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Query: UMLS:C1522102 (
Melanoma
)
7,698
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytokine gene transfer into tumor cells has been shown to mediate tumor regression and antimetastatic effects in several animal models via immunomodulation. Therefore, clinical protocols have been developed to treat cancer patients with cytokine gene-modified tumor cells. We inserted the genes coding for the p35 and p40 chain of interleukin-12 (IL-12) in two independent eukaryotic expression vectors and transduced melanoma cells of 15 different primary tumor cultures with both plasmids by a ballistic gene transfer approach. Secreted IL-12 demonstrated strong bioactivity by inducing
interferon-gamma
release from peripheral blood lymphocytes upon coculture with cell culture supernatants after IL-12 gene transfer which could at least partly be blocked by IL-12-specific antisera. Further enrichment of transduced tumor cells by magnetic separation directly after gene transfer increased cytokine secretion from a mean of 119 pg in the unsorted to 507 pg IL-12 (24 h/10(8) cells) in the magnetically enriched cell fraction. Irradiation of these cells led to a further elevation of secreted IL-12 (mean 987 pg). Elevated IL-12 levels were detected over 7 days after irradiation in vitro. In a subsequent first clinical phase I study six patients with metastatic melanoma were vaccinated with autologous, interleukin-12 gene-modified tumor cells.
Melanoma
cells were expanded in vitro from surgically removed metastases, transduced by ballistic gene transfer, irradiated and were then injected subcutaneously (s.c.) at weekly intervals. Clinically, there was no major toxicity except for mild fever. All patients completed more than four s.c. vaccinations over 6 weeks and were eligible for immunological evaluation. Post-vaccination, peripheral mononuclear cells were found to contain an increased number of tumor-reactive proliferative as well as cytolytic cells as determined by a limiting dilution analysis in two patients. Two patients developed DTH reactivity against autologous melanoma cells and one had a minor clinical response. Biopsies taken from that patient's metastases revealed a heavy infiltration of CD4+ and CD8+ T lymphocytes. In conclusion, vaccination induced immunological changes even in a group of advanced, terminally ill patients. These changes can be interpreted as an increased antitumor immune response.
...
PMID:Vaccination with IL-12 gene-modified autologous melanoma cells: preclinical results and a first clinical phase I study. 961 72
Melanoma
cells are unusual because, unlike most epithelial tumours, constitutive expression of HLA class II antigens is common. We have previously demonstrated that a peptide-specific CD4+ T-cell clone proliferates briskly in response to peptide and HLA class II expressing melanoma cell lines derived from metastases. Here we demonstrate that these CD4+ T-cells secrete large amounts of
interferon-gamma
(IFNgamma) and interleukin-10 (IL10), and insignificant quantities of IL2 or IL4, in response to peptide presentation by both melanoma and autologous B-cells. T-cells produced more IL10 when responding to peptide presentation by melanoma cells compared with B-cells, and less IFNgamma (P<0.01). Addition of IL12 did not alter the cytokines produced but increased the T-cell production of both, especially the production of IL10 in response to peptide presentation by melanoma cells. Our data suggest that differential cytokine production by CD4+ T-cells in response to peptide presentation by HLA class II expressing tumour cells may contribute to tolerance to tumour antigens.
Melanoma
Res 1999 Apr
PMID:Cytokine production by CD4+ T-cells responding to antigen presentation by melanoma cells. 1038 Sep 40
Melanoma
-specific cytotoxic T lymphocytes (CTL) can be generated from peripheral blood lymphocytes (PBL) by mixed lymphocyte-tumour cell cultures. Analysis of CTL precursor frequencies in peripheral blood of melanoma patients is generally used for immunomonitoring purposes to evaluate vaccination efficacy. At present, it is unclear whether PBL-derived CTL generated in vitro are indicative of an anti-tumour immune response in vivo. Three tumour-specific human leucocyte antigen (HLA)-B/C-restricted CTL clones were derived from peripheral blood of a melanoma patient immunized with interleukin-7 (IL-7) gene-modified tumour cells. CTL clones differing in their T-cell receptor-gamma (TCRgamma) rearrangement produced
interferon-gamma
, IL-4 and/or IL-10. On the basis of their unique TCRgamma gene rearrangements clone-specific primers were generated for detection of clone-specific DNA by polymerase chain reaction. One CTL clone (E5) of the three was found to be selectively expanded in one of seven metastases obtained at autopsy, as determined by Southern blot hybridization. However, the presence of E5 in only one of seven metastases at death indicates that the in vivo accumulation of the specific CTL clone was not sufficient to contain tumour progression. Nevertheless, our data support the proposition that analysis of anti-tumour activity of PBL-derived CTLs may reflect an anti-tumour immune response in vivo.
...
PMID:In vivo selective expansion of a tumour-specific cytotoxic T-cell clone derived from peripheral blood of a melanoma patient after vaccination with gene-modified autologous tumour cells. 1059 85
This open, multicentre, randomized phase II trial was conducted to determine the effect of isolated limb perfusion (ILP) with tumour necrosis factor-alpha (TNFalpha) in combination with melphalan with or without
interferon-gamma
(IFNgamma) in patients with in-transit metastases of melanoma of the limbs (MD Anderson stage IIIA or IIIAB, AJCC stage III). The 64 patients included were randomized to receive either a two- drug regimen consisting of TNFalpha and melphalan (TM-ILP) or a three-drug regimen consisting of TNFalpha, melphalan and INFgamma (TIM-ILP). Patients randomized to receive IFNgamma were pretreated for 2 days before the ILP with once daily 0.2 mg IFNgamma subcutaneously and also received the same amount of IFNgamma during ILP. A total of 47 complete responses (73%) were reported, 22 (69%) of which occurred in the TM-ILP group and 25 (78%) in the TIM-ILP group; the difference was not significant. The 14 partial responses (22%) were split evenly between the treatment groups. In the TM-ILP group, two cases of stable disease and one case of progressive disease were reported. The overall response rate (complete plus partial responses) was 100% in the TIM-ILP group and 91% in the TM-ILP group, yielding an overall response of 95% for this study. In the historical control data, where 103 patients had received melphalan alone (M-ILP), there were 54 records of complete responses (52%) and 80 of complete or partial responses (78%). The median survival time estimated by the Kaplan-Meier method was 819 days for the TM-ILP group, > 705 days for the TIM-ILP group and 873 days for the combined study population; estimates for time to local progression or recurrence were 327 days, in excess of 498 days and 405 days, respectively. The corresponding figure for the historical controls was 338 days. These data suggest that TNFalpha associated with melphalan may be superior to melphalan alone for ILP.
Melanoma
Res 1999 Oct
PMID:Isolated limb perfusion with tumour necrosis factor-alpha and melphalan with or without interferon-gamma for the treatment of in-transit melanoma metastases: a multicentre randomized phase II study. 1059 16
This study was undertaken to investigate whether alpha-melanocyte stimulating hormone (alphaMSH) influences the interaction of melanoma cells with T-lymphocytes in the light of previous work from our laboratories showing that alphaMSH can reduce tumour necrosis factor-alpha (TNFalpha) stimulated ICAM-1 upregulation in both normal and transformed melanocytes. Two cutaneous melanoma cell lines--A375-SM and HBL--were examined initially. A375-SM cells gave only a two-fold increase in T-cell proliferation, which was not much improved by the pretreatment of the melanoma cells with cytokines. HBL cells induced a three-fold increase in T-cell proliferation, which was slightly enhanced by the addition of cytokines. Neither cell line expressed B7(1), HBL cells expressed a low level of B7(2), whereas A375-SM cells had little, if any, B7(2) expression. Addition of alphaMSH reduced the interaction between these cutaneous melanoma cells and T-lymphocytes in some, but not all, conditions. An ocular melanoma cell line transfected with B7 showed a modest interaction with T-cells (in two out of three donors) and this response was reduced by the addition of alphaMSH. Pretreatment of the transfected line with cytokines markedly enhanced stimulation of T-cell proliferation by these tumour cells, and alphaMSH reduced the interaction between melanoma cells and T-cells for two out of three donors. In summary, under experimental conditions where melanoma cell stimulation of T-cells occurred (generally pretreatment of the cells with
interferon-gamma
gave the most convincing response), alphaMSH reduced this response in the majority of experiments, providing preliminary evidence to confirm the hypothesis that MSH may assist melanoma cells to evade interaction with immune cells.
Melanoma
Res 2000 Aug
PMID:Alpha-melanocyte stimulating hormone can reduce T-cell interaction with melanoma cells in vitro. 1098 66
Although malignant melanomas are often associated with cytotoxic lymphocyte infiltration, these cells are largely ineffective in inducing tumour cell kill, indicating that the melanoma cells have protective mechanisms. These mechanisms are not fully understood, but cytokines and redox-active antioxidant proteins such as catalase, superoxide dismutase, thioredoxin (Trx) and Trx reductase (TrxR) present in the tumour cells constitute part of this protection. In this study firstly we investigated the constitutive intracellular expression of Trx, TrxR, the cytokines interleukin (IL)-1alpha, IL1beta, IL2, IL4, IL6, IL8, IL10, tumour necrosis factor-alpha (TNFalpha) and
interferon-gamma
(IFNgamma) in normal melanocytes and ten primary and metastatic malignant melanoma cell lines. Secondly, we analysed whether redox stimulation by Trx alone or in combination with the phorbol ester PMA affected the expression and release of TNFalpha. Thirdly, we explored the possible correlation between Trx/TrxR expression and resistance to exogenous TNFalpha. All the cultured cells showed intracellular overexpression of Trx and TrxR, which was not always the case for melanoma cells in vivo (tissue sections). The predominant intracellular cytokines found were TNFalpha, IL1alpha and IL1beta. In spite of its presence in the Golgi apparatus, none of the cell lines secreted TNFalpha constitutively, and only one melanoma, FM3, released detectable amounts after stimulation. In contrast, U-937 monocyte control cells released high amounts of TNFalpha on identical stimulation. All the melanoma cell lines were relatively resistant against exogenous TNFalpha, and there was a significant correlation (P < 0.01) between intracellular Trx/TrxR expression and TNFalpha resistance (IC50). In conclusion, Trx and TrxR, as well as TNFalpha, IL1alpha and IL1beta, were highly expressed in cultured normal skin melanocytes and malignant melanoma cell lines. In contrast to U-937 monocytic cells, TNFalpha showed a secretory block in these cells, suggesting a cytoprotective and possible autocrine role for TNFalpha. The intracellular expression of Trx and TrxR together with endogenous TNFalpha was correlated with the resistance to TNFalpha-induced cytotoxicity.
Melanoma
Res 2000 Aug
PMID:Thioredoxin, thioredoxin reductase and tumour necrosis factor-alpha expression in melanoma cells: correlation to resistance against cytotoxic attack. 1098 67
The mouse melanoma cell lines B16, K1735 and Cloudman S91-M3 (and various sublines) are frequently used as melanoma models. Extensive comparative data of their immunological features are not available. In order to define the immunological profiles of these cell lines, relevant tumour markers were studied. S91-M3 melanoma cells constitutively expressed high levels of major histocompatibility complex (MHC) I, in contrast to K1735-M2 and B16-F1 cells. MHC II expression was restricted to B16-F1 cells following
interferon-gamma
treatment. Tyrosinase, tyrosinase-related protein-2 and gp100 were detected in B16-F1 and S91-M3 cells, but not in K1735-M2 cells. Constitutive surface expression and secretion of intercellular adhesion molecule-1 was found on S91-M3 cells. No substantial secretion of interleukin-10 could be detected. In contrast, low levels of latent transforming growth factor-beta were found in the cell supernatants of B16-F1 and K1735-M2 cells. The expression pattern of Fas, FasL and FLICE inhibitory protein was comparable in all three cell lines. Thus our findings indicate that each cell line presents a characteristic immunological profile, confirming that B16-F1 is an appropriate murine tumour model for tumours with low levels of MHC I but expressing melanoma-associated antigens. S91-M3 represents a complementary, more immunogenic model. In contrast, K1735-M2 does not seem to be an appropriate model for melanoma.
Melanoma
Res 2001 Feb
PMID:Comparative analysis of immunocritical melanoma markers in the mouse melanoma cell lines B16, K1735 and S91-M3. 1125 12
Some immunotherapeutic approaches based on melanoma-associated antigens rely on in vitro cultivation of melanoma cells. A beneficial effect of interferons has been shown in melanoma. This study aimed to determine whether stimulation of patient-derived melanoma short-term cell cultures using interferon-alpha and -gamma changes the expression pattern of melanoma-associated antigens. Lymph node, skin and brain metastases were cultivated for up to 3 weeks and treated with interferon-alpha,
interferon-gamma
or mock stimulation. Expression of the melanoma-associated antigens MAGE-3, MelanA/MART-1 and tyrosinase was determined by flow cytometry and compared with the expression pattern of HLA class I molecules. We found consistently enhanced expression of HLA class I molecules, whereas the melanoma-associated antigens showed mixed responses, with moderate induction, suppression or no visible effect. The reaction to interferon stimulation was similar for all the antigens examined within a single melanoma cell culture. In contrast to the HLA class I molecules, which showed induced expression with interferon, the melanoma-associated antigens showed a varied response to interferon stimulation. Differential reaction to interferon stimulation is of importance to immunotherapeutic modalities and might influence progression of the disease. We therefore suggest that evaluation of variation in melanoma-associated antigen expression in the clinical setting may help to identify patients who would profit from adjuvant interferon therapy.
Melanoma
Res 2001 Jun
PMID:Impact of interferons on the expression of melanoma-associated antigens in melanoma short-term cell cultures. 1146 9
Development of brain metastases despite extracerebral response to systemic immunotherapy is a common problem in melanoma patients. We have previously described a murine melanoma vaccine of
interferon-gamma
(IFNgamma)-treated, irradiated syngeneic B16/G3.12 and allogeneic (Cloudman) melanoma cells, plus the adjuvant DETOX, that is protective against subcutaneous (93%) or intracerebral (69%) syngeneic challenge. This study aimed to optimize this vaccine. Groups of nine or 10 mice were immunized five times in 5 weeks with: (i) complete vaccine +/- IFNgamma (VAC+, VAC-); (ii) syngeneic 2 x 106 G3.12 cells plus DETOX (Syn+D), (iii) 2 x 106 allogeneic Cloudman cells plus DETOX (Allo+D); (iv) VAC+ without DETOX (no DETOX); (v) DETOX alone (DETOX); or (vi) phosphate buffered saline (PBS). Mice were challenged subcutaneously with 104 viable G3.12 (or Cloudman cells) and after 35 days intracerebrally with 104 G3.12 cells. Expression of H-2 antigens (measured using fluorescence-activated cell sorting), splenocyte cytotoxicity (measured using 51Cr release) and median overall survival (OAS) were analysed using the log-rank test. VAC+, VAC- and G3.12 mice were equally protected from subcutaneous (s.c.) and intracerebral (i.c.) melanoma challenge (OAS 65 days for s.c., 30 days for i.c.). Protection was less (P < 0.05) in DETOX mice (48 days for s.c.), PBS mice (47 days for s.c., 21 days for i.c.) or no DETOX mice (51 days for s.c.). Allo+D mice showed s.c. (59 days) but not i.c. protection (20 days). IFNgamma incubation did not increase the effect in either the challenge cells or the vaccine cells (P > 0.05). Specific cytotoxicity was seen with G3.12 targets in VAC+ (27%) but not PBS (2%; P < 0.05) mice with equal NK (YAC-1) lysis (10% versus 7%; P< 0.05). Optimal protection against s.c./i.c. experimental murine melanoma was yielded by irradiated syngeneic cells plus DETOX. DETOX alone was not active. Upregulation of H-2 antigens with IFNgamma under these conditions does not augment protection.
Melanoma
Res 2001 Aug
PMID:Optimization of intracerebral tumour protection by active-specific immunization against murine melanoma B16/G3.12. 1147 20
The cytokines interleukin (IL)6 and IL10 appear to be involved in the progression of melanoma because they are secreted by malignant cells and their serum levels are associated with poor survival and with advanced stages of the disease. Antitumour immunity is considered to be a T-cell response, mediated mainly by type 1 cytokines such as IL12 and
interferon-gamma
(IFNgamma). We evaluated the serum levels of cytokines involved in the host response against tumour (IL12, IFNgamma) and/or the progression of melanoma (IL6, IL10) in 45 melanoma patients with localized and metastatic disease and in 45 controls, using commercially available enzyme-linked immunosorbent assay (ELISA) kits. In the controls, IL6 and IL12 were nearly undetectable, whereas the IL10 and IFNgamma ranges were 0.5-9 pg/ml and 2-4.8 pg/ml, respectively. In the melanoma patients, pathologically high values were found in 44.4% for IL6, in 24.4% for IL10, and in 60% for IL12. Significantly higher values were found for IL6 and IL12, and lower values for IFNgamma. This study highlights a significant difference in serum cytokine profiles between controls and melanoma patients, which is mainly due to the high levels of IL6 and IL12 and the low levels of IFNgamma.
Melanoma
Res 2001 Aug
PMID:Serum imbalance of cytokines in melanoma patients. 1147 28
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