Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Peripheral blood lymphocytes from 146 patients with metastatic melanoma undergoing interleukin 2 (IL-2)-based immunotherapy were characterized for HLA A, B, Cw, DR, DQw, and DRw specificities. Patients had been enrolled into sequential treatment protocols with either IL-2 alone (28) or in combination with tumor-infiltrating lymphocytes (TILs) (86), alpha-interferon (26), lymphokine-activated killer cells (16), radiation therapy (7), cyclophosphamide (3), tumor necrosis factor (1), and interleukin 4 (1) for a total of 168 courses of therapy. HLA phenotype was then correlated with response rate and toxicity to IL-2. We noted: (a) a significant difference in the frequency of A11 (20.5% versus 10.2%; P < 0.05) allele between melanoma patients and the North American Caucasian population; (b) a significantly higher frequency of A11 phenotype among responders (40.5%) than in the melanoma patient population (20.5%; P < 0.01), which was even more obvious among patients responding to TIL therapy (47.4% versus 22.1%; P < 0.05); within TIL patients, responders also had an increased frequency of A19 (42.1% versus 25.6%; P < 0.05); (c) a correlation between the number of TILs received and response rate (P < 0.005); and (d) an association between DR4 haplotype and decreased tolerance to IL-2 among the patients receiving TILs (P = 0.01). These results suggest that, in melanoma patients, some HLA Class I specificities may predict for a greater likelihood of response to IL-2-based therapy, while HLA Class II phenotype correlates with tolerance to the combination of TIL and IL-2 therapy.
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PMID:HLA association with response and toxicity in melanoma patients treated with interleukin 2-based immunotherapy. 142 1

Langerhans cells (LC) are potent antigen-presenting dendritic cells essential for cutaneous immune responses. LC are reduced in number in the epidermis adjacent to primary melanomas and increase in number in the lymphoid infiltrate that accumulates in the dermis deep to such tumours. The present study was undertaken to assess whether the reduction in epidermal LC was accompanied by alterations in their functional competence. We evaluated the capacity of LC from melanoma patients to augment lymphocyte responses to phytohaemagglutinin (PHA), tetanus toxoid and melanoma-associated antigens. Using a panning method to bind Fc receptor positive (FcR+) cells we separated LC-enriched (FcR+) and depleted (FcR-) fractions of epidermal cells. Lymphocyte responses to PHA and tetanus toxoid were increased in the presence of LC-enriched cell populations, but not in the presence of LC-depleted epidermal cells. In preliminary experiments LC-enriched cell populations did not help initiate detectable in vitro lymphoproliferative responses to autologous metastatic melanoma cell lines, allogeneic HLA-DR+ metastatic melanoma cell lines, or a 180-190 kD melanoma tumour-associated antigen. Future studies will investigate the capacity of LC to augment responses to melanoma-associated antigens on autologous primary melanomas.
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PMID:Effect of epidermal Langerhans cells from melanoma patients on lymphoproliferative responses. 164 25

T cell lines and clones with autologous tumor-specific activity have been developed in malignant melanoma by stimulating peripheral blood lymphocytes (PBL), lymph node lymphocytes or tumor-infiltrating lymphocytes (TIL) with autologous melanoma cells in the presence of recombinant interleukin 2 (rIL2). T-cell lines and clones have been developed with specific cytotoxicity and/or proliferative responses for autologous melanoma targets but not for allogeneic melanoma tumor cells, autologous normal cells or natural killer (NK)-sensitive targets. The concentration of rIL2 is critical for the generation of autologous tumor-specific T-cell lines, with low rIL2 concentrations (up to 800 IU/ml) facilitating the growth of T-cell lines with tumor-specific activity. The alpha beta T-cell receptor (TCR) and the CD3 antigen are involved in specific cytotoxicity and/or proliferative responses of these T-cell lines and clones. An oligoclonal pattern of beta-chain TCR gene rearrangements was observed on T-cell lines and clones with autologous tumor-specific cytotoxicity, suggesting that they are comprised of T cells that have undergone a clonal expansion in response to particular antigen. Autologous tumor-specific cytotoxic T cells are HLA-restricted and recognize on the melanoma tumor cells HLA Class I or possibly Class II antigens plus a tumor-specific determinant. TIL from patients with metastatic melanoma have unique characteristics in comparison with PBL and lymph node lymphocytes and they appear to contain substantial proportions of T cells that have been locally sensitized to autologous tumor cells. Single stimulation of TIL with autologous tumor cells in the presence of rIL2 is sufficient for the generation of T cell lines with autologous tumor-specific activity, whereas, multiple stimulation of PBL and lymph node lymphocytes was required to achieve the same purpose. TIL-derived T cell lines have been expanded in rIL2 in vitro by at least 1,500-fold without losing their activity. Approximately, 40% of the patients exhibited complete or partial responses to adoptive immunotherapy with melanoma TIL and rIL2.
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PMID:Human autologous tumor-specific T cells in malignant melanoma. 187 55

Twenty-four patients with metastatic melanoma were treated with a novel form of active immunotherapy, autologous tumor cell vaccine conjugated to the hapten, dinitrophenyl. This approach is based on the idea, well established in animal systems, that presentation of tumor antigens in the context of a strongly immunogenic hapten augments the development of immunity to those antigens. After being sensitized to dinitrophenyl, patients were given injections of dinitrophenyl-vaccine every 28 days following pretreatment with low dose cyclophosphamide. The vaccine induced a striking inflammatory response in superficial metastases in 14 of 24 patients, consisting of erythema, swelling, warmth, and tenderness over tumor masses. Immunohistochemistry and flow cytometric analysis of biopsy specimens showed marked infiltration with lymphocytes, the majority of which were CD8+, HLA-DR+ T-cells. These observations suggest that a T-cell-mediated immune response against melanoma-associated antigens was facilitated by the "helper" effect of the anti-hapten response.
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PMID:Immunization with haptenized, autologous tumor cells induces inflammation of human melanoma metastases. 202 52

Two long-term tumor-infiltrating lymphocyte (TIL) lines and their autologous tumor lines have been established from solid tumors derived from different patients with metastatic melanoma. In 4-hr 51Cr release assays, each TIL culture lysed only the autologous cryopreserved fresh or established melanoma line, but failed to lyse other melanoma tumors or K562 cells. Repeated stimulation of TIL with the autologous melanoma lines resulted in significant increases in anti-tumor CTL activity with no apparent loss in specificity. Stimulated cells have retained cytotoxic activity for up to 5 months in culture. Tumor cell CTL activity for both long-term TIL lines is inhibited by several mAbs, including those against CD3, CD8, and class I MHC molecules, indicating that the effector cells are class I-restricted CD8+, CTL. Furthermore, recognition of Ag on one of the established melanoma lines by TIL is restricted by HLA A-2. The availability of autologous tumor lines may prove clinically useful for the selective stimulation and expansion of cells with anti-tumor activity within a heterogeneous TIL population.
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PMID:Increased tumor-specific CTL activity in human tumor-infiltrating lymphocytes stimulated with autologous tumor lines. 203 81

Sixteen primary and ten metastatic melanoma lesions were stained in indirect immunoperoxidase with HLA-DR, DP and DQ monoclonal antibodies. In primary lesions, HLA-DR, DQ and DP antigens were much more expressed in nodular melanoma lesions than in acral lentiginous melanoma lesions. In metastatic lesions HLA-DR, DQ and DP antigens were expressed more than in primary lesions, but there were no significant differences between ALM and NM. In primary melanoma, 82%, 75%, and 75% of lesions tested were stained by anti HLA-DR, DP and DQ monoclonal antibodies, respectively. In metastatic melanoma, 90% of the lesions tested were stained by anti HLA-DR, DP and DQ monoclonal antibodies. HLA-class II antigens on melanoma cells were much more expressed in cases of high levels of invasion, high degrees of lymphocyte infiltration, and lower melanin content.
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PMID:[Expression of HLA-class II antigens in malignant melanoma]. 219 Nov 57

The present studies were undertaken to characterize Ag presentation by cultured human melanoma cell lines. Cell lines established from "biologically early" lesions of malignant melanoma were able to present the soluble Ag tetanus toxoid (TT) to autologous and HLA-DR-matched allogeneic, TT-immune T cell clones. Proliferation of T cell clones in response to Ag presented by primary melanoma peaked on day 2 of culture with Ag. Ag presentation was blocked by pretreatment of TT-pulsed and fixed melanoma cells with mAb against HLA-DR, but not HLA-DQ, HLA-DP, or HLA-ABC. Ag processing and presentation were inhibited by treating the melanoma cells with ammonium chloride. In parallel with previous findings from this laboratory demonstrating the inability of cell lines cultured from "advanced" primary or metastatic melanoma to induce autologous T cell proliferation, such cell lines also failed to present this exogenous Ag despite the presence of cell-surface HLA-class II molecules. Thus, in contrast to the finding in biologically early melanoma, none of the multiple TT-immune, T cell clones from autologous patients or HLA-DR matched donors was able to respond to TT presented by melanoma cells cultured from advanced disease. Co-incubation studies revealed that metastatic melanoma cells did not secrete inhibitory substances during the APC assay, however, they were able to process TT, rendering it "immunogenic" in the presence of fixed, autologous non-T cells. When fixed, autologous melanoma cells were assayed for their ability to present processed Ag; fixed cells of early but not advanced disease were able to present Ag in this setting, indicating that the presenting limb becomes flawed in the evolution of the metastatic phenotype. Finally, studies of chloroquine inhibition of the capacity of melanoma cells derived from early primary disease to stimulate autologous peripheral blood T cells suggest that such cells process and present tumor-associated Ag in the same fashion as the "model" Ag TT.
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PMID:Defective antigen presentation by human melanoma cell lines cultured from advanced, but not biologically early, disease. 246 32

The toxicity and therapeutic efficacy of the combination of recombinant interferon gamma (rIFN-gamma) and alpha (rIFN-alpha) was investigated in 15 patients with metastatic melanoma. Patients were treated with an escalating dose of rIFN-gamma and a fixed dose of rIFN-alpha administered s.c. 3 times a week. The maximum dose was well tolerated. The median survival time of the patients was 7 months; no clinical remissions were observed. In the majority of cases, expression of HLA class-I and -II antigens on the patients' peripheral blood lymphocytes and monocytes increased markedly during treatment. An increase in HLA-DR expression of peripheral blood T lymphocytes was correlated with a longer survival time. This suggests that activation of T lymphocytes may have a favourable influence on the course of metastatic disease. The in vitro anti-proliferative activity of IFNs on melanoma cell lines isolated from melanoma metastases during treatment of 3 patients was determined. In contrast to the lack of in vivo anti-tumour effect in patients, both rIFN-gamma and rIFN-alpha inhibited DNA synthesis of these melanoma cell lines in vitro, combined IFNs acting synergistically. Anti-proliferative activity observed in vitro occurred at IFN concentrations below the peak serum levels achieved in vivo.
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PMID:In vivo effects of combination treatment with recombinant interferon-gamma and -alpha in metastatic melanoma. 249 52

To investigate whether human melanoma cells intrinsically resistant to autologous LAKs do exist, and whether a relationship between the level of lysis of LAKs and spontaneous drug resistance can be identified at the clonal level, we studied 44 clones obtained from a metastatic melanoma lesion. The antigenic phenotype of clones revealed a marked heterogeneity in the expression of HLA antigens of classes I and II. The clones were subsequently tested for sensitivity to autologous LAK and for spontaneous resistance to Dx. No clone resistant to autologous LAK was found, although a considerable range of lysis was noted with a normal frequency distribution. Growth in agar of the 2 clones in which lysis was least pronounced (6 and 26) was completely inhibited after co-culture with LAKs, indicating a lack of absolute resistance to these effectors. Spontaneous resistance to Dx, evaluated as ID50, revealed instead that the majority of clones had a low ID50. The frequency distribution of clones showed a left-skewed curve. The percentage of specific 51Cr-release and the ID50 for Dx could be correlated in 25 clones by linear regression. Sensitivity to LAK did not correlate with HLA classes I or II or melanoma-associated antigen expression. These results support the contention that increased LAK sensitivity of tumor cells is associated with drug resistance.
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PMID:Differential lysis of melanoma clones by autologous recombinant interleukin 2-activated lymphocytes. Relationship with spontaneous resistance to doxorubicin (Dx). 326 90

Previous studies indicated that peripheral blood lymphocytes from patients (Pt-PBL) with lymph node metastatic melanomas proliferated in vitro and developed into tumor-restricted cytotoxic lymphocytes in response to alloantigens or interleukin 2 (IL-2). However, Pt-PBL were not stimulated by irradiated autologous metastatic melanoma (Auto-Me) cells. In the present study we report that the lack of stimulatory activity of Auto-Me cells may be due to a suppressive effect exerted by Auto-Me cells on the responder lymphocytes. In fact, we found that in 62% of cases examined, the addition of 5-10% Auto-Me cells to Pt-PBL cultures strongly inhibited both proliferation and the generation of tumor cytotoxic lymphocytes induced by alloantigens or IL-2. The inhibition was dose-dependent and tumor-restricted, and was not due either to toxicity, medium depletion or IL-2 absorption by Auto-Me cells. Normal fibroblasts, K562 cells and autologous E-lymphocytes were not suppressive. Auto-Me cells were able to inhibit Pt-PBL responses only when added during the first 24 h of culture and not later. Phenotypic analysis of Auto-Me cells using monoclonal antibodies directed against HLA-A,B,C, HLA-DR and melanoma-associated antigens revealed that the expression of high levels of DR antigens on Auto-Me cells was associated with an elevated suppressive activity. Conversely, Auto-Me cells with low or undetectable levels of DR antigens were not inhibitory. Furthermore, the increased expression of DR antigens on Auto-Me cells obtained by in vitro treatment with human interferon gamma (IFN-gamma) also resulted in an increased suppressive activity. We conclude that HLA-DR+ metastatic melanoma cells can interfere with the generation of an anti-tumor immune response, thus potentially favoring the escape of the tumor from the host's control mechanism.
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PMID:The inhibition of lymphocyte stimulation by autologous human metastatic melanoma cells correlates with the expression of HLA-DR antigens on the tumor cells. 633 55


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