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)

Mice with severe combined immunodeficiency (scid) provide an excellent model for studying interactions between human tumor cells and effector cells of the immune system. Because these animals lack functional B and T lymphocytes, they can accept human tumor xenografts and transfer of human effector cells. Here, we determined the ability of a human melanoma-specific, cytotoxic T-cell line (CTL) in suppressing the growth of spontaneously metastasizing human melanoma cells M24 met (HLA-A11, A33) in scid mice. This CTL line was highly cytotoxic and restricted by HLA-A11 against M24 met melanoma cells in vitro but poorly cytotoxic when tested against a human melanoma cell line that did not express HLA-A11. In order to evaluate the efficacy of this CTL line against M24 met melanoma cells in vivo, randomized groups of animals were given injections of either RPMI culture medium, interleukin 2 (IL-2), CTLs, or CTLs + IL-2. IL-2, per se, did not significantly reduce tumor metastases; however, injection of melanoma-specific, HLA-A11 restricted CTLs into scid mice, 1 day postexcision of the previously induced primary tumor, markedly reduced the number of metastatic foci in the lung and decreased metastatic involvement in lymph nodes. The combination of these CTLs with IL-2 proved even more effective, since almost all lung metastases were eradicated and metastatic involvement in both axillary and inguinal lymph nodes was substantially reduced. Our results indicate that these human CTLs maintain their ability for specific killing of metastasizing melanoma cells in scid mice. Our data suggest that reconstitution of scid mice with a specific group of effector cells (step-wise scid/hu) may be helpful for in vivo evaluation of potentially useful cancer immunotherapy modalities.
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PMID:Human cytotoxic T-cells suppress the growth of spontaneous melanoma metastases in SCID/hu mice. 840 83

On many tumors, high numbers of epidermal growth factor (EGF) receptors provide a target for antibody-mediated tumor therapy. We evaluate here the therapeutic potential of a mouse/human chimeric anti-(EGF receptor) antibody and compare it to the parental murine antibody in a xenograft model for metastatic melanoma. Our model is based on the human cell line M24met, which overexpresses the EGF receptor and metastasizes spontaneously in SCID mice. Both the chimeric anti-(EGF receptor) antibody (ch225) and the mouse monoclonal antibody (m225) exhibited saturable, high-affinity binding to M24met cells and were equivalent in their ability to target M24met tumors in mice. Neither anti-(EGF receptor) antibodies nor EGF modulated the growth of M24met cells in vitro. Further analysis revealed that the EGF receptor on these cells is not phosphorylated upon EGF binding, indicating an anomalous receptor on these cells. In antibody-dependent cellular cytotoxicity experiments, ch225 and m225 were potent mediators of M24met cytolysis by effector cells. Antibody-mediated cytotoxicity revealed a marked species preference, with ch225 activating human peripheral blood mononuclear cells and m225 activating mouse splenocytes and to a lesser degree mouse macrophages. Neither antibody mediated cytolysis in the presence of human complement. In SCID mice, m225 suppressed spontaneous metastasis considerably while ch225 had only a modest effect. Our data indicate that in the M24met melanoma tumor model, anti-(EGF receptor) antibodies suppress spontaneous metastasis solely by activating immune effector cells.
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PMID:Therapeutic potential of chimeric and murine anti-(epidermal growth factor receptor) antibodies in a metastasis model for human melanoma. 840 38

Vascular permeability factor (VPF)/vascular endothelial growth factor (VEGF) is an angiogenic cytokine expressed by many human and animal tumors. Hypoxia often up-regulates VPF/VEGF expression further. To better define the role of VPF/VEGF in tumor biology, we screened tumorigenic lines for those expressing minimal constitutive and hypoxia-inducible VPF/VEGF. Human melanoma SK-MEL-2 cells best fit these criteria and formed small, poorly vascularized tumors in immunodeficient mice. We transfected SK-MEL-2 cells stably with sense or antisense mouse VPF/VEGF cDNA or with vector alone. Cells transfected with sense VPF/VEGF (V+) expressed and secreted large amounts of mouse VPF/VEGF and formed well-vascularized tumors with hyperpermeable blood vessels and minimal necrosis in nude/SCID mice. Antisense-transfected VPF/VEGF (V-) cells expressed reduced constitutive VPF/VEGF and no detectable mouse VPF/VEGF, and formed small, minimally vascularized tumors exhibiting extensive necrosis. Vector-alone transfectants (N1 cells) behaved like parental cells. V+ cells formed numerous lung tumor colonies in SCID mice, approximately 50-fold more than N1 cells, whereas V- cells formed few or none. These experiments demonstrate that VPF/VEGF promotes melanoma growth by stimulating angiogenesis and that constitutive VPF/VEGF expression dramatically promotes tumor colonization in the lung.
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PMID:Expression of vascular permeability factor/vascular endothelial growth factor by melanoma cells increases tumor growth, angiogenesis, and experimental metastasis. 854 60

Although previous autopsy and experimental studies had indicated that metastases can metastasize, the question of whether metastases from metastases increasingly contribute to the overall metastatic burden is crucial to the basic question of whether the metastatic process is more directly regulated by genetic or by epigenetic mechanisms. The highly metastatic human C8161 melanoma was transfected with either pSV2neo or pSV2hygro and clones of neo-C8161 and hyg-C8161 were injected intravenously and subcutaneously in SCID mice. In combination experiments, both the timing and size of inoculum of tumor cells were titrated to ensure that the hematogenously injected cells disseminated almost exclusively to the lungs and that the overall pulmonary burden was equal to the primary tumor. In s.c. injection experiments, no spontaneous metastases ever developed when the primary tumor was extirpated before it had grown to more then 0.5 cm in diameter. When the primary tumor approached 1 cm in diameter, widely-disseminated metastases developed within lungs, liver subcutaneous sites and other internal viscera. In the combination-injection experiments, while large numbers of both hematogenously and spontaneously metastatic clones were recovered from the lungs, a vast excess of only the latter clones was recovered from extrapulmonary sites. Both hematogenously and spontaneously metastatic pulmonary clones recovered showed similar levels of Matrigel invasion and collagenases by substrate gel electrophoresis, but significantly decreased levels when compared to the cell line. Primary tumor clones, in contrast, demonstrated increased invasion and increased collagenases. Our findings argue for the importance of paracrine (orthotopic) and autocrine (size) epigenetic mechanisms in the regulation of metastasis.
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PMID:The primary tumor is the primary source of metastasis in a human melanoma/SCID model. Implications for the direct autocrine and paracrine epigenetic regulation of the metastasis process. 860 3

Induction of a T-cell mediated antitumor response is the ultimate goal for tumor immunotherapy. We demonstrate here that antibody-targeted IL2 therapy is effective against established pulmonary and hepatic melanoma metastases in a syngeneic murine tumor model. The effector mechanisms involved in this tumor eradication are not dependent on NK cells, since the therapeutic effect of antibody-IL2 fusion protein was not altered in NK cell-deficient mice. In contrast, T cells are essential for the observed antitumor effect, since therapy with antibody IL2 fusion proteins is unable to induce tumor eradication in T cell-deficient SCID mice. In vivo depletion studies characterized the essential effector cell population further as CD8 + T cells. Such CD8 + T cells, isolated from tumor bearing mice after antibody-directed IL2 therapy, exerted a MHC class I-restricted cytotoxicity against the same tumor in vitro. These data demonstrate the ability of antibody-targeted IL2 delivery to induce a T cell-dependent host immune response that is capable of eradicating established melanoma metastases in clinically relevant organs.
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PMID:T cell-mediated eradication of murine metastatic melanoma induced by targeted interleukin 2 therapy. 864 46

The establishment and characterisation of paired autologous tumour cell line (MST-1) and tumour-infiltrating lymphocyte (TIL) culture from a tumour mass of a 14-year-old Taiwanese girl with soft tissue melanoma are described. MST-1 cells grown in vitro were heterogeneous in morphology, ranging from floating round cells, loosely attached round/oval or elongated cells with prominent pseudopod-like processes, to well-attached spindle and elongated dendritic cells without obvious pseudopods. Immunostaining revealed that major melanoma-associated antigens, such as S100 protein, HMB-45, melanotransferrin, chondroitin sulphate proteoglycan, and the gangliosides GD2 and GD3, were consistently expressed by the tumour tissue, severe combined immunodeficiency (SCID) mouse xenograft and derived cell lines. Flow cytometric analysis of the tumour DNA content showed an index of 1.8 relative to normal peripheral blood lymphocyte DNA. Chromosome analysis revealed all cells at a hypotetraploid level with several clonal chromosome aberrations, including deletions at 10p and 12q, an addition at 12q, translocations t(1;14) and t(5;6). Electron microscopy showed melanosome structures. This observation and the expression of the major melanoma-associated antigens were all indicative of the melanocytic origin of MST-1 tumour. Interleukin-2 (IL-2) expanded TILs had the predominant CD8+ phenotype and the capacity to lyse cells of the cultured autologous tumour. The availability of the soft tissue melanoma cell line, the SCID mouse xenograft tumour system as well as autologous TILs described herein would provide useful materials for identifying T-cell-defined antigens as well as a model system for devising individualised cancer biotherapeutic strategies. This cell line can also be used for further studies aimed at uncovering the histogenesis of this rare cancer.
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PMID:Newly established MST-1 tumour cell line and tumour-infiltrating lymphocyte culture from a patient with soft tissue melanoma (clear cell sarcoma) and their potential applications to patient immunotherapy. 866 53

In our efforts to investigate the biologic role of Ha-ras oncogenes in human melanoma by Ha-ras phosphorothioate antisense oligonucleotides, we observed that antisense, sense, and scrambled control oligonucleotides at a concentration of 10 microM all similarly and strongly inhibited growth of our human melanoma target cell line SK-2 in vitro but without specific decrease of the target protein. Cell numbers with respect to the untreated control were reduced by 84% +/- 4.2% (ISD), 82.9% +/- 3.6%, and 84% +/- 3%, respectively. In vivo studies in a SCID-hu mouse model confirmed these findings. Both antisense and sense control oligonucleotides administered through osmotic pumps significantly (p < 0.006) reduced the mean tumor weight (1.5 g +/- 0.4 g and 1.8 g +/- 0.8 g, respectively) in comparison with saline-treated (5.7 g +/- 0.7 g) or untreated control animals (5.8 g +/- 1.0 g). The vascularity of oligonucleotide-treated tumors was greatly reduced. Clinical signs of oligonucleotide-related toxicity were not observed, and there was no evidence of histopathologic alterations in a variety of mouse tissues. We could demonstrate that the antimelanoma effects can be abrogated in vitro by adding basic fibroblast growth factor (bFGF). In the context of the importance of bFGF in melanocyte biology and angiogenesis, we argue in favor of an interaction between polyanionic phosphorothioate oligonucleotides and bFGF in our melanoma system. These findings stress the notion that phosphorothioate oligonucleotides may be promising antineoplastic lead compounds capable of employing antitumor effects by mechanisms other than specific inhibition of gene expression.
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PMID:Phosphorothioate oligonucleotides reduce melanoma growth in a SCID-hu mouse model by a nonantisense mechanism. 874 76

Interleukin-10 (IL-10) is a recently described pleiotropic cytokine secreted mainly by type 2 helper T cells. Previous studies have shown that IL-10 suppresses cytokine expression by natural killer (NK) and type 1 T cells, thus down-regulating cell-mediated immunity and stimulating humoral responses. We here report that injected IL-10 protein is an efficient inhibitor of tumor metastasis in experimental (B16-F10) and spontaneous (M27 and Lox human melanoma) metastasis models in vivo at doses that do not have toxic effects on normal or cancer cells. Histological characterization after IL-10 treatment confirmed the absence of CD8+ and CD4+ T cells and macrophages at the sites of tumor growth, but abundant NK cells were localized at these sites. This unexpected finding was confirmed by showing that IL-10 inhibits most B16-F10 and Lox metastases in mice deficient in T or B cells (SCID and nu/nu mice), but not in those deficient in NK cells (beige mice or NK cell-depleted mice). However, IL-10 downregulation of pro-inflammatory cytokine production and/or recruitment of additional effector cells may also be involved in the anti-tumor effect at higher local concentrations of IL-10, since transfected B16 tumor cells expressing high amounts of IL-10 were rejected by normal, nu/nu, or SCID mice at the primary tumor stage, and there was still a 33% inhibition of tumor metastasis in beige mice.
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PMID:Interleukin-10 inhibits tumor metastasis through an NK cell-dependent mechanism. 876 Aug 11

Fifteen percent of all human melanomas carry mutations in ras genes, the majority of which are located in codon 61 of the N-ras gene. However, the biological significance of these mutations is as yet unknown. In this study, we investigated the influence of N-ras oncogene products mutated in codon 61 on the growth characteristics of human melanoma in vivo by establishing 2 SCID-hu mouse xenotransplantation models. Tumors grown in SCID mice injected with human melanoma carrying activated N-ras genes were significantly larger (p < 0.004) than tumors grown in animals injected with the appropriate control transfectants. Additionally, tumors with N-ras point mutations clearly showed a more pleomorphic phenotype than the control groups. Our results, obtained in 2 independent SCID-hu xenotransplantation models, suggest that mutated N-ras oncogene expression may be an important factor influencing growth characteristics of human melanoma without altering metastatic potential. These novel in vivo model systems provide a tool for further study of the biology of mutated ras in melanoma and should also prove useful for testing new and improved treatment strategies for human melanoma carrying mutated ras genes.
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PMID:N-ras oncogene expression changes the growth characteristics of human melanoma in two independent SCID-hu mouse models. 882 54

Directed motion toward and infiltration of tumor masses by effector cells is essential for successful adoptive immunotherapy. A human/SCID mouse chimeric system was used to examine whether an antitumor antibody and recombinant human monocyte colony-stimulating factor (rhM-CSF) could promote human T-cell infiltration of a human tumor in vivo. Fourteen days after subcutaneous injection of the human melanoma cell line M-14 into SCID recipients, several adoptive immunotherapy regimens were initiated using activated human T cells, an anti-melanoma monoclonal antibody (MoAb) (R24), and rhM-CSF. Effects on tumor growth and human T-cell infiltration into the tumor were assessed. Compared with other treatment groups, only mice treated with the combination of activated human T cells, anti-tumor MoAb, and rhM-CSF demonstrated a significant cellular infiltrate in the melanoma. Immunohistology demonstrated human T cells present in the tumor up to 7 days after injection. Groups treated with rhRANTES or rmGM-CSF in place of rhM-CSF exhibited markedly less human T-cell infiltration. Additionally, only mice treated with human T cells, R24, and rhM-CSF demonstrated a significant antitumor response in vivo. This model suggests that activated human T cells can be specifically targeted to in vivo tumor sites by combined treatment with an antitumor antibody and rhM-CSF.
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PMID:Adoptive immunotherapy involving recombinant human M-CSF and R24 anti-melanoma antibody induces human T-cell infiltration into human melanoma xenografts. 894 71

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