Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0025202 (melanoma)
 69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antiviral drug ganciclovir (GCV) is toxic for mammalian cells transfected with the herpes simplex virus thymidine kinase (HSVtk) gene. To improve the results obtained by our group previously on nonviral transfection of tumor cells, we have examined here in vitro virus-free transfection of murine B16 melanoma cells via lipofectamine-nucleic acid complexes carrying either HSVtk gene transcripts or plasmid DNAs containing single and double copies of the HSVtk gene. The HSVtk gene transcripts as well as plasmids containing the HSVtk gene(s) rendered cells sensitive to GCV treatment. Tumor sensitivity to GCV conferred by the HSVtk gene transcripts was of the same level as the sensitivity conferred by plasmid DNAs containing a single copy of the HSVtk gene. However, when the plasmids containing double copies of the HSVtk gene were used, sensitivity to low GCV concentrations increased dramatically. One could appreciate this finding as an essential advantage of the plasmids containing double copies of the HSVtk gene since it allows use of the GCV concentration range which is common in clinical applications.
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PMID:In vitro sensitization of the B16 murine melanoma cells to ganciclovir by different RNA and plasmid DNA constructions encoding HSVtk. 890 5

We made several generic plasmids for construction of recombinant vaccinia virus (rvv) expressing foreign proteins in high yield. Rvvs expressing biologically active Escherichia coli beta-galactosidase (rvv-lacZ) and the cytokine murine GM-CSF (rvv-mGM-CSF) were constructed by using these plasmids. To obtain attenuated rvv, cDNA for these proteins was inserted in the thymidine kinase gene of vaccinia virus. Their expression was controlled by vaccinia early/late promoter, 7.5 K so that these proteins could be expressed in the infected cells throughout the life cycle of the virus. Female C57BL/6 mice were immunized subcutaneously with B16-F10 melanoma cells infected with rvv, and 2 weeks later challenged with viable B16 cells. Mice immunized with rvv-mGM-CSF showed delay in tumor development, smaller tumor volumes and longer survival time compared with unimmunized mice, as well as mice immunized with rvv-lacZ. Mice immunized with rvv-mGM-CSF followed by a booster injection after 1 week responded slightly better than those immunized once, but this difference was not statistically significant. These results suggested that rvv-mGM-CSF could be a promising vaccine for cancer therapy.
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PMID:Construction of recombinant vaccinia virus expressing GM-CSF and its use as tumor vaccine. 892 12

Gene therapy as an anti-tumor strategy is becoming a powerful tool for cytokine delivery to inhibit the growth of many tumors. Several delivery systems are being utilized and designed for the expression of specific genes to achieve a therapeutic result. Liposomes, retroviral vectors, and adenoviral vectors have all been used and eventual clinical application may depend on the type of tumor, the location, the specific gene carried, and the patient's health status. Novel expression vectors may eventually achieve tissue-specific targeting and low immuno-reactivity. Inactivation of mutated oncogenes, such as ras, or re-expression of inactive suppressor genes, such as p53 have been used as strategies for anti-tumor therapy. Additionally, exogenious genes, such as viral thymidine kinase that metabolize chemotherapeutic agents to achieve local cytotoxicity have also been employed. Neuro-endocrine tumors are targets of these gentic strategies since they are often difficult to treat by conventional methods because of their location (brain tumors) or because they have spread from the primary tumor (melanoma). Further advances in the design of these vectors may achieve safe targeting of a variety of malignant tumors.
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PMID:Anti-tumor gene therapy. 904 51

A recombinant vaccinia virus containing and expressing the gene for murine granulocyte-macrophage colony-stimulating factor (VVGM-CSF) was constructed and tested for its antitumor activity. A murine tumor model was established by injecting 10(5) B16F10 melanoma cells into the right rear leg of C57BL/6 mice. Three days after B16F10 inoculation, VVGM-CSF or a thymidine kinase gene-deficient vaccinia virus (VVTK) were injected intratumorly twice weekly for 3 weeks. The results showed that VVGM-CSF treatment significantly inhibited the growth of subcutaneous tumor and delayed the survival period of tumor-bearing mice. Splenic lymphokine-activated killer cell, natural killer cell, and cytotoxic T lymphocyte activities were not found to be altered after VVGM-CSF or VVTK therapy. Cytotoxic and phagocytic activity of peritoneal macrophages were found to be greatly elevated in mice treated with VVGM-CSF. Nitric oxide released from the macrophages was also increased. Considering these data, we may speculate that continuous secretion of GM-CSF and activation of macrophages may contribute to the antitumor effects of VVGM-CSF injected intratumorally.
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PMID:Intratumoral injection of GM-CSF gene encoded recombinant vaccinia virus elicits potent antitumor response in a mixture melanoma model. 908 Jan 23

The Human Genome Project will identify, map and sequence all 50,000-100,000 human genes and will provide the tools to determine the genetic basis of both common and rare diseases. Understanding the genetic basis of human disease will allow for the development of highly specific drugs and for replacement of the altered gene through gene therapy. Gene therapy may also be used to introduce a new function into cells with resulting therapeutic benefit. Genes may be delivered into cells in vitro or in vivo utilizing viral or nonviral vectors. Viral vectors which have been used include retroviruses, adenoviruses, adeno-associated viruses and herpes viruses. Ocular disorders with the greatest potential for benefit of gene therapy at the current time include hereditary ocular diseases, including retinitis pigmentosa, tumors such as retinoblastoma or melanoma, and acquired proliferative and neovascular retinal disorders. We have demonstrated the feasibility of ocular gene therapy in a rabbit model of proliferative vitreoretinopathy, using retroviral vectors containing the herpes simplex virus thymidine kinase 'suicide' gene. Although in vivo transduction efficiency is low, the strong bystander effect results in prominent killing of proliferating cells in this model leading to inhibition of disease. In the future, gene therapy has the potential for the replacement of defective gene products or introduction of new gene products into ocular cells. The selection of appropriate target genes and cells will be critical, as will the development of a methodology for safe, targeted gene transfer.
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PMID:Ocular gene therapy: experimental studies and clinical possibilities. 932 15

There has been little investigation of bacteria as gene delivery vectors. Here, we demonstrate that genetically engineered Salmonella have many of the desirable properties of a delivery vector, including targeting of multiple tumors from a distant inoculation site, selective replication within tumors, tumor retardation, and the ability to express effector genes, such as the herpes simplex virus thymidine kinase (HSV TK). When wild-type Salmonella were introduced into melanoma-bearing mice, the bacteria were found within the tumor at levels exceeding 10(9) per g, although as pathogens, they caused the death of the mice. However, when attenuated, hyperinvasive auxotrophic mutants were used, the tumor-targeting and amplification phenomena were retained, whereas their pathogenicity was limited. With such attenuated strains, the tumor:liver ratios ranged between 250:1 and 9000:1. When these auxotrophs were inoculated i.p. into C57B6 mice bearing B16F10 melanomas, they suppressed tumor growth and prolonged average survival to as much as twice that of untreated mice. A plasmid containing the HSV TK gene with a beta-lactamase secretion signal was constructed that, when expressed, resulted in translocation to the periplasm and phosphorylation of the prodrug ganciclovir. Melanoma-bearing animals inoculated with HSV TK-expressing Salmonella showed ganciclovir-mediated, dose-dependent suppression of tumor growth and prolonged survival in addition to that seen with bacteria alone. The results demonstrate that attenuated Salmonella would be useful both for inherent antitumor activity and delivery of therapeutic proteins to cancer cells in vivo.
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PMID:Tumor-targeted Salmonella as a novel anticancer vector. 937 66

A recombinant vaccinia virus containing and expressing the gene of murine granulocyte-macrophage colony-stimulating factor (VVGM-CSF) was tested for its antitumor activity. Murine pulmonary metastasis was established by injecting 2 x 10(5) B16F10 melanoma cells into tail vein of C57BL/6 mouse. Three days after B16F10 inoculation, VVGM-CSF or VVTK, a thymidine kinase gene deficient vaccinia virus, was injected intraperitoneally twice weekly for 2 weeks. Two weeks later mice were sacrificed and pulmonary metastasis foci counted. The results showed that VVGM-CSF treatment significantly decreased the number of pulmonary metastasis and prolonged the survival time of tumor-bearing mice (P < 0.01). Cytotoxic and phagocytic activities of peritoneal macrophages were found to be markedly elevated in mice treated with VVGM-CSF. Nitric oxide released from macrophages was also found to be increased. Based on these data, together with our previous results, we may speculate that continuous secretion of GM-CSF and activation of macrophages might partially explain the antitumor effects of VVGM-CSF.
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PMID:[Therapeutic effect of vaccinia virus secreting granulocyte-macrophage colony-stimulating factor on pulmonary metastatic melanoma]. 938 45

In recent years the idea of using gene therapy as a modality in the treatment of diseases other than genetically inherited, monogenic disorders has taken root. This is particularly obvious in the field of oncology where currently more than 100 clinical trials have been approved worldwide. This report will summarize some of the exciting progress that has recently been made with respect to both targeting the delivery of potentially therapeutic genes to tumor sites and regulating their expression within the tumor microenvironment. In order to specifically target malignant cells while at the same time sparing normal tissue, cancer gene therapy will need to combine highly selective gene delivery with highly specific gene expression, specific gene product activity, and, possibly, specific drug activation. Although the efficient delivery of DNA to tumor sites remains a formidable task, progress has been made in recent years using both viral (retrovirus, adenovirus, adeno-associated virus) and nonviral (liposomes, gene gun, injection) methods. In this report emphasis will be placed on targeted rather than high-efficiency delivery, although those would need to be combined in the future for effective therapy. To date delivery has been targeted to tumor-specific and tissue-specific antigens, such as epithelial growth factor receptor, c-kit receptor, and folate receptor, and these will be described in some detail. To increase specificity and safety of gene therapy further, the expression of the therapeutic gene needs to be tightly controlled within the target tissue. Targeted gene expression has been analyzed using tissue-specific promoters (breast-, prostate-, and melanoma-specific promoters) and disease-specific promoters (carcinoembryonic antigen, HER-2/neu, Myc-Max response elements, DF3/MUC). Alternatively, expression could be regulated externally with the use of radiation-induced promoters or tetracycline-responsive elements. Another novel possibility that will be discussed is the regulation of therapeutic gene products by tumor-specific gene splicing. Gene expression could also be targeted at conditions specific to the tumor microenvironment, such as glucose deprivation and hypoxia. We have concentrated on hypoxia-targeted gene expression and this report will discuss our progress in detail. Chronic hypoxia occurs in tissue that is more than 100-200 microns away from a functional blood supply. In solid tumors hypoxia is widespread both because cancer cells are more prolific than the invading endothelial cells that make up the blood vessels and because the newly formed blood supply is disorganized. Measurements of oxygen partial pressure in patients' tumors showed a high percentage of severe hypoxia readings (less than 2.5 mmHg), readings not seen in normal tissue. This is a major problem in the treatment of cancer, because hypoxic cells are resistant to radiotherapy and often to chemotherapy. However, severe hypoxia is also a physiological condition specific to tumors, which makes it a potentially exploitable target. We have utilized hypoxia response elements (HRE) derived from the oxygen-regulated phosphoglycerate kinase gene to control gene expression in human tumor cells in vitro and in experimental tumors. The list of genes that have been considered for use in the treatment of cancer is extensive. It includes cytokines and costimulatory cell surface molecules intended to induce an effective systemic immune response against tumor antigens that would not otherwise develop. Other inventive strategies include the use of internally expressed antibodies to target oncogenic proteins (intrabodies) and the use of antisense technology (antisense oligonucleotides, antigenes, and ribozymes). This report will concentrate more on novel genes encoding prodrug activating enzymes, so-called suicide genes (Herpes simplex virus thymidine kinase, Escherichia coli nitroreductase, E. (ABSTRACT TRUNCATED)
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PMID:Targeting gene therapy to cancer: a review. 940 37

The efficacy of adenovirus-mediated gene therapy for treatment of metastatic B16 melanomas, established in syngeneic C57BL/6 mice, was assessed via an ex vivo cytokine vaccine approach or via an in vivo strategy utilizing combination cytokine/herpes simplex virus-thymidine kinase (HSV-tk) suicide gene delivery and treatment with ganciclovir (GCV). In the ex vivo tumor vaccine approach, B16 melanoma cells, transduced in vitro by adenovirus containing either interleukin (IL)-2, granulocyte-macrophage colony stimulating factor (GM-CSF), or tumor necrosis factor-alpha cytokine genes and gamma irradiated, were subcutaneously injected into the flank and a distant subcutaneous challenge injection of unmodified B16 melanoma cells was performed 15 d later. Significant reductions in challenge tumor volume were observed in the IL-2 group (75% reduction; p = 0.02) and in the GM-CSF group (88% reduction; p = 0.0006), whereas the effect for tumor necrosis factor-alpha was not statistically significant. In the in vivo treatment of established melanomas, this cytokine approach was combined with a suicide gene therapy and subcutaneous B16 melanomas were directly injected with (i) IL-2/recombinant, replication-deficient adenovirus (adv) and thymidine kinase (tk)/adv, (ii) GM-CSF/adv, IL-2/adv, and tk/adv, or (iii) control beta-galactosidase (beta-gal)/adv and tk/adv. After intraperitoneal application of GCV (10 mg per kg) for 6 d, the residual tumor masses were excised and the animals challenged with unmodified B16 cells. Challenge tumor growth was reduced by 56% for the IL-2/tk/adv/GCV treatment (p = 0.041) and by 77% for the GM-CSF/IL-2/tk/adv/GCV treatment p (p = 0.037), in comparison with the beta-gal/tk/GCV control group. These data may hold significant promise for the development of effective ex vivo and in vivo gene therapy modalities to counter the highly metastatic nature of human melanoma.
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PMID:Ex vivo and in vivo adenovirus-mediated gene therapy strategies induce a systemic anti-tumor immune defence in the B16 melanoma model. 962 Feb 91

Mechanism of cell killing by transfer of Herpes simplex virus type-1 thymidine kinase (HSVtk) and subsequent ganciclovir (GCV) treatment was examined in B16F10 murine melanoma model. While parental B16F10 melanoma cells were resistant to GCV at 100 microM or higher, HSVtk-transduced B16F10 melanoma cell clones became susceptible to GCV with IC50 of 0.1 to 0.3 microM. By means of various parameters including characteristic morphological changes, in situ DNA end-labeling, DNA ladder pattern, flow cytometric detection of sub-G1 DNA content, and annexin V binding of inverted cell surface phosphatidylserine, apoptosis was shown to be associated with the cell killing of ganciclovir on HSVtk-transduced melanoma B16F10 cells. Kinetic analysis showed that the signs of apoptosis were observed not until 60 h of continued GCV treatment and preceded first by a rise in p53 protein level in 12 h and then by S-phase/G2-phase cell cycle arrest associated with corresponding increases in the level of cyclin B1 protein but no apparent change in protein level of Bax or Cdc2. These results suggest that apoptosis occurred as a result of ganciclovir-induced cell cycle arrests rather than direct chemical effect on HSVtk-transduced B16F10 melanoma cells.
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PMID:S- and G2-phase cell cycle arrests and apoptosis induced by ganciclovir in murine melanoma cells transduced with herpes simplex virus thymidine kinase. 963 14


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