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)

Monoclonal antibodies (mAB) with tumor specificity are able to enhance the immunological specificity of interleukin 2 (IL-2)-activated lymphokine activated killer (LAK) cells. Antibodies may also be used to broaden the range of tumor types susceptible to immune mediated cytotoxicity by the activated LAK cells. In these studies, mAB with relative tumor specificity were used to target immunologically activated effector cells in an in vitro antibody dependent cell mediated cytotoxicity (ADCC) assay. The mAB included: 3F8 and 14.G2a, which are both specific for neuroblastoma and melanoma and recognize ganglioside GD2, and mAB ING-1, a mouse-human chimeric antibody with constant regions from human IgG1 and kappa chains and variable regions from a mouse mAB that binds to a broad range of human adenocarcinomas. Each of these mAB was able to mediate ADCC with fresh effector cells and antibody binding targets. When peripheral blood mononuclear cells were obtained from cancer patients prior to and following in vivo therapy with interleukin 2, a significant increase was noted in ADCC activity by peripheral blood mononuclear cells obtained following IL-2 therapy. Inclusion of IL-2 in the medium during the cytotoxic assay with mAB further boosted ADCC. The total activity seen was often greater than the sum of the independent LAK activity and standard ADCC activity. The cells responsible for this ADCC had the CD16+ Fc receptor. Combining IL-2 with mAB in clinical tumor therapy may lead to a wider range of tumor types being responsive to immunotherapy and may also enhance the efficacy of therapy by specifically targeting activated effector cells to tumor cells recognized by mAB. Our results provide strong support for the testing of these hypotheses in clinical trials by combining in vivo treatment with IL-2 and mAB able to mediate ADCC.
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PMID:Augmentation of antibody dependent cell mediated cytotoxicity following in vivo therapy with recombinant interleukin 2. 238 33

Thirty-nine melanoma patients were treated with cyclophosphamide (350 mg/m2) followed 3 days later by 5 daily doses of interleukin 2 (3.6 million units/m2 i.v.) weekly for 2 weeks. This cycle was repeated at least twice with a 1-week interval between cycles. Natural killer and lymphokine-activated killer (LAK) cell activity in peripheral blood mononuclear cells were measured before treatment and on the last day of each cycle by chromium release assays. Development of LAK activity of greater than 10 lytic units was correlated with a clinical response. There was no correlation between natural killer activity and clinical response. Antibody-dependent cell-mediated cytotoxicity of in vivo-induced LAK cells after the addition of mouse monoclonal antibodies (MAbs) in vitro was measured in 30 cases on the last day of each interleukin 2 cycle. Anti-GD3 MAbs MB3.6, 11C64, 6H4, and R24 increased LAK cell cytotoxicity against GD3-positive GD2 melanoma cells while anti-GD2 MAb 14.18 increased LAK cell cytotoxicity against GD3-negative GD2-positive melanoma cells. MAb 9.2.27 (IgG2a) directed against a chondroitin sulfate proteoglycan and its core protein with a molecular weight of 250,000 (p250) on human melanoma cells did not mediate antibody-dependent cell-mediated cytotoxicity. The effector cells in these antibody-dependent cell-mediated cytotoxicity. The effector cells in these antibody-dependent cell-mediated cytotoxicity reactions were Leu-19 positive. In preincubation experiments the MAbs showed superior binding to the melanoma target cells than to effector cells. Our results show that low dose interleukin 2 preceded by low dose cyclophosphamide effectively induces LAK cells in vivo. The cytotoxicity of these in vivo-activated LAK cells can be augmented in vitro by mouse MAbs against glycolipid antigens on the tumor.
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PMID:Increased lysis of melanoma by in vivo-elicited human lymphokine-activated killer cells after addition of antiganglioside antibodies in vitro. 240 Sep 94

Data concerning the in vitro lymphocyte response against autologous tumors are reviewed, with a particular emphasis on melanoma. Evidence for such an immune response to tumors has been accumulating over the last 10 years through the work of several groups of investigators. Proliferative and/or cytotoxic responses are detectable in approximately 70% of patients with primary tumors, whereas the in vitro reaction with metastatic lesions is much less frequent. This response is mainly mediated by T lymphocytes obtained from peripheral blood, tumor lesions, and lymph nodes, but patients' suppressor cells and factors have been reported to inhibit such response. Clonal analysis revealed a low but consistent frequency of antimelanoma-specific T-cytotoxic and/or proliferating cells even in metastatic melanoma patients; such effectors are major histocompatibility complex restricted and use the T-cell receptor for tumor recognition of unique and, possibly, cross-reacting melanoma-restricted antigens. The chemical and genetic nature of such molecules remains to be defined. After the limited but biologically fundamental clinical responses achieved by adoptive immunotherapy with interleukin-2 and lymphokine-activated killers, T cells appear to lend themselves as crucial new effectors in adoptive immunotherapy of human cancer and, in particular, of melanoma.
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PMID:Cellular immune response against autologous human malignant melanoma: are in vitro studies providing a framework for a more effective immunotherapy? 240 52

Supernatants from human mixed leukocyte cultures or lectin-depleted supernatants from cultures of PHA-activated human peripheral blood leukocytes were depleted of IL 2 by passage over an anti-human rIL2 immunoadsorbent column. The column eluates were concentrated, dialyzed, and tested for their ability to synergize with human rIL 2 in facilitating human cytolytic T lymphocyte (CTL) responses to allogeneic, uv-irradiated HT144 melanoma cells in vitro. CTL were generated in the presence of 1 X 10(-4) M hydrocortisone sodium succinate in order to minimize the generation of nonspecific lymphokine-activated killer (LAK) cells. IL 2-depleted lymphokine-containing supernatant (LKS), alone or in the presence of less than or equal to U/ml rIL 2 did not stimulate significant CTL responses. Recombinant IL 2 at greater than 2 U/ml stimulated weak CTL responses in the absence of LKS. However, strong synergistic CTL responses were observed when both IL 2-depleted LKS and greater than 2 U/ml rIL 2 were added to the cultures. CTL generated in these cultures could be distinguished from nonspecific LAK cells on the basis of their i) specificity, ii) T3 phenotype, and iii) kinetics of generation. Nevertheless, rIL 2 and IL 2-depleted LKS were sometimes observed to synergize in facilitating the generation of nonspecific LAK cells as well as the generation of specific CTL. When the times at which rIL 2 and IL 2-depleted LKS were added to the cultures were varied, IL 2 was found to be required early in CTL responses, whereas the synergistic factor(s) in LKS seemed to act later. Recombinant human interferon-gamma was unable to replace LKS in synergizing with rIL 2 to elicit CTL responses. In summary, these experiments suggest that LKS contains a late-acting factor(s), antigenically distinct from IL 2, which synergizes with IL 2 in facilitating human CTL responses.
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PMID:Synergy between recombinant interleukin 2 (rIL 2) and IL 2-depleted lymphokine-containing supernatants in facilitating allogeneic human cytolytic T lymphocyte responses in vitro. 241 10

This study investigates the nature and specificity of cytotoxic T lymphocytes (CTL) in patients with melanoma which are able to kill autologous melanoma cells. Interleukin 2 (IL2)-dependent T cell clones from two melanoma patients and a normal subject were generated in mixed lymphocyte cultures (MLC) or mixed lymphocyte tumor cell cultures (MLTC) and propagated for prolonged periods in tissue culture. Analysis of their phenotype by a wide range of monoclonal antibodies (M.Abs) revealed two main phenotypes which depended on whether they expressed Fc receptors detected by Leu 11 M.Abs or not. Leu 11- T cells (referred to as Type 1) were inhibited by M.Abs to T3, T8, and a common HLA, ABC antigen. Conversely Leu 11+ T cells (referred to as Type 2) were inhibited by M.Ab to Leu 11 but not by M.Ab to T3, T8 and the HLA, ABC antigen. Subtypes among Type 1 cells were recognized which depended on their specificity. The most restricted were CTL [Type 1(a)] clones generated only in MLTC which recognized the autologous melanoma cell plus 1 of 11 other melanoma target cells. Type 1(b) CTL clones recognized a larger proportion (approximately 50%) of the melanoma cells. A third category [Type 1(c)] recognized antigens on melanoma cells shared with that on the EBV-transformed B cells used as stimulators in the MLC. Type 2 CTL clones had broad specificity to melanoma and nonmelanoma cells, characteristic of that described for lymphokine activated killer (LAK) cells. The latter were MHC unrestricted but further studies are required to clarify whether the Type 1 CTL clones are MHC restricted or not. The CTL activity of all clones was inhibited by M.Ab to the sheep red blood cell receptor and to the T10 antigens. It is suggested that recognition of these different types of CTL clones may assist future studies on the immune response against melanoma and the nature of antigens recognized by CTL.
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PMID:Clonal analysis of cytotoxic T lymphocytes (CTL) against autologous melanoma. Classification based on phenotype, specificity and inhibition by monoclonal antibodies to T cell structures. 242 40

Lymphokines represent a new group of substances that have engendered increasing interest in the context of cancer therapy. They are products of the lymphoid system that can now be produced in pure form as a consequence of advances in gene cloning technology. alpha-Interferon has been tested in clinical trials for several years, and has been found effective in the treatment of patients with hairy cell leukemia, chronic myelogenous leukemia, Kaposi's sarcoma (AIDS) and renal cell cancer. Interleukin-2 has shown impressive antitumor activity in patients with melanoma or renal cell cancer, particularly in combination with lymphokine-activated killer cells, although at very high doses with correspondingly severe toxicity. The clinical testing of tumor necrosis factor is in an early stage. The introduction of this class of agents has opened new perspectives for cancer therapy.
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PMID:[Interferons, interleukin-2 and tumor necrosis factor. New approaches to cancer therapy]. 243 34

After C57BL/6 (B6) mice were inoculated with BALB/c spleen cells via tail vein, kinetics of cytotoxic activities in the B6 mice against sensitizing alloantigens (H-2d) and against syngeneic antigens were investigated using, as target cells, P815 mastocytoma cells (H-2d) and B16 melanoma cells (H-2b). Cytotoxic activity against P815 in the B6 spleen cells reached a peak 3 days after alloantigen inoculation, decreased drastically on day 5 and rose again thereafter. The profile of anti-B16 cytotoxic activity was similar to that of anti-P815 activity. The cytotoxic activity against P815 was inhibited partially by cold B16, but that against B16 was not inhibited by cold P815. Surface phenotype of cytotoxic cells against P815 was Lyt2+, Thy1+, Asialo GM1+ and that of cytotoxic cells against B16 was Lyt2-, Thy1+/-, and Asialo GM1+. The results indicate that inoculation of B6 mice with allogeneic BALB/c spleen cells induce two types of cytotoxic cells; one is similar to lymphokine-activated killer (LAK) cells and the other is activated natural killer cells.
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PMID:Augmentation of killer activity of murine spleen cells against allogeneic and syngeneic tumor cells by inoculation of alloantigen in vivo. 245 82

Human rIL-4 was studied for its capacity to induce lymphokine-activated killer (LAK) cell activity. In contrast to IL-2, IL-4 was not able to induce LAK cell activity in cell cultures derived from peripheral blood. IL-4 added simultaneously with IL-2 to such cultures suppressed IL-2-induced LAK cell activity measured against Daudi and the melanoma cell line MEWO in a dose-dependent way. IL-4 also inhibited the induction of LAK cell activity in CD2+, CD3-, CD4-, CD8- cells, suggesting that IL-4 acts directly on LAK precursor cells. IL-4 added 24 h after the addition of IL-2 failed to inhibit the generation of LAK cell activity. Cytotoxic activity of various types of NK cell clones was not affected after incubation in IL-4 for 3 days, indicating that IL-4 does not affect the activity of already committed killer cells. No significant differences were observed in the percentages of Tac+, NKH-1+ and CD16+ cells after culturing PBL in IL-2, IL-4 or combinations of IL-2 and IL-4 for 3 days. IL-4 also inhibited the activation of non-specific cytotoxic activity in MLC, as measured against K-562 and MEWO cells. In contrast, the Ag-specific CTL activity against the stimulator cells was augmented by IL-4. Collectively, these data indicate that IL-4 prevents the activation of LAK cell precursors by IL-2, but does not inhibit the generation of Ag-specific CTL.
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PMID:IL-4 inhibits IL-2-mediated induction of human lymphokine-activated killer cells, but not the generation of antigen-specific cytotoxic T lymphocytes in mixed leukocyte cultures. 245 60

The co-culture of human peripheral blood mononuclear cells (PBMC) with high concentrations of interleukin 2 normally generates lymphokine-activated killer (LAK) cells capable of indiscriminate lysis of tumor targets. However, the addition of certain cell-line-derived tumor cells to the LAK generation cultures within the first 48 h of culture initiation resulted in the suppression of the LAK cytotoxicity measured after 3-4 days of culture. Suppression could be achieved with tumor cell:PBMC ratios as low as 1:50 when tumor cells were derived from melanoma and colorectal cancer (G361, COLO320, HT-29), but suppression was not observed with cells from the breast cancer cell line SKBr3. No suppression of LAK generation was observed with normal epithelial cells from colon or breast, with autologous or allogeneic lymphoblasts, or with allogeneic vascular endothelial cells. Suppression was independent of the removal of adherent cells from PBMC, could not be prevented by indomethacin and was not attributable to interleukin 2 absorption/adsorption by tumor cells. The suppressive activity of some tumor cells could be augmented by preculture in recombinant gamma interferon. Serum-free supernatants from G361, COLO320 and HT-29 (but not SKBr3 or endothelial cells) were also highly suppressive towards the generation of LAK cells. The elaboration by tumor cells of factors capable of inhibiting LAK generation may partially explain the failure of LAK/interleukin 2 therapy in some experimental and clinical protocols.
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PMID:Inhibition of lymphokine-activated killer cell generation by cultured tumor cell lines in vitro. 246 68

Incubation of peripheral blood mononuclear cells with interleukin-2 (IL-2) results in the release of a factor which is cytostatic and cytotoxic both to tumor cell lines (A375M, A375P, C480, MCF-7, Hey) and fresh tumor cells (in the human tumor cloning assay), including breast cancer, colon cancer, melanoma, myeloma and ovarian cancer. The factor cannot be detected in a 4-h chromium-release assay, but is best demonstrated after tumor cells have been to it for exposed 3 days. The factor is not cytotoxic to normal peripheral blood leukocytes or normal fibroblasts, and is not toxic to certain targets sensitive to lymphokine-activated killer (LAK) cells, such as K562 and Daudi cells. The factor is diffusible, non-dialyzable, relatively stable to heat and acid and does not contain appreciable amounts of targets resistant to interferon-alpha and beta, tumor necrosis factor beta and interleukin-1. The data suggest that there are several mechanisms of LAK cell activity against tumor cells including one which requires direct interaction of LAK and tumor cells and one which is mediated by LAK cell supernatant. The former is detected by 4-h chromium release while the latter is not.
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PMID:Cytostatic and cytotoxic activity of lymphokine-activated killer cell supernatants. 248 Aug 43

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