokine production in LAK-T cells can be regulated by multiple molecular interactions, involving the TCR-CD3 complex and adhesion molecules.
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PMID:Monoclonal antibodies anti-CD3, anti-TCR alpha beta and anti-CD2 act synergistically with tumor cells to stimulate lymphokine-activated killer cells and tumor-infiltrating lymphocytes to secrete interferon gamma. 138 56

Concanavalin A-induced human and mouse T cell proliferation assay was used to detect the suppressive activity of ascitic fluid (AF) in ovarian cancer patients. About 80% of AF specimens were found to be suppressive. However, when later tested for AF's effect on NK cell activity, instead of suppression, marked enhancement was observed. As IL-2 was barely detectable in AF, attention was focused on interferon (IFN). Its presence was then examined and confirmed by the ability of AF to protect HEp-2 cells from the cytopathic effect of vesicular stomatitis virus (VSV). As the protective effect against VSV was abolished by low pH treatment and by anti-human interferon gamma monoclonal antibodies (MAb), the IFN identified in AF was of the gamma type (IFN-gamma). The MAb could markedly inhibit not only AF's NK-enhancing effect but T cell suppressing effect as well. After removal of the IFN-gamma from AF by affinity chromatography, both activities of AF were lost. The possible clinical implication of this new finding with regards to host's anti-tumor resistance and prognosis is discussed.
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PMID:[Detection of interferon-gamma in malignant peritoneal effusion in ovarian cancer patients]. 139 70

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