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

We conducted a pilot study using liposome-encapsulated muramyl tripeptide phosphatidylethanolamine (L-MTP-PE) preoperatively in patients with stage III or IV resectable melanoma who were at high risk for recurrence. Patients received L-MTP-PE for 1 month before surgery and then 5 months postoperatively. Several immune parameters were monitored during preoperative therapy to search for correlations with clinical (tumor) response. The 18 patients were classified into three groups according to their responses and disease-free intervals: no evidence of disease (NED) at week 24 of therapy, relapse during therapy and progressive disease on therapy noted at the time of surgery. Six of nine patients in the NED group demonstrated increased monocyte tumoricidal activity (MTA) during week 1 of therapy. MTA increased in three of the six patients in the relapse group. MTA did not increase in the three patients who had progressive disease on therapy. Plasma neopterin levels were elevated by 72 h following the first L-MTP-PE dose in all 18 patients. Circulating levels of tumor necrosis factor were elevated in 15 of 16 patients tested, and IL-6 levels were elevated in all 18 patients. Melanoma cells from all three patients with progressive disease at the time of surgery proliferated well in vitro, whereas tumor cells from 10 of the 15 patients in the other two groups did not proliferate. There were no discernible differences among the three groups in the magnitude of IL-2-induced proliferation of tumor infiltrating lymphocytes. However, IL-2-activated TILs from the NED group exhibited cytotoxicity against autologous tumor cells in vitro. In summary, whereas L-MTP-PE stimulated several immunologic responses in all patients, the only two parameters that correlated with clinical status were MTA and the tumor proliferation assay. These two biologic assays could serve to distinguish potential responders from nonresponders early in the course of treatment.
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PMID:Cytokine production and immune cell activation in melanoma patients treated with liposomal muramyl tripeptide (CGP 19835A lipid). 780 72

Interleukin 2 (IL-2) exhibits anti-tumour activity. High-dose IL-2 regimens are limited by side-effects such as pulmonary oedema and a systemic vascular leak. The mechanisms by which IL-2 mediates transvascular fluid and protein losses in humans are largely unknown. We have, therefore, measured the transcapillary escape rate (TER) of albumin as a reflection of the vascular permeability by injecting [125I]albumin (5 microCi i.v.). In ten melanoma patients pretreated with interferon alpha (IFN-alpha) TER of albumin was measured before and after IL-2 injections (1.5 x 10(6) Cetus-U. s.c. daily for 4 days). The TER of albumin increased from 9.4 +/- 2.7% h-1 before to 14.9 +/- 3.3% h-1 (P < 0.001) after IL-2 injections and the absolute outflux of albumin (Jalb) from 159 +/- 28 mg kg-1 h-1 to 261 +/- 44 mg kg-1 h-1 (P < 0.001), whereas the intravascular albumin pool remained stable (136 +/- 19 g vs 136 +/- 18 g). IL-2 and IL-6 were not detectable in the plasma prior to IL-2 injections and increased to 549 +/- 315 U ml-1 (P < 0.001) and 7 +/- 6 pg ml-1 (P < 0.01), respectively, after IL-2 administration. In conclusion, IL-2 increases the vascular permeability in humans, without affecting the intravascular albumin pool. This suggests that mechanisms such as the lymphatic return can compensate for the severe transendothelial fluid/albumin losses.
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PMID:Interleukin 2-induced increase of vascular permeability without decrease of the intravascular albumin pool. 781 54

CD4+ and CD8+ cytotoxic T-cell (CTL) clones, selected for T-cell-receptor (TcR)-dependent lysis of the autologous tumor and isolated from peripheral-blood lymphocytes (PBL) or tumor-infiltrating lymphocytes (TIL) of 3 melanoma patients, were characterized for the pattern of 13 different cytokines released by antibody- or tumor-mediated triggering. Induction or enhancement of cytokine release by anti-CD3 monoclonal antibody (MAb) led to the identification of 2 major sub-sets of CD8+ CTL clones on the basis of production of IL-4. Within the 2 groups of IL-4-producing or non-producing clones, further sub-sets could be identified on the basis of differential production of IL-1 beta, IL-2, IL-6, IL-8, IL-10, TNF-alpha, TNF beta and IFN-gamma. A similar analysis performed on a panel of CD4+ CTL clones indicated multiple patterns consistent with at least 4 major sub-sets, but further complexity was evident in each sub-set on the basis of differential production of IL-1, IL2, IL-6, IL-10 and G-CSF. The cytokine profile of CD4+ and CD8+ clones, as determined after anti-CD3 stimulation, was different from the pattern seen after co-culture with autologous tumor, since many clones released cytokines such as IL-4, IL-10, IFN-alpha and -gamma, TNF-alpha and GM-CSF after activation with only 1 of the 2 stimuli. These results indicate that CD4+ and CD8+ CTL clones reacting to human melanoma belong to a highly complex repertoire of functional subsets characterized by distinct cytokine profiles. In addition, the cytokine pattern of each T-cell sub-set can be modulated by changing the activation signals delivered to the T cell.
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PMID:Multiple sub-sets of CD4+ and CD8+ cytotoxic T-cell clones directed to autologous human melanoma identified by cytokine profiles. 790 59

Human autologous tumor-specific T-helper 2 (Th2) cells were investigated in melanoma tumor-infiltrating lymphocytes (TILs). Both a CD4+ T-cell line and its 5 potential T-cell clones established from TILs of a patient with metastatic melanoma produced significant levels of IL-4, IL-6, IL-10 and granulocyte-macrophage colony-stimulating factor (GM-CSF) in response to autologous, but not any of 12 allogeneic, melanoma cell lines. They also produced IL-3 and IL-8 but not IL-2, IFN-gamma, TNF-alpha or TNF-beta in response to autologous tumor cells. Furthermore, they showed autologous melanoma-specific cytotoxicity only in an 18-hr 51Cr-release assay. Specific IL-4, IL-6 or IL-10 production by the CD4+ M73 T-cell line and its clone was inhibited by anti-class II DR (but not anti-class I) MAb, whereas their specific cytotoxicity was inhibited by anti-class I (but not anti-class II) MAb. Anti-CD3 and -CD4 MAb (but not anti-CD8) abrogated both IL-4, IL6 and IL-10 production and cytotoxicity, while anti-IL-4 antibody did not inhibit cytotoxicity. CD4+ potential T-cell clones, but not CD8+ clones, that were established from freshly isolated TILs without in vitro sensitization by autologous tumor cells also produced IL-4, IL-6 and IL-10 but not IFN-gamma or tumor necrosis factor (TNF) alpha in an autologous tumor-specific fashion. These Th2 cells were neither reactive to EBV-B cells nor suppressive against CD8+ T-cell clones. PMA and PHA stimulated these potential T-cell clones, regardless of their specific lymphokine production, to produce IL-3, IL-4, IL-6, IL-8, IL-10, GM-CSF, TNF alpha and IFN-gamma. Our results demonstrate the presence of autologous tumor-specific Th2 cells at the melanoma sites.
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PMID:Characterization of autologous tumor-specific T-helper 2 cells in tumor-infiltrating lymphocytes from a patient with metastatic melanoma. 791 81

In an attempt to develop the most effective cytokine gene therapy, we transfected mouse interleukin(IL)-2, mouse IL-4, and human IL-6 cDNAs into mouse melanoma cells, B16F10. Transfection with IL-4 cDNA decreased the tumorigenicity of B16F10 most strongly. We investigated whether gene therapy with IL-4-transfected B16F10 cells was possible. Flow-cytometric analysis showed that major histocompatibility complex class I and II expression in B16F10 and IL-4-cDNA-transfected B16F10 (B16F10-IL4) cells did not differ. Doubling times of B16F10 and B16F10-IL4 were 20.1 and 21.1 h respectively. The growth of B16F10 cells was retarded if C57BL/6 mice were inoculated with B16F10-IL4 at the contralateral sides. When 5 x 10(5) B16F10 cells were transplanted subcutaneously into the flanks of C57BL/6 mice, they all developed a tumor mass, whereas no tumor masses formed in those transplanted with B16F10-IL4 cells within 60 days. No nude, severe combined immunodeficient or beige mice were able to reject parental B16F10 or B16F10-IL4 cells, although, B16F10-IL4 tumor growth in all these immunodeficient mice was slower than that of B16F10. Therefore, we concluded that T and natural killer cells are necessary for rejection of B16F10-IL4 tumor cells.
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PMID:In vitro and in vivo growth of B16F10 melanoma cells transfected with interleukin-4 cDNA and gene therapy with the transfectant. 796 38

Interleukin 1 (IL-1) is a nonglycosylated cytokine with pleiotropic effects on various cell types. In order to investigate the effect of carbohydrate introduction on IL-1 activity and to develop IL-1 with less deleterious effects recombinant human IL-1 alpha was chemically coupled with mannose dimers, alpha-D-Man1-6-D-Man[Man2(alpha 1,6)] and alpha-D-Man1-4-D-Man[Man2(alpha 1,4)]. About 5 molecules of mannose dimers were introduced per molecule of IL-1. Anti-IL-1 alpha antibody reacted only weakly with the glycosylated IL-1s. Conversely, antibody against the mannose dimer reacted with only glycosylated IL-1. The effect of glycosylation on IL-1 activity was evaluated by measuring a variety of IL-1 activities in vitro, including proliferative effect on T cells, antiproliferative effect on melanoma cells, stimulatory effect on IL-6 synthesis by melanoma cells, and stimulatory effect on prostaglandin E2 synthesis by fibroblast cells. Glycosylated IL-1s exhibited reduced activities, which were 10-fold to more than several hundred-fold lower than those of the original IL-1 alpha depending upon different aspects of activities addressed. Man2(alpha 1,6)-introduced IL-1 exhibited lower activity than Man2(alpha 1,4)-introduced IL-1. The competitive binding of 125I-IL-1 alpha to mouse T cells with unlabeled IL-1s suggests that the reduced activity of glycosylated IL-1s is due, at least partially, to the decrease of their receptor binding abilities.
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PMID:Development of glycosylated human interleukin-1 alpha, neoglyco IL-1 alpha, coupled with D-mannose dimer: synthesis and biological activities in vitro. 799 26

Oncostatin M was found to stimulate the IL-6-addicted hybridoma line B9. Leukaemia inhibitory factor did not stimulate proliferation of this line. Both of these factors bind to the gp130 of the IL-6 receptor. In another cell line that is stimulated by LIF (DA.1), neither IL-6 nor oncostatin M stimulated proliferation. Previously it had been thought that the gp130 alone is sufficient to bind ligand and transduce signal and that oncostatin M could bind to and activate the LIF receptor, but these data show this is not always the case. Mice primed with Pristane were found to have IL-6 in their sera and peritoneal fluid only at a few time points following Pristane treatment; this was determined by IL-6-specific ELISA. When the same samples were analysed on IL-6-addicted B9 cells, stimulatory activity was found at all time points. When the Pristane-primed samples were assayed for oncostatin M activity in the A375 melanoma assay, there was oncostatin M activity at various time points. IL-6 did not have activity on the A375 cells. These data indicate that oncostatin M play a role in the generation of plasmacytoma in vivo.
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PMID:Oncostatin M stimulates proliferation in B9 hybridoma cells: potential role of oncostatin M in plasmacytoma development. 803 97

Ultraviolet light of wavelengths 280-320 nm (UVB) can induce transcription of cytokine mRNAs and increase expression of the corresponding proteins in the epidermis. In particular, UVB can stimulate keratinocyte synthesis of interleukin-1 (IL-1), IL-6, IL-8, tumor necrosis factor-alpha (TNF-alpha) and transforming growth factor-beta (TGF-beta). Several of these cytokines can influence the growth of tumour cells as well as the host response to these tumours. In this study we examined the effect of IL-1, IL-6, IL-8, TNF-alpha and TGF-beta on the growth of melanoma in vivo and in vitro, using the murine B16 melanoma and its syngeneic host, the C57BL/6 mouse. Mice were injected with 0.1-1.5 micrograms of recombinant cytokine subcutaneously every other day following a subcutaneous injection of 1 x 10(5) B16 cells (F-10 clone). In this model, tumours appeared within 12-14 days, and IL-1 and IL-6 stimulated tumour growth in vivo. TNF-alpha, TGF-beta, IL-2 and IL-8 had no significant effect. In contrast to the in vivo effects, TNF-alpha inhibited B16 cell growth in vitro and IL-6 stimulated B16 cell growth. The in vivo IL-1 effect on tumour growth in mice was examined in greater detail. IL-1-treated animals showed tumours approximately 5-fold greater in size than those of the control animals. The IL-1-treated animals also showed highly vascularized tumours that invaded underlying muscle tissue more rapidly than controls. These tumors also showed a strong positive reaction with antibody to intercellular adhesion molecule-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of ultraviolet-inducible cytokines on melanoma growth in vivo: stimulation of melanoma growth by interleukin-1 and -6. 804 88

The antitumor efficacy of recombinant murine interleukin-1 alpha (rMuIL-1 alpha) was evaluated either alone or in combination with recombinant human hybrid interferon alpha A/D (IFN-alpha A/D) against the murine B16 F10 malignant melanoma. Treatment of subcutaneous tumor-bearing mice intraperitoneally with rMuIL-1 alpha resulted in a dose-dependent inhibition of tumor growth with the greatest activity obtained with the maximum tolerated dose of rMuIL-1 alpha (10 micrograms per treatment). Augmented tumor inhibition comparable to that seen in mice treated with a high dose of rMuIL-1 alpha was observed in subcutaneous tumor-bearing mice injected with the combination of IFN-alpha A/D and a low dose of rMuIL-1 alpha. Similar inhibition of subcutaneous tumor growth was obtained in T-cell-deficient nude or natural killer cell-deficient beige mice. In contrast, treatment of mice bearing B16F10 experimental pulmonary metastases with rMuIL-1 alpha resulted in no decrease in the number of metastases, and rMuIL-1 alpha did not potentiate the antimetastatic activity of IFN-alpha A/D. A synergistic induction of IL-6 was induced in mice treated with the combination of rMuIL-1 alpha plus IFN-alpha A/D but the level of IL-6 induced was not correlated with inhibition of tumor growth because this elevation of IL-6 was not observed in tumor-bearing nude mice. No direct antiproliferative activity was demonstrable in vitro against B16 F10 cells with rMuIL-1 alpha, IL-6, or rMuIL-1 alpha plus IL-6, and addition of these cytokines did not enhance the antiproliferative activity of IFN-alpha A/D.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhanced antitumor efficacy in mice by combination treatment with interleukin-1 alpha and interferon-alpha. 806 95

To assess whether RAS oncogenes may affect the expression of cytokines in tumor cells, the presence of interleukins (IL) 1 alpha, 1 beta, 4, 6, 7, and 8, tumor necrosis factor (TNF) alpha and interferon gamma mRNA has been analyzed by reverse transcriptase-polymerase chain reaction in 19 melanoma clones derived from the metastatic cell line 665/2 and previously characterized for RAS mutation and expression. Five of these clones and the parental cell line showed a mutation at codon 61 of N-RAS that resulted in Gln-->Arg substitution (N-RAS/61+), while in the remaining 14, only the wild-type allele for N-RAS was present (N-RAS/61-). With the exception of interferon gamma and IL-4, all the cytokines tested were expressed by the parental 665/2 cell line, whereas IL-1 alpha, IL-6, and TNF-alpha were coordinately transcribed only in the subset of the clones bearing the mutated N-RAS gene. The other cytokine genes studied (IL-1 beta, IL-4, IL-7, and IL-8) displayed a variable degree of expression, and such an heterogeneity was not correlated to the N-RAS phenotype of the clones. The association between N-RAS oncogene and IL-1 alpha, IL-6, and TNF-alpha expression was also found in a 665/2 subline (665/2/5) in which loss of mutated N-RAS genes simultaneously occurred with the loss of IL-1 alpha, IL-6, and TNF-alpha expression. Direct evidence that N-RAS oncogene could influence the pattern of cytokine expression was provided by the coordinate induction of IL-1 alpha, IL-6, and TNF-alpha messenger RNA achieved in N-RAS/61+ transfectants of the N-RAS wild-type melanoma clone 2/21. Furthermore, IL-1 alpha, IL-6, and TNF-alpha could be detected by enzyme-linked immunosorbent assay in the culture medium obtained from N-RAS/61+ melanoma clones as well as from positive transfectants, indicating that lymphokine mRNA expression triggered by the activated N-RAS oncogene lead to a secreted protein. In an N-RAS/61+ melanoma clone, by adding specific antibodies against each cytokine, it was found that soluble IL-1 alpha exerted a positive control on IL-6 mRNA and a negative one on its own expression. In addition, IL-1 alpha and IL-6 were negatively regulated by soluble IL-6 and TNF-alpha.
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PMID:Expression of interleukin 1 alpha, interleukin 6, and tumor necrosis factor alpha genes in human melanoma clones is associated with that of mutated N-RAS oncogene. 806 79


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