UMLS:C0025202 - FACTA Search

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Query: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human HT-29 colon carcinoma and HeLa D98/AH2 and SK-MEL-109 melanoma cells were sensitive to synergistic growth inhibition by concentrations of recombinant human tumor necrosis factor (rTNF) and interferon-gamma (rIFN-gamma) which individually were only slightly inhibitory. We investigated whether this synergism could be explained by the presence of an increased number of TNF receptors in cells treated with rIFN-gamma. These receptors were measured by incubating cells resuspended from monolayers with 125I-rTNF. HT-29 cells treated for a few hours with rIFN-gamma could bind more 125I-rTNF than control untreated cells, but this binding returned to the level of control cells after 24 hr. The treatment with rIFN-gamma did not change the binding affinity of TNF receptors, but increased their number to 1800 per cell from a basal level of about 800 per cell. Inhibitors of RNA synthesis prevented this increase. HT-29 cells were significantly more growth-inhibited when treated first for 6 to 12 hr with rIFN-gamma and then with rTNF, than when treated first with rTNF and then with rIFN-gamma. Untreated HeLa D98/AH2 and SK-MEL-109 cells had 2400 and 9000 receptors per cell, with a KD similar to that of HT-29 cells (approximately 2 X 10(-10)M). A significant increase in TNF receptors after treatment with rIFN-gamma was observed in HeLa D98/AH2, but not in SK-MEL-109 cells. No increase in TNF receptors was detected in cells treated with rIFN-alpha 2. These results indicate that the synergism between rTNF and rIFN-gamma may be due, at least in part, to a transient induction of the synthesis of TNF receptors by rIFN-gamma in cells with a relatively low number of these receptors.
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PMID:Induction of the synthesis of tumor necrosis factor receptors by interferon-gamma. 300 11

Purified human natural tumor necrosis factor (n-TNF) was prepared by stimulating human leukemic B cell line (BALL-1) with Sendai virus. The colony formations of all of 18 human cancer-derived abnormal cell lines were suppressed by 10(1)-10(6) U/ml of n-TNF, while n-TNF was nontoxic to all human normal fibroblast cells. This in vitro inhibition of cell growth was reversible. In breast adenocarcinoma MCF7 cells treated with n-TNF a specific decrease of DNA synthesis was observed, and DNA histograms showed a block at G1 in the cell cycle. In vivo studies revealed that n-TNF suppressed the tumor growth of murine Meth A sarcoma, human renal adenocarcinoma (ACHN), malignant melanoma (SK-MEL-28) and glioblastoma (U-373 MG). Isobologram analysis showed that n-TNF synergistically inhibited cell growth in combination with human natural interferon (IFN)-a. In vivo synergism of n-TNF and IFN-a was also found in the U-373 MG tumor model implanted into nude mice.
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PMID:The inhibition of neoplastic cell proliferation with human natural tumor necrosis factor. 303 Sep 86

TNF, a protein released by induced macrophages, is believed to mediate, at least in part, the tumoritoxic effects of activated macrophages. In vitro, it has cytotoxic effects on transformed cells but not on normal cells, and in vivo it causes necrosis of tumours. Recently, both human and murine TNF became available as pure recombinant proteins. Subsequent work confirmed its in vitro cytotoxic activity, selective for transformed cells, and revealed other, non-cytotoxic effects on some normal cells. In vitro, the B16BL6 melanoma cells, syngeneic with C57BL6 mice, are resistant to the cytotoxic effects of rTNF but become sensitive when they are also treated with rIFN-gamma. We report that established, s.c. B16BL6 tumours in vivo can be induced to necrotize and regress by a combined systemic treatment with rTNF and murine rIFN-gamma. Although TNF is not species-specific in vitro, the effects of treatment with human and murine rTNF in vivo are different: with murine rTNF, the synergism with rIFN-gamma is relatively less clear, the addition of IFN-gamma is not necessary to induce regression, toxicity is more pronounced and additional mechanisms of tumoritoxicity could be involved. Relapses are frequent but complete cures have been observed. These results give further evidence in favour of a potential clinical use of TNF in combination therapy, e.g. with IFN-gamma. However, there is still a need to develop better regimens, especially for consolidation, and to continue research in order to understand and limit the toxicity, which could be mediated by the activating effects of TNF on some normal cell types.
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PMID:In vivo anti-tumour activity of recombinant human and murine TNF, alone and in combination with murine IFN-gamma, on a syngeneic murine melanoma. 309 51

The combined effect of PT-050 (recombinant human TNF) and various antitumor drugs was investigated using murine colon 26 adenocarcinoma, Meth A sarcoma and B16 melanoma transplanted into syngeneic mice. When colon 26- or Meth A- bearing mice were intravenously given PT-050 in combination with mitomycin C (MMC), doxorubicin (DXR), cis-platinum (CDDP), 5-fluorouracil (5-FU) or cyclophosphamide (CPA), a significant synergistic effect was observed, that is, both the inhibition rate of tumor growth and the cured ratio were increased significantly when compared with those given each drug alone. Similarly, an augmentation of the antitumor effect was also observed in B16-bearing mice by a combined treatment with PT-050 and these antitumor drugs. These results suggest that the combination chemotherapy of PT-050 with various antitumor drugs may be useful for cancer therapy.
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PMID:[Combined effect of PT-050 (recombinant human TNF) and antitumor drugs on syngeneic murine tumors]. 309 17

We have identified a leukemia-differentiating activity (LDA) in medium conditioned by the LD-1 melanoma, a G-CSF secreting human tumor line. Partially-purified LDA induces HL-60 cells to produce superoxide, become phagocytic, and to develop macrophage-like morphology and surface markers. The LDA markedly suppresses clonal growth in agar of HL-60 cells, and cells of the human myeloid leukemia lines PBL 985 and K562, but does not suppress clonal growth of the B-lymphoblast lines Raji and Daudi. The molecular weight of this material is approx. 40,000 daltons. It can be separated from the bulk of the colony stimulating activity on phenyl sepharose chromatography. The LDA is not neutralized by antibodies to G-CSF, GM-CSF, IFN alpha, IFN gamma, TNF, urokinase, and tissue plasminogen activator, and is not inhibited by preincubation with aprotinin. The LDA in conditioned medium may be different from previously described differentiating factors, and may represent an additional class of human growth regulators.
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PMID:Leukemia-differentiating activity expressed by the human melanoma cell line LD-1. 316 98

Natural killer cell cytotoxic factor (NKCF), a cytotoxic factor contributing to human natural killer cell-mediated cytotoxicity, was generated from lymphocyte-conditioned medium using various stimuli. Crude NKCF activity was concentrated, and partially purified by ammonium sulfate precipitation and gel filtration. NKCF activities eluted as two molecular weight peaks, corresponding to Mr 33,000-43,000 (pool I) and approximately Mr 5,000 (pool II). The cytotoxic activity and target specificity of the partially purified NKCFs were found to be different from both recombinant human TNF and recombinant human lymphotoxin. In the NKCF assay, up to 10(6) units/ml of TNF and lymphotoxin had virtually no effect, whereas both NKCFs lysed 22% (range 17-33%) of the NK-sensitive target K562. In contrast, TNF and lymphotoxin were active in a standard assay against the sensitive murine L929 fibroblast cell line in all concentrations tested (10(-1)-10(6) units/ml). In addition, the effect of these cytotoxic factors in a short-term (4-h) chromium-release assay using peripheral blood mononuclear cells as effector cells was tested: only NKCF (pool I), but not TNF, lymphotoxin, or low molecular weight NKCF (pool II), enhanced NK and lymphokine-activated killer cell cytolysis, both against the NK-sensitive target K562 and the NK-resistant melanoma cell line SK-MEL 30. Results were not affected in the presence of neutralizing antibodies against TNF. NKCF could, therefore, be distinguished from TNF and lymphotoxin with respect to their biological activities.
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PMID:Distinction of partially purified human natural killer cytotoxic factor from recombinant human tumor necrosis factor and recombinant human lymphotoxin. 325 13

The purpose of our study was to determine some of the mechanisms involved in macrophage-mediated lysis of tumorigenic cells. A375 human melanoma cells (A375-R) resistant to lysis mediated by TNF and IL-1 were selected from the TNF- and IL-1-sensitive A375 parental melanoma cells subsequent to continuous (2 mo) exposure to rTNF. Peripheral blood monocytes isolated by centrifugal elutriation from healthy donors were incubated with rIFN-gamma and muramyl dipeptide, with a lipoprotein derived from Escherichia coli (CG-31362) or with LPS for 24 h. These activated monocytes lysed both the A375 (monokine-sensitive) and A375-R (monokine-resistant) melanoma cells. Activated tumoricidal macrophages fixed in 2% paraformaldehyde lysed only the TNF- and IL-1-sensitive A375 cells. These fixed monocytes contained both IL-1 and TNF activities as determined by D10 cell proliferation and L929 cytolysis assays, respectively. Nearly identical results were obtained with preparations of plasma membranes from activated human monocytes. Anti-IL-1 and/or anti-TNF sera neutralized the cytolysis of tumor cells mediated by free monokines, by fixed monocytes, or by plasma membrane preparations. In contrast, anti-TNF and/or anti-IL-1 sera did not inhibit tumor cell lysis by viable activated monocytes. We conclude that IL-1 and TNF molecules associated with the plasma membranes of activated monocytes mediate lysis of susceptible target cells. However, because activated monocytes lysed IL-1-and TNF-resistant target cells, molecules other than these monokines must also be involved in the antitumor activity of monocytes.
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PMID:Tumor necrosis factor and IL-1 associated with plasma membranes of activated human monocytes lyse monokine-sensitive but not monokine-resistant tumor cells whereas viable activated monocytes lyse both. 326 Feb 54

Paraformaldehyde-fixed lipopolysaccharide (LPS)-activated human monocytes produced significant lysis of the human melanoma cell line A375. The cytotoxic activity was retained following treatment of the fixed monocytes with anti-tumor necrosis factor (anti-TNF) antibodies but was specifically inhibited by a mixture of anti-TNF and anti-interleukin 1 (anti-IL 1) antibodies. A375 cells were also killed by plasma membranes purified from LPS-activated human blood monocytes. This activity was specifically inhibited by anti-IL 1 alpha antibodies, but only partially inhibited by anti-IL 1 beta antibodies. CHAPS detergent-extracted plasma-membrane IL 1 in its soluble form or associated with lyophilized liposomes was also able to kill A375 cells, and this antitumor activity was inhibited by anti-IL 1 antibodies. These results suggest that membrane IL 1, primarily IL 1 alpha, was cytotoxic for the A375 cells. CKS-17, a peptide synthesized with homology to a highly conserved region of the immunosuppressive retroviral envelope protein P15E, when covalently bound to BSA partially inhibited the IL 1 activities of tumor cell cytotoxicity and T-cell clone proliferation, displayed by purified plasma membranes, detergent-extracted membrane IL 1, or membrane IL 1 associated with liposomes. These findings indicate that cytotoxic membrane IL 1 can be solubilized by detergent, bound to the surface of liposomes, and specifically inhibited by anti-IL 1 antibodies or the immunosuppressive peptide CKS-17.
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PMID:Cytotoxic liposomes: membrane interleukin 1 presented in multilamellar vesicles. 326 70

The mechanism of the cytostatic and cytocidal activities of TNF was studied in human tumour cells. BT-20 breast and ME-180 cervical cancer cells were significantly growth-inhibited by TNF, but other cells were not. When protein synthesis was inhibited by cycloheximide, however, TNF was cytotoxic for all cells except BT-20 cells. This suggests that different mechanisms are responsible for the cytostatic and cytocidal activities of TNF. The sensitivity of different cell lines could not be correlated with the number or affinity of TNF receptors. Some protease inhibitors completely protected human and murine cells from TNF cytotoxicity. Inhibitors of chymotrypsin-like proteases were more effective than inhibitors of trypsin-like proteases. Reversible and irreversible inhibitors (such as alkylating compounds) were both protective. The cells were best protected when pretreated with inhibitors before the addition of TNF. When the protease inhibitors were removed the cells gradually lost their resistance to TNF cytotoxicity. The inhibitors did not interfere with the functioning of TNF-receptor complexes, since SK-MEL-109 melanoma cells treated with a protease inhibitor synthesized TNF-induced proteins. These findings suggest that a protease is involved in the cytocidal activity of TNF.
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PMID:Cytocidal activity of tumour necrosis factor: protection by protease inhibitors. 333 13

IL 1 can exhibit dichotomous effects in the sense that it is cytotoxic for certain cells, although growth promoting for other cells. Because IL 1 is growth promoting for astrocytes, but cytotoxic for melanoma cells, the current investigation evaluated the effect of IL 1 upon astrocytomas. The human astrocytoma U373 was found to incorporate [3H]thymidine after exposure to recombinant human IL 1 alpha and IL 1 beta and murine IL 1 alpha. Surprisingly, U373 also incorporated [3H]thymidine after exposure to recombinant TNF. The response of the U373 to IL 1 may be used as a simple and sensitive assay for IL 1.
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PMID:Growth-promoting effect of recombinant interleukin 1 and tumor necrosis factor for a human astrocytoma cell line. 349 74

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