UMLS:C0278883 - FACTA Search

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Query: UMLS:C0278883 (metastatic melanoma)
6,224 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-five early-passage (less than or equal to 8) melanoma cell lines, isolated from ten patients with metastatic melanoma, were analyzed by a combination of serological, immunochemical, and molecular methods for mRNA levels, synthesis, and surface expression of MHC class I and class II antigens prior to and following exposure to recombinant human leukocyte (IFN-alpha A), fibroblast (IFN-beta), and immune (IFN-gamma) interferon. All the cell lines expressed variable levels of HLA class I gene products that were up-regulated to different extents upon exposure to specific interferons (IFNs). HLA class II antigens were expressed in 22 of the 25 melanoma lines and IFN-gamma increased the levels of class II mRNA, protein synthesis, and surface expression in all cultures displaying baseline expression. A significant up-regulation of class II antigen expression by IFN-alpha or -beta, associated with higher levels of class II transcripts and enhanced synthesis, was found only in two early-passage human melanoma cell lines. In three lesions from the same patient which did not constitutively express class II antigens, no expression of these glycoproteins could be induced with any of the IFNs. These results indicate that IFN-gamma does not act as a de novo inducer of class II antigen expression in early-passage human melanoma cell lines. This hypothesis is further supported by analysis of class II-associated invariant chain (Ii) expression, which is expressed and induced by IFNs in a manner similar to that of class II antigens. The present study also indicates that early-passage metastatic melanoma lesions from the same patient are heterogeneous in their de novo expression of major histocompatibility antigens and in their modulation by IFNs.
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PMID:Effect of recombinant human leukocyte, fibroblast, and immune interferons on expression of class I and II major histocompatibility complex and invariant chain in early passage human melanoma cells. 170 42

In vitro culture of metastatic melanoma fragments with 150 units of recombinant interleukin 2 resulted in the successive expansion of CD4+ and then CD8+ tumor-infiltrating lymphocytes (TIL) throughout a 2-month period. TIL cultured for 43 days and consisting of 95% CD8+ and 10% CD4+ T lymphocytes were cloned by limiting dilution (LD). Thirteen CD8+ and thirty-one CD4+ clones were obtained, indicating that the frequency of clonogenic CD8+ proliferative T lymphocytes was much lower than that of their CD4+ homologues. When LD was performed in the presence of autologous melanoma cells the frequency of CD8+ clones was increased by factor 4. The DNA from TIL of day 43 bulk culture and of six CD8+ clones was hybridized with T cell receptor (TcR) beta and gamma probes. Identical configuration of the nonfunctional gamma and functional beta TcR genes was found in "bulk culture" and cloned TIL. The CD8+ clones therefore derived from a clonal population of CD8+ cells which had expanded in vitro before the LD. All the CD8+ clones tested were strongly cytotoxic for autologous melanoma cells but did not kill autologous fibroblasts or concanavalin A blasts, or any of the 10 allogeneic tumor targets tested, including 5 melanomas, 2 breast cell lines, 1 neuroblastoma, K-562 and the Epstein-Barr virus-transformed cell line used as a feeder. Furthermore, specific killing was inhibited by monoclonal antibodies against CD3, CD8, TcR alpha/beta and against class I major histocompatibility complex antigens indicating that these cytotoxic T lymphocyte clones recognized autologous tumor cells through the TcR, in an HLA class I-restricted manner. These data show that it is feasible to obtain tumor-specific cytotoxic T lymphocytes from melanoma TIL with a simple culture technique and that a single clone could be expanded to more than 10(10) cells which should allow testing of immunotherapeutic potential of these cells by adoptive transfer into melanoma patients.
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PMID:Selective expansion of a specific anti-tumor CD8+ cytotoxic T lymphocyte clone in the bulk culture of tumor-infiltrating lymphocytes from a melanoma patient: cytotoxic activity and T cell receptor gene rearrangements. 197 94

To investigate the specificity of human tumor-infiltrating lymphocytes (TIL) against autologous tumors, TIL from five metastatic melanoma patients were expanded with rIL-2 and assessed for cytotoxicity in chromium release assays. TIL from a patient showing preferential cytotoxicity against autologous melanoma cells were further analysed. TIL were cloned by limiting dilution. Four out of 27 clones showed substantial cytotoxicity against autologous melanoma and one clone, designated as No. 8a-5 (CD3+, CD4-, CD8+, CD56-), selectively killed autologous melanoma but did not kill six different allogeneic melanoma, K562, or autologous or allogeneic Con A lymphoblast targets. Cytotoxicity of No. 8a-5 cells was inhibited by anti-HLA class I MAb (w6/32), by anti-beta 2-microglobulin MAb, and by anti-CD3 (OKT3) MAb, suggesting that the specific cytotoxicity was HLA class I-restricted and that the clone utilized the T-cell receptor complex for recognition of targets. Pretreatment with rIFN-gamma increased the sensitivity of autologous melanoma targets to lysis by No. 8a-5 cells. Exogenous rIL-4 enhanced [3H]TdR incorporation by these TIL. In contrast, rIFN-gamma reduced the sensitivity of the autologous melanoma to lysis by uncloned TIL, and rIL-4 suppressed the cytotoxicity and cell proliferation of uncloned TIL. These results indicate that both specific and non-specific cytotoxic cells can be developed from the same TIL and that these can be differentially regulated.
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PMID:Differential regulation by interleukin-4 and interferon-gamma of an autologous melanoma-specific cytotoxic T-cell clone and the tumor-infiltrating lymphocytes from which it was established. 211 66

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

The expression of HLA class I molecules on tumor cells is vital for CD8+T cell recognition of tumor Ags. Loss of HLA class I Ag expression as a result of defective beta 2-microglobulin genes has been described in melanoma cells. To further evaluate mechanisms of tumor escape, HLA class I Ag expression was compared in 24 metastatic melanoma cell lines and 20 melanocyte strains by FACS analysis with use of allele-specific mAbs. Total loss of HLA class I Ag expression was not noted; instead, two relatively common phenomena were identified: 1) A variable degree of expression of HLA-B Ags by melanoma cell lines and melanocytes; however, HLA-A Ags were consistently expressed in all cell types. Furthermore, HLA-B locus Ag expression was detected in vivo in only one of six frozen section specimens obtained from six patients having metastatic melanoma. 2) Loss of allelic expression was noted in two of 14 HLA-A2 (14%) and one of three HLA-A29 (33%) melanoma cell lines and included a full haplotype, which suggests loss of a genomic fragment. Allele-specific PCR amplification demonstrated deletion of genes in linkage disequilibrium within the MHC class II, III, and I regions. Aberrations of HLA class I expression in tumor lines should be considered when assessing MHC-restricted phenomena in in vitro models.
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PMID:Loss of HLA haplotype and B locus down-regulation in melanoma cell lines. 802 50

Patients with metastatic melanoma have a very poor prognosis. In many cases, the tumor recurs after surgical excision. Therefore, it might be beneficial for cancer patients to induce an immune attack against the tumor by inserting a cytokine gene into the tumor cells. Here, 14 primary cell cultures could be established from 45 patients with malignant melanoma. Primary cell cultures were transfected via electroporation with the gene encoding for human interleukin-7 (IL-7). Transfection resulted in the production of biologically active IL-7 with an average of 850 pg/mL per 10(6) cells per 24 hours. Irradiation with 10,000 cGy, which inhibited tumor cell growth in vitro, increased the amount of released IL-7 to an average amount of 1050 pg/mL per 10(6) cells per 24 hours. No significant differences in the phenotype were observed in the IL-7-transfected cells compared with nontransfected cells. The expression of HLA class I and II, ICAM-1, and of a melanoma-associated antigen remained unaltered. Transfection with IL-7 had no significant effect on the proliferation of melanoma cells as measured in a MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] assay. There was no significant change in the cytokine profile after transfection or irradiation of the cells, but one cell culture expressed a high amount of IL-6 (about 2 ng/mL). IL-6 was expressed in nontransfected cells and was not altered by transfection. Interestingly, transfected cells from primary melanoma cultures possessed a higher sensitivity to immunologic effector cells compared with nontransfected cells. This was true for allogeneic as well as autologous melanoma cells. Our results show the feasibility of a gene transfer into primary human melanoma cells, different from retroviral transduction. IL-7-transfected cells might be of value in vaccination protocols for melanoma patients.
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PMID:Increase of cytotoxic sensitivity of primary human melanoma cells transfected with the interleukin-7 gene to autologous and allogeneic immunologic effector cells. 925 12

Limited T-cell receptor (TCR) repertoire of tumor-infiltrating lymphocytes has been found in melanoma metastases and spontaneously regressing melanoma. Immunotherapy with INF-alpha/interleukin 2 can induce tumor regression in a proportion of patients with metastatic melanoma. We analyzed the gene expression of the TCR-beta variable (Vbeta) region of tumor-infiltrating lymphocytes from 16 melanoma metastases by subgroup-specific semiquantitative RNA PCR to investigate the influence of immunotherapy on the TCR pattern. In five progressing metastases before or after immunotherapy, no overexpression of Vbeta gene families was detectable, whereas in seven of seven metastases responding to IFN-alpha/interleukin 2 one to four Vbeta gene families were overexpressed. Preferential usage of certain Vbeta gene subgroups in patients sharing the same HLA class I molecules suggests a T-cell response to dominant public epitopes. Analysis of multiple specimens from the same patients gives evidence that this strong oligoclonal T-cell selection is induced or at least augmented by immunotherapy, supporting the functional relevance of this finding.
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PMID:T-cell receptor beta variable region diversity in melanoma metastases after interleukin 2-based immunotherapy. 981 29

Mutations have been identified in the beta2-microglobulin gene of tumor cells of two metastatic melanoma patients who received immunizations with MAGE peptides. One mutation abolishes the start codon whereas the other introduces a premature stop codon. The second beta2-microglobulin allele of both tumors appears to be lost on the basis of sequence data and loss of microsatellite heterozygosity. The lack of beta2-microglobulin gene product results in the absence of HLA class I antigens on the surface of the tumor cells. This may explain why the tumors of both patients progressed despite the immunization treatment and shows the necessity of analyzing in depth the antigen presentation capability of the tumor cells for the interpretation of clinical trials involving anti-tumor vaccination.
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PMID:Mutations of the beta2-microglobulin gene result in a lack of HLA class I molecules on melanoma cells of two patients immunized with MAGE peptides. 989 50

Increasing attention has been devoted to elucidating the mechanism of lost or decreased expression of MHC or melanoma-associated antigens (MAAs), which may lead to tumor escape from immune recognition. Loss of expression of HLA class I or MAA has, as an undisputed consequence, loss of recognition by HLA class I-restricted cytotoxic T cells (CTLs). However, the relevance of down-regulation remains in question in terms of frequency of occurrence. Moreover the functional significance of epitope down-regulation, defining the relationship between MHC/epitope density and CTL interactions, is a matter of controversy, particularly with regard to whether the noted variability of expression of MHC/epitope occurs within a range likely to affect target recognition by CTLs. In this study, bulk metastatic melanoma cell lines originated from 25 HLA-A*0201 patients were analyzed for expression of HLA-A2 and MAAs. HLA-A2 expression was heterogeneous and correlated with lysis by CTLs. Sensitivity to lysis was also independently affected by the amount of ligand available for binding at concentrations of 0.001 to 1 mM. Natural expression of MAA was variable, independent from the expression of HLA-A*0201, and a significant co-factor determining recognition of melanoma targets. Thus, the naturally occurring variation in the expression of MAA and/or HLA documented by our in vitro results modulates recognition of melanoma targets and may (i) partially explain CTL-target interactions in vitro and (ii) elucidate potential mechanisms for progressive escape of tumor cells from immune recognition in vivo.
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PMID:Natural variation of the expression of HLA and endogenous antigen modulates CTL recognition in an in vitro melanoma model. 1004 82

In this study we tested the hypothesis that loss of T cell signaling molecules in metastatic melanoma patients' T cells may affect differently T cell subsets characterized by distinct TCR variable regions. By a two-color immunofluorescence technique, expression of zeta-chain, lck, and ZAP-70 was evaluated in CD3+ T cells and in three representative T cell subsets expressing TCRAV2, TCRBV2, or TCRBV18. Partial loss of lck and ZAP-70 was found in CD3+ T cells from PBL of most melanoma patients, but not of healthy donors. The extent of zeta-chain, lck, and ZAP-70 loss depended on the TCRV region expressed by the T cells, and this association was maintained or increased during progression of disease. Coculture of patients' or donors' T cell with melanoma cells, or with their supernatants, but not with normal fibroblasts or their supernatants, down-modulated expression of zeta-chain, lck, and ZAP-70 in a TCRV region-dependent way. Immunodepletion of soluble HLA class I molecules present in tumor supernatants, but not of soluble ICAM-1, blocked the suppressive effect on T cell signaling molecule expression. T cell activation with mAbs to a single TCRV region and to CD28 led to significant and TCRV region-specific re-induction of zeta-chain expression. These findings indicate that extent of TCR signaling molecules loss in T lymphocytes from metastatic melanoma patients depends on the TCRV region and suggest that tumor-derived HLA class I molecules may contribute to induce such alterations.
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PMID:Differential loss of T cell signaling molecules in metastatic melanoma patients' T lymphocyte subsets expressing distinct TCR variable regions. 1058 94

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