UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gene therapy protocols for cancer usually involve removal of tumor cells, culture in vitro to allow gene transfer, and subsequent reintroduction in vivo. Targeting therapeutic genes to tumor cells in situ requires an accuracy of gene delivery that currently is not possible with the use of existing techniques. To overcome these limitations we have used two promoters, which are preferentially active in melanocytic cells, to direct gene expression specifically to melanoma cells both in vitro and in vivo. Here we describe experiments showing that as little as 769 base pairs of the 5'-flanking regions of the tyrosinase, and 1.4 kilobase pair of the tyrosinase-related protein 1, genes are sufficient to direct expression of the beta-galactosidase gene to both human and murine melanoma cells and melanocytes, while not permitting expression in a range of other cell types in vitro. These promoters showed high levels of activity in 12 of 14 murine and human melanoma cell lines tested but showed only basal levels of activity, similar to that of a promoterless construct, in a range of 12 other cell types. Cell type specificity is maintained when the construct is delivered to cells either by physical means or by inclusion of the cell type-specific expression cassette into a retroviral vector. Direct injection of DNA, encoding the beta-galactosidase gene expressed from either promoter, into established B16 melanomas or Colo 26 tumors in syngeneic mice resulted in extensive transduction of tumor cells in the B16 melanomas (approximately 10% of tumor cells expressing 10 days after DNA injection), whereas no blue-staining cells were seen in the Colo 26 tumors. The reporter gene was expressed in melanoma cells and in some normal melanocytes but not in other surrounding normal tissue. We propose that the combination of a tissue-specific promoter driving a therapeutic gene, with delivery of such a construct directly to sites of tumor growth in vivo, either by direct DNA injection or by retroviral infection, may provide significantly enhanced safety for gene therapy for solid tumors.
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PMID:In vitro and in vivo targeting of gene expression to melanoma cells. 843 71

Replicative senescence occurs in normal cells, in contrast to their malignant counterparts which are generally immortal in vitro. We now show that induction of melanogenesis in subconfluent B16 melanoma cells deprived of growth factors can lead to irreversible growth arrest but continued cell viability, concurrent with the expression of specific glycosylated high molecular weight tyrosinases. These tyrosinase activities identify withdrawal from the cell cycle since they were not detected in reversibly arrested quiescent melanocytes, serum-deprived melanoma, or apoptotic melanoma. Our data suggest that different tyrosinases can distinguish cycling and noncycling cells of melanocytic origin and also imply that replicative senescence can be restored in some tumor cells when induced to terminal differentiation in the absence of growth-promoting agents.
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PMID:Specific tyrosinases associated with melanoma replicative senescence and melanogenesis. 849 6

Expression of cDNA libraries from human melanoma, renal cancer, astrocytoma, and Hodgkin disease in Escherichia coli and screening for clones reactive with high-titer IgG antibodies in autologous patient serum lead to the discovery of at least four antigens with a restricted expression pattern in each tumor. Besides antigens known to elicit T-cell responses, such as MAGE-1 and tyrosinase, numerous additional antigens that were overexpressed or specifically expressed in tumors of the same type were identified. Sequence analyses suggest that many of these molecules, besides being the target of a specific immune response, might be of relevance for tumor growth. Antibodies to a given antigen were usually confined to patients with the same tumor type. The unexpected frequency of human tumor antigens, which can be readily defined at the molecular level by the serological analysis of autologous tumor cDNA expression cloning, indicates that human neoplasms elicit multiple specific immune responses in the autologous host and provides diagnostic and therapeutic approaches to human cancer.
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PMID:Human neoplasms elicit multiple specific immune responses in the autologous host. 852 54

The human tyrosinase gene has been reported previously to code for two distinct antigens recognized on HLA-A2 melanoma cells by autologous cytolytic T lymphocytes (CTL). By stimulating lymphocytes of melanoma patient MZ2 with a subclone of the tumor cell line of this patient, we obtained a CTL clone that lysed this subclone but did not lyse other subclones of the same melanoma cell line. The sensitive melanoma subclone was found to express a much higher level of tyrosinase than the others, suggesting that the antigen recognized by the CTL might be encoded by tyrosinase. Transfection of a tyrosinase cDNA demonstrated that the CTL clone indeed recognized a tyrosinase product presented by HLA-B*4403. The relevant antigenic peptide corresponds to residues 192-200 of the tyrosinase protein. Lymphoblastoid cells of the B*4402 subtype were not recognized by the CTL following incubation with the peptide. Nevertheless, by stimulating in vitro lymphocytes of a healthy HLA-B*4402 donor with autologous adherent cells pulsed with the same peptide, we obtained a CTL clone which recognized tumor cells expressing tyrosinase and HLA-B*4402. As HLA-B44 is expressed in 24% of Caucasians, the tyrosinase-B44 antigen may constitute a useful target for specific immunotherapy of melanoma.
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PMID:A tyrosinase nonapeptide presented by HLA-B44 is recognized on a human melanoma by autologous cytolytic T lymphocytes. 856 71

To determine whether HLA-A21 restricted melanoma Ags exist that are not expressed on normal melanocytes, a panel of 478 T cell clones from six HLA-A21+ patients was selected for HLA-A2 restricted lysis of autologous tumor and then tested for differential recognition of HLA-A2.1+ melanomas and normal melanocytes. Four subsets of clones were identified in the panel of 107 HLA-A2-restricted CTL clones. CTL clones from three of the four subsets did not lyse melanocytes, but recognized fresh HLA-A2.1+ melanomas and defined three classes of epitopes, including unique Ags, common melanoma Ags, and Ags shared with neoplastic cells of different histologic origin. These CTL clones did not recognize any of the 10 peptides selected for specific association to HLA-A2.1 and derived from Melan-A/Mart-1, tyrosinase, gp100, or MAGE-3 proteins. By contrast, the fourth subset of HLA-A2.1-restricted CTl clones recognized both melanoma and melanocytes. These CTL clones were directed to a peptide from either Melan-A/Mart-1, tyronise, or gp100. By a limiting dilution assay, designed to evaluate the frequency of HLA-A2-restricted CTL precursors (CTLp) directed to melanoma but not to melanocytes, such precursors were found in the peripheral blood or tumor site of five of six HLA-A2.1+ melanoma patients, and their frequency was much higher than the frequency of CTLp recognizing both tumor cells and the melanocytes. These results suggest that in melanoma patients most of the HLA-A2.1-restricted immune repertoire to melanoma is directly to epitopes expressed in the neoplastic but not in the normal cells of the melanocyte lineage.
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PMID:Cytotoxic T cells directed to tumor antigens not expressed on normal melanocytes dominate HLA-A2.1-restricted immune repertoire to melanoma. 859 64

Peptide epitopes derived from differentiation antigens of the melanocyte lineage have been identified in human melanomas and normal cultured melanocytes as targets for MHC-restricted cytotoxic T lymphocytes (CTL). Characterization of multiple CTL-defined antigenic determinants and the presence of corresponding precursor CTL open perspectives for the development of antigen-based vaccines. In the present study, we determined the CTL reactivity against melanoma-associated peptides derived from Melan A/MART-1, tyrosinase and gp100/Pmel17 in 10 HLA-A2+ melanoma patients and 10 healthy individuals. Then, we examined the immunological effects and toxicity of intradermal inoculation of synthetic melanoma-associated peptides. Six patients with advanced melanoma received weekly intradermal injections of 6 melanoma-associated peptides and the influenza matrix peptide as a control for 4 consecutive weeks. DTH reactions were observed in 5/6 patients at the injections sites of the tyrosinase signal peptide and of the influenza matrix peptide. No toxic side effects were observed. Changes in CTL reactivity after peptide vaccination were assessed by an MLPC assay for each peptide. Generation of peptide-specific CTL was documented against Melan A/MART-1-derived peptide epitopes, the tyrosinase signal peptide and the influenza matrix peptide after vaccination. A decreasing CTL response against the internal tyrosinase peptide was documented in 1 patient through the course of vaccination and a decrease in DTH reactions. No major tumor regressions were observed. Two patients with rapidly progressive disease before vaccination have shown disease stabilization since vaccinations started. In conclusion, our results demonstrate that peptide alone injected intradermally may generate antigen-specific DTH reactions and an increase of antigen-specific CTL reactivity.
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PMID:Generation of cytotoxic T-cell responses with synthetic melanoma-associated peptides in vivo: implications for tumor vaccines with melanoma-associated antigens. 860 5

Melanin biosynthesis is restricted to melanocytes partly as a consequence of transcriptional regulation of the mRNA coding for those enzymes involved in this biochemical pathway. Promoter sequences of these genes may be used to regulate expression of complementary DNA coding for therapeutic genes so as to provide transcriptional targeting. As a model system we have used the 5'-flanking sequences of the murine tyrosinase or tyrosinase-related protein 1 (TRP-1) genes to show that such transcriptional targeting can be accomplished both in vitro and in vivo. Using interleukin-2 (IL-2) as an example of an immunostimulatory gene and herpes simplex virus thymidine kinase (HSVTK), as an example of a prodrug-activating gene we have shown, in murine model systems, that marked antitumour effects can be achieved by targeted gene therapy approaches. Because other tumor types produce particular proteins as a consequence of specific transcription it is possible that this approach may provide a way of targeting therapeutic genes to various cancers.
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PMID:Tissue specific promoters in targeting systemically delivered gene therapy. 860 25

Thiouracil and a few related drugs are known to be melanoma-seeking agents owing to specific incorporation into nascent melanin. The melanin-affinic properties are apparently due to binding to intermediates, preferably dopaquinone, produced in the melanin synthetic pathway by tyrosinase-catalysed oxidation of tyrosine. In the present paper, in vitro screening methods have been used for the identification of possible melanoma seekers according to the above principle. The binding of test substance to dopaquinone suppressed dopachrome formation by the withdrawal of dopaquinone from the reaction of the mixture, and the decrease in dopachrome concentration was monitored spectrophotometrically at 475 nm. In order to eliminate false results caused by tyrosinase inhibition, which also will decrease the dopachrome concentration, the oxygen consumption was followed potentiometrically. To avoid the effect of tyrosinase inhibition on dopachrome formation, additional experiments with autoxidation of L-dopa in the presence of test substance were performed. Of the 22 substances (mainly thioureylenes and thioamides) studied, 4,5,6-triamino-2(H)- pyrimidinehtionsulfate, trithiocyanuric acid, 2-thiouracil, 6-methyl-2-thiouracil, and 4- amino-2-mercaptopyrimidine most effectively decreased the dopachrome formation with no or little inhibition of tyrosinase activity. They should therefore be regarded as potential melanoma seekers. In a complementary autoradiographic study on the uptake of the potent tyrosinase inhibitor mercaptobenzothiazole (MBT) in B 16 melanoma transplanted to mice, it was found that strong tyrosinase inhibition seems to decrease incorporation into melanin in vitro. MBT was partially accumulated in restricted areas of the tumor which may be explained by the molar dose injected.
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PMID:New thioureas and related substances intended for melanoma targeting. 861 70

Antigenic peptides derived from differentiation antigens of the melanocyte lineage were recently identified in human melanomas as targets for MHC-restricted cytotoxic T lymphocytes (CTL). CTL directed against peptides derived from the Melan A/MART-1, tyrosinase and gp100/Pmel17 antigens can be detected in melanoma patients and in healthy controls. The presence of defined antigenic peptides and corresponding precursor CTL in patients with metastatic melanoma opens perspectives for the development of antigen-specific tumor vaccines. In this study, we examined the expression of Melan A/MART-1, tyrosinase and gp100lPmel17 in fresh melanoma tissues of HLA-A2+ patients and the spontaneous CTL reactivity against antigenic peptides derived from these antigens. Our results demonstrate an inverse correlation of antigen expression and CTL response to Melan A/MART-1 and tyrosinase in patients with metastatic melanoma. In 2 patients with advanced disease, CTL responses against Melan A/MART-1 and tyrosinase were induced by intradermal immunization with synthetic nona- or deca-peptides derived from these antigens. Metastases increasing in size over time showed a loss of Melan A/MART-1 expression in the presence of CTL in one patient. The regression of a metastasis with persistent tyrosinase expression was observed in the other patient after the induction of CTL, reactive against tyrosinase. We conclude that CTL responses against melanocyte differentiation antigens may mediate regression of antigen-positive tumors and select for antigen-loss variants in vivo.
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PMID:Inverse relationship of melanocyte differentiation antigen expression in melanoma tissues and CD8+ cytotoxic-T-cell responses: evidence for immunoselection of antigen-loss variants in vivo. 863 62

Human melanoma represents the principal cause of death in patients with skin cancer in the United States and Europe. Tumour infiltrating lymphocytes recognizing melanoma have been used to identify the tumour antigens recognized by T-cells in the context of MHC class I or class II molecules. Such antigens include MAGE-1, MAGE-3, MART-1/Melan-A, gp100, tyrosinase, the tyrosinase-related antigen gp75, the antigen gp15 and the mutated CDK4 and beta-catenin gene-products. The identification of these T-cell epitopes provides us with novel reagents for the development of state-of-the-art treatments and for the (immuno-)monitoring of patients with melanoma. In order for treatments, including peptide-based vaccines, to be successful, several conceptual criteria must be met: (1) The patient's tumour must present the relevant epitope(s) integrated into the vaccine, (2) the tumour should express the appropriate restricting major histocompatibility complex (MHC) molecule(s) required for patient cytotoxic T lymphocyte (CTL) reactivity, and (3) the patient's T-cell repertoire should be able to react productively against the melanoma antigens present in the vaccine. Clinical trials implementing peptide-based vaccines or whole protein therapies have been initiated in the United States and Europe. We suggest that such treatments should include the careful monitoring of anti-tumour T-cell responses. This should include examination of melanoma antigen and MHC class I allele expression in the individual patient's tumour, assessment of the status of the peptide transporter molecules TAP1/TAP2 and evaluation of T-cell mediated immune responses reactive against peptides and autologous melanoma. Evaluation of clinical parameters (such as disease-free survival) in conjunction with an examination of immunological parameters may facilitate our understanding of the immune responses against T-cell antigens that are shared among melanoma and normal melanocytes, and may ultimately help to identify the most effective immunotherapy for patients with melanoma.
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PMID:New treatment options for patients with melanoma: review of melanoma-derived T-cell epitope-based peptide vaccines. 864 65

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