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)

In this report a method for the affinity purification and radiolabeling of recombinant mouse interleukin (IL)-4 is described. It is shown on the basis of several criteria that IL-4 retains full biologic activity after radioiodination and can therefore be used as a valid model for measuring the binding characteristics of native IL-4. By using Scatchard plot analysis of equilibrium binding data, it is demonstrated that 125I-IL-4 binds to a high affinity cell surface receptor which is expressed by both hemopoietic and nonhemopoietic cells. The dissociation constant for 125I-IL-4 (Kd = 20 to 60 pM) corresponds to the concentration of IL-4 which gives 50% biologic activity (i.e., 10 to 30 pM). Binding of 125I-IL-4 is rapid (t1/2 of 2 min), whereas dissociation occurs at a slow rate (t1/2 approximately 4 hr). The IL-4 receptor shows a high degree of specificity. Whereas unlabeled mouse IL-4 competed with mouse 125I-IL-4 in an equimolar fashion for binding to IL-4 receptors, several other lymphokines, including mouse IL-2, IL-3, interferon-gamma, granulocyte-macrophage colony-stimulating factor, and human IL-1, IL-2, and IL-4 were unable to inhibit, even at molar excesses of 400 to 800-fold. At 37 degrees C, 125I-IL-4 is rapidly internalized (approximately 200 molecules/cell/min) by HT-2 cells, with at least 85% of cell surface receptors being functional in this respect. Receptors for IL-4 were found to be expressed by subclasses of T and B cells, mast cells, macrophages, and by cells of the myeloid and erythroid lineages. This wide distribution of receptor expression closely matches the known spectrum of biologic activities of IL-4, including proliferation and/or differentiation of T and B cells, mast cells and granulocytes, and induction of macrophage antigen-presenting capacity. IL-4 receptors were also found on a variety of nonhemopoietic cells such as cloned stromal cell lines from the bone marrow, spleen, thymus, and brain, and on muscle, brain, melanoma, fibroblast, and liver cells. Indeed, only 5 of more than 90 cell types tested have undetectable numbers of IL-4 receptors. The biologic effects of IL-4 on nonhemopoietic cells have not yet been reported and await elucidation.
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PMID:Expression of high affinity receptors for murine interleukin 4 (BSF-1) on hemopoietic and nonhemopoietic cells. 296 13

Human thymocytes lacking both CD4 and CD8 differentiation antigens were prepared by treating total thymocyte suspensions with a mixture of anti-CD4 and anti-CD8 monoclonal antibodies and complement. The resulting populations contained less than 2% CD4+, CD8+ or WT31+ cells and variable percentages (less than 20%) of CD3+ cells. These cell populations were cultured in recombinant IL-2 in the presence of peripheral blood mononuclear cells as feeder cells. Cells underwent extensive proliferation accompanied by a progressive increase of CD3+ and CD8+ cells. On the other hand, appearance of neither WT31+, alpha/beta-positive T cell receptor (TCR), nor CD4+ cells could be observed in several independent experiments. Functional analyses revealed the appearance and the progressive increase of cytolytic activity against the natural killer (NK)-sensitive K562 cells as well as the NK-resistant fresh melanoma cells. Experiments of T cell cloning indicated that both the expression of CD8 and CD3 antigens and the appearance of cytolytic activity were consequent to cell maturation occurring at the level of CD4-CD8- non-cytolytic cell precursors. In these experiments, more than 30% of cells underwent clonal expansion and all the clonal progenies obtained displayed cytolytic activity and expressed the CD3+WT31- surface phenotype. The expression of CD8 was variable, whereas no CD4+ clones could be obtained. Cells expressing such surface phenotype are known to belong to the TCR gamma-positive T lymphocyte subset lacking the typical alpha/beta TCR and thus appear to be the only T cell type capable of in vitro proliferation and maturation under easily reproducible culture conditions.
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PMID:Interleukin-2-induced proliferation of CD4-CD8- human thymocytes. In vitro expression of CD3 and CD8 antigens and cytolytic activity. 296 37

Immunotherapy with IL-2 represents a major breakthrough in the management of renal cell carcinoma and malignant melanoma. At present, the toxicity of most IL-2 regimens is severe and prohibitive for clinicians not intimately familiar with the myriad of side effects associated with its use. The elucidation of the mechanism by which the lymphokine induces tumor regression, the vascular leak syndrome and other side effects will permit IL-2 to be used more safely and effectively.
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PMID:Toxicity of immunotherapy with interleukin-2 and lymphokine-activated killer cells. 297 36

The gangliosides expressed by normal melanocytes are predominantly GM3 (greater than 90%) and GD3 (less than 5%). Malignant melanoma can express several other types of gangliosides in significant quantities, including GM2 and GD2. Melanoma patients can develop an immune response against some of these ganglioside antigens on autologous melanoma cells. The four major gangliosides expressed by human melanoma cells (GM3, GD3, GM2, and GD2) were examined for their immunomodulatory effect on lymph node lymphocytes from melanoma patients. Gangliosides were added exogenously to lymphocytes grown in the presence of IL-2. Preferential interactions of specific melanoma gangliosides on IL-2 stimulation were found. While GM2 and GD2 enhanced the lymphocyte response to IL-2, GM3 and GD3 significantly inhibited this response. GM2 and GD2 differ from GM3 and GD3 by the presence of a terminal N-acetylgalactosamine. Since different gangliosides can up-regulate and down-regulate lymphocyte responses to IL-2, the ganglioside phenotype of melanoma cells may play a major role in determining whether an individual tumor causes immune stimulation or suppression.
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PMID:Gangliosides from human melanoma immunomodulate response of T cells to interleukin-2. 312 73

A new approach to cancer treatment has been developed based on the adoptive transfer of activated lymphocytes into cancer patients. Lymphocytes harvested from patients by leukapheresis are converted into lymphokine-activated killer (LAK) cells by incubation with recombinant interleukin-2 (rIL-2). These LAK cells are then infused back into the patients in combination with intravenous IL-2. Among 25 patients treated with this form of adoptive immunotherapy there were 11 patients with measurable tumor reductions, including 1 complete responder. The majority of responses occurred in patients with metastatic renal cell carcinoma, melanoma and colorectal carcinoma. The toxicities of IL-2, including fluid retention and pulmonary edema, limit therapy, and laboratory investigation is now aimed toward understanding the mechanism of IL-2 toxicity. The use of LAK cells and IL-2 in cancer therapy is still in a developmental stage and needs to be refined before its role can be definitely established.
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PMID:Therapy of cancer using the adoptive transfer of activated killer cells and interleukin-2. 312 51

The sensitivity of H-2b-high and H-2b-low variants of BL6 melanoma to the cytotoxic action of NK and lymphokine-activated killer cells was investigated. BL6 mouse melanoma cells lack detectable H-2Kb and had low levels of expression of H-2Db Ag. The BL6T2 variant cells, obtained after treatment of BL6 cells with mutagen N-methyl-N-nitro-N'-nitro-soguanidine, had relatively high levels of expression of class I H-2b Ag. Poly(I:C)-stimulated spleen cells of nude mice were highly cytotoxic for BL6T2, whereas H-2b-low BL6 cells were less sensitive to NK activity in an 18-h 51Cr-release assay. Similar results were obtained after 4-h incubation of radio-labeled tumor cells with IL-2-activated effector cells. In contrast, both lines were equally sensitive to lysis by purified granules derived from rat large granular lymphocytes (LGL) or by macrophages. By using various clones selected from BL6 or BL6T2 cells, it was found that BL6 or BL6T2 clones with low H-2b Ag expression were less sensitive to lysis by NK cells than H-2b-high clones. After IFN treatment of either BL6 or BL6T2, the target cells became more resistant to lysis by either NK cells or by purified LGL granules. IFN-treated BL6 cells had substantially increased expression of H-2b Ag and in this respect became similar to untreated BL6T2. However, IFN-treated BL6 cells were more resistant than BL6T2 cells to lysis by NK cells and LGL granules, suggesting that augmentation of H-2b Ag expression and NK resistance could be two independent IFN-induced effects. With a cold target inhibition assay, it was found that BL6T2 or its H-2 positive clones were highly competitive and inhibited the cytotoxic activity of NK and lymphokine-activated killer cells against radiolabeled YAC-1 and BL6T2, whereas BL6 cells or H-2-negative clones of BL6T2 and BL6 lines showed poor competitive ability. Thus, our data indicate that the NK resistance of H-2-low BL6 cells may be due to a paucity of NK recognizable determinants. N-Methyl-N-nitro-N'-nitroguanidine treatment of BL6 melanoma cells was associated with an increase in class I H-2b Ag expression and NK sensitivity, suggesting the involvement of class I MHC Ag in the sensitivity of tumor cells to NK cell-mediated cytotoxicity.
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PMID:H-2 antigen expression and sensitivity of BL6 melanoma cells to natural killer cell cytotoxicity. 312 40

Progression of human melanoma is associated with changes in antigenic phenotypes of tumor cells. To establish whether inflammatory infiltrates in progressing melanoma also change, we studied 146 cutaneous melanomas at different stages of progression. Monoclonal antibodies (MAbs) against lymphocyte and macrophage subpopulations, interleukin-2 receptor (IL-2 R), immune interferon (IFN-gamma), and the IFN-gamma-inducible, progression-associated melanoma antigens HLA-DR and gp89 were applied in situ. During the course of melanoma progression, decreased amounts of peritumoral T cells, IL-2 R-expressing lymphocytes and dermal T6+ dendritic cells were found, while increased numbers of intratumoral T cells, inflammatory (27E10+) and mature (25F9+) macrophages were associated with local progression of primary melanomas. In metastases, most infiltrate components except 25F9+ macrophages were rare. Positive correlations were observed between: (1) dermal T6+ cells and IL-2 R+ lymphocytes, and (2) presence of IFN-gamma in the infiltrate and HLA-DR and gp89 antigens on tumor cells. In all stages, HLA-DR expression on tumor cells was correlated with: (1) a shift towards T8+ lymphocytes in the infiltrates and (2) a loss of IL-2 R expression. Our data suggest mutual influences between melanoma cells and mononuclear cell infiltrates in situ.
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PMID:Inflammatory cell infiltrates in human melanoma at different stages of tumor progression. 312 89

There is continuing interest in the possibility of immunologic intervention in the therapy of malignant disease. By employing a range of different techniques, it has been possible to show the presence of activated helper, suppressor, and cytotoxic T cells, B cells, NK precursors, and macrophages at the tumor site. The overwhelming impression from our data is that tumors may be subject to immunologic attack by heterogeneous effectors and that there is selective trapping of these effectors with corresponding depletion at the periphery. Like all inflammatory sites, however, the tumor contains both positive and negative regulatory mechanisms with the coexistence of cells with effector and suppressor functions, eg, T suppressors that modulate the proliferative response of T helpers and macrophages suppressing NK function contribute to the dynamic interplay in situ. Additional complexity is indicated by immunohistologic studies that clearly show that the stroma rather than foci of tumor cells are the site of infiltration, thereby further limiting effector function. We are now at the end of the descriptive stage of our investigations and further studies must approach the more difficult problem of modifying the host response in such a way as to alter the balance between effector and suppressor activity. A promising area of research would appear to be the use of cloned helper T cells or their products in the immunotherapy of cancer. The demonstration, by us, of selective trapping at tumor sites suggests that administration of the patients' own T cells with antitumor reactivity may serve as an efficient delivery vehicle to activate host effectors in situ. Studies in animal systems have shown the feasibility of this approach, although the failure of cultured T cells to undergo normal recirculation represents a considerable unresolved problem. Effector function by each of the tumor-infiltrating cell types described is under T cell control, and preliminary studies have already indicated the ability of helper T cells to accelerate allograft and tumor rejection. The increasing availability of gene-cloned materials with potent biologic activity opens new areas of research in cancer therapy. The lymphokines IL-2 and interferon are already undergoing clinical trials. Studies by Hersey demonstrate that administration of conditioned medium containing impure IL-2 results in the appearance of antitumor effectors in previously nonreactive melanoma patients, and Rosenberg, among others, has shown IL-2 to be a potent enhancer of alloimmune responses. Lymphokine-activating macrophages also augment antitumour responses.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Human tumor-infiltrating lymphocytes: a marker of host response. 315 76

A suppressive immunoregulatory factor (IRF) produced by murine melanoma K-1735 M3 has been identified. Extracts from tissue or cultured cells grown in serum-medium were prepared by 3 M KCl extraction and partially purified by low-salt precipitation. IRF extracted from fresh tumor, cultured cells, and spent medium from the K-1735 cell line suppressed 3H-thymidine incorporation by splenocytes during mitogen stimulation. Cell viability was not impaired by IRF. IRF suppressed splenocyte proliferation, protein synthesis, murine IL-2-mediated blastogenesis, and mixed splenocyte responses. However, in vitro generation of allogenic cytotoxic cells was not suppressed. Significant inhibitory activity could not be extracted from normal tissues. IRF activity was reduced by treatment with proteolytic enzymes and neuraminidase and was bound by lentil lectin, indicating that the factor is a glycoprotein. IRF was heat-stable, yet labile to treatment with acid, base, or 2-mercaptoethanol. Inhibitory activity was partially characterized by preparative isoelectric focusing (pI 3.5-5.8), and the active moiety had a molecular size of 10-12 K according to HPLC. The HPLC-purified active fraction of IRF did not contain the immunosuppressive retroviral antigen p15(E). Splenocytes from animals treated with IRF in vivo demonstrated reduced responses to Con A and PHA in vitro. Suppressor cells were not identified. We have identified a low-molecular-weight glycoprotein from a murine melanoma, which suppresses a variety of immunologic responses in vitro and in vivo. IRF appears to be a potent mediator of tumor-induced immunosuppression in this model.
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PMID:Identification and characterization of a tumor-derived immunosuppressive glycoprotein from murine melanoma K-1735. 315 40

Peripheral blood lymphocytes (PBL) from a melanoma (Me) patient, previously shown to be unable to react against the autologous tumor (Me 28) after mixed lymphocyte-tumor culture (MLTC), were cultured in vitro with the autologous tumor in MLTC and/or with IL-2-containing supernatants. T-cell clones were then obtained by limiting dilution and by micromanipulation. Eleven clones, selected for autologous tumor (Auto-Tu) cytotoxicity, were tested for specificity on a panel of 17 cell cultures of normal and neoplastic origin, revealing a complex spectrum of lytic activities. Three groups of clones could be identified depending on the patterns of cytotoxicity. One clone (B11.12) lysed Me28 and expressed a borderline reactivity against one allogeneic Me. A second group of clones (A4, A4.18, H10, E12, C9) lysed the Auto-Tu and allogeneic Me. The last group of clones (A4.2, A4.3, A4.4, A7, B7) expressed a broader pattern of reactivity with significant cytotoxicity against targets of different histologic origin. Furthermore, the second and third groups of clones lysed K562 while B11.12 did not. The Auto-Tu-restricted reactivity of clone B11.12, confirmed by a further test on 13 allogeneic Me and on autologous IL-2 cultured lymphocytes, suggests the recognition of antigenic structures preferentially expressed on Me28. Blocking studies, performed with monoclonal antibodies (MAb), revealed that an anti-HLA class I MAb (w6/32), but not two anti-DR MAbs (L243, DI.12), could inhibit the cytotoxic activity of clones B11.12 on Me28. A significant blocking effect by w6/32 on Me28 was achieved also with clones A4.4 and H10 but not with clones A4.2, A4.3 and A7. The phenotype of all clones was T3+, T4-, T8+, HNK-I-, suggesting that the anti-tumor effectors were of the T-cell lineage. Taken together, these data indicate that it is possible to isolate anti-tumor CTL-clones after MLTC from a PBL population of a metastatic melanoma patient. Furthermore, we present evidence suggesting a role of class-I antigens in the interaction of some cloned effectors with the autologous tumor target.
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PMID:Clonal analysis of cytotoxic T-lymphocyte response to autologous human metastatic melanoma. 315 14

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