UMLS:C0025202 - FACTA Search

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Query: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report virus-free transfer of a "suicide" gene into tumoral cells. The system can be used in vitro or in vivo to induce tumor cell death. A plasmid carrying the herpes simplex virus thymidine kinase (HSV-TK) gene with its 5'- and 3'-flanking regions was used both alone and in liposomes to transduce B16 cells. In vitro, a 5-day treatment with ganciclovir after transfection with the HSV-TK gene in liposomes induced a significant lysis of B16 melanoma cells as assessed by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide test. The efficacy of transfection was determined using liposomes harboring the beta-galactosidase reporter gene and was around 10%. Thus, the cytotoxicity observed resulted presumably from a large bystander effect. In vivo, direct transfer of the TK DNA into established B16 melanoma tumors in C57B6 mice followed by i.p. ganciclovir treatment induced a 50% reduction of tumor weight after 8 days and an increased necrosis. Despite the use of the nonspecific strong TK promoter, no necrosis was detected in normal tissues surrounding the tumor or elsewhere. Thus, this system of tumor transfection, which does not involve any viral vector, is safe and straightforward and seems to be suitable for testing in clinical trials.
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PMID:Virus-free transfer of the herpes simplex virus thymidine kinase gene followed by ganciclovir treatment induces tumor cell death. 981 89

Pulmonary metastases are the main cause of death of patients with several types of cancer, including osteosarcoma, renal cell carcinoma, malignant melanoma, and breast cancer. Previously, we demonstrated that intralesional injection of the recombinant adenovirus (Ad) vector containing the herpes simplex virus thymidine kinase (TK) gene driven by an osteocalcin (OC) promoter (Ad-OC-TK) effectively suppressed the growth of osteosarcoma cells in vitro and tumors in vivo in a tumor-specific manner when supplemented with the prodrug acyclovir (ACV). In this communication, we studied the potential efficacy of the treatment of osteosarcoma pulmonary metastases with a systemic delivery route of Ad-OC-TK supplemented with ACV. We established osteosarcoma lung metastases in nude mice by the intravenous injection of rat osteosarcoma cells, ROS 17/2.8. These cells colonized and formed tumor nodules within 1 week in the lungs of nude mice. Whereas systemic delivery of a recombinant Ad vector containing the Escherichia coli beta-galactosidase (beta-gal) gene driven by a Rous sarcoma virus universal promoter (Ad-RSV-beta-gal) resulted in the nonspecific expression of beta-gal activity in the lung parenchyma, Ad-OC-beta-gal administration resulted in specific beta-gal expression in tumor cells deposited in the lung. When nude mice bearing ROS 17/2.8 lung tumors were treated with systemic Ad-OC-TK through tail vein administration, subsequent intraperitoneal ACV treatment significantly decreased the number of tumor nodules (P < .0001) and the net lung wet weight (P = .0005) while significantly increasing (.005 < P < .01) the survival of animals, when compared with untreated and Ad-OC-TK- or ACV-treated control groups. These results suggest that Ad-OC-TK/ACV may be used as a systemic therapy for the treatment of osteosarcoma lung metastasis.
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PMID:In vivo suppression of osteosarcoma pulmonary metastasis with intravenous osteocalcin promoter-based toxic gene therapy. 982 46

The ability to specifically and efficiently express selected genes in tumor cells is an important goal for cancer gene therapy. Transcriptional targeting of adenovirus to tumor cells, thereby limiting their expression to specific cell types, represents one experimental approach to this problem. We have previously shown that a recombinant adenovirus containing the murine tyrosinase promoter coupled to a dimer of the tyrosinase-enhancer element can target the expression of beta-galactosidase cDNA to melanoma cells. We now report that this same promoter/enhancer cassette can efficiently drive the expression of the herpes simplex virus thymidine kinase gene in melanoma cells. Infection of melanoma cells with the AdmTyr-tk virus along with subsequent ganciclovir treatment induces S phase cell cycle arrest associated with a profound change in cell size and morphology. Treated cells remain viable for prolonged periods, but clonogenic assays demonstrate that the cell cycle arrest is irreversible. In contrast, nonmelanoma cells are unaffected by this treatment regimen, exhibiting normal growth kinetics, metabolic activity, and cell cycle progression. The therapeutic efficacy of the AdmTyr-tk virus was tested in vivo using a xenograft model of human melanoma. The injection of the AdmTyr-tk virus into established subcutaneous tumor nodules in combination with systemic ganciclovir administration led to a decreased tumor growth rate and to complete tumor regressions in some cases. These studies demonstrate the feasibility of selectively targeting growth-inhibitory genes to melanoma cells in vitro and in vivo.
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PMID:Melanoma-specific cytotoxicity induced by a tyrosinase promoter-enhancer/herpes simplex virus thymidine kinase adenovirus. 982 47

We performed a dose-escalating phase I/II study of retrovirus-mediated herpes simplex virus type 1 thymidine kinase (HSV-1-TK) suicide gene therapy for metastatic melanoma. HSV-1 TK expression, which specifically sensitizes transduced and bystander cancer cells to ganciclovir (GCV) toxicity, was mediated by one (four patients, first dose step) to three (four patients, second dose step) injections of "M11" retrovirus vector-producing cells in melanoma cutaneous nodules. After a 7-day period allowed for cancer cell transduction, GCV was administered for 14 days. Safety was assessed by clinical and laboratory evaluations, and efficacy was assessed by tumor measurements and histology. M11 doses ranged from 76 to 1247 x 10(6) cells. Treatment-related adverse events were mild and transient, limited to inflammatory skin reactions at injection and fever on repeated injections. Plasma GCV was in the active range (>0.2 microg/ml); transgene was detected by polymerase chain reaction in three of six patients; treated tumor size was moderately affected under GCV as compared with untreated tumors, although 2 weeks after GCV administration important (>50%) treated-tumor necrosis was evidenced on histology in three of eight patients. All patients showed disease progression on long-term follow-up. Thus, M11-mediated HSV-1 TK gene therapy was well tolerated over a wide dose range. The limited tumor response is likely to be related to poor gene transfer efficiency. However, necrosis following GCV administration in transduced tumors indicates a potential for treatment efficacy.
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PMID:A phase I/II dose-escalation study of herpes simplex virus type 1 thymidine kinase "suicide" gene therapy for metastatic melanoma. Study Group on Gene Therapy of Metastatic Melanoma. 985 25

Some gene therapy applications will require simultaneous expression of multiple gene products to achieve a therapeutic effect. In this study we describe the generation and characterization of replication incompetent herpes simplex virus type 1 (HSV-1) vectors (HX86Z or HX86G) carrying distinct and independently regulated expression cassettes for five transgenes (hIL-2, hGM-CSF, hB7.1, HSV-tk and lacZ or hIFN gamma). The transgenes, representing 12 kb of DNA sequence, were recombined into separate loci of a single mutant virus vector deleted for 11.6 kb of vector sequences representing portions of nine viral genes, ICP4, ICP22, ICP27, ICP47, UL24, UL41, UL44, US10 and US11. Deletion of the immediate--early genes ICP4, ICP22 and ICP27 substantially reduced vector cytotoxicity, prevented early and late viral gene expression and left intact MHC class I antigen expression. Simultaneous expression of multiple transgenes was obtained for up to 7 days in primary human melanoma cells with peak expression at 2-3 days after infection. The transgenes were chosen for their potential to function synergistically in tumor destruction and vaccine gene therapy applications, but the method and vector employed could be applied to other multigene therapy strategies. This study demonstrates the potential for engineering large transgene capacity DNA viruses such as HSV-1 for expression of multiple transgenes.
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PMID:Development of herpes simplex virus replication-defective multigene vectors for combination gene therapy applications. 993 Mar 5

The success of cancer gene therapy is likely to require the targeting of multiple antitumor mechanisms. One strategy involves the use of attenuated, replication-competent virus vectors, such as herpes simplex virus type 1 (HSV-1) mutant G207, which is able to replicate in human tumor cells with resultant cell death and tumor growth inhibition, yet is nonpathogenic in normal tissue. In this study, we demonstrate that infection of established tumors with G207 also induces a highly specific systemic anti-tumor immune response. In a syngeneic, bilateral established subcutaneous tumor model, with mouse CT26 colorectal carcinoma cells in BALB/c mice or M3 melanoma cells in DBA/2 mice, unilateral intratumoral inoculation with G207 caused a significant reduction in the growth of both the inoculated and contralateral noninoculated tumors. This elicited anti-tumor response is dependent on viral infection of the tumor, as intradermal inoculation of G207 in BALB/c mice had no effect on CT26 tumor growth. Treatment of subcutaneous CT26 tumors by intratumoral inoculation of G207 induced a tumor-specific T cell response. CD8+ cytotoxic T lymphocyte (CTL) activity was generated that recognized a dominant "tumor-specific" major histocompatibility complex (MHC) class I-restricted epitope (AH1) from CT26 cells. In immune-competent animals, G207 is acting as an in situ tumor vaccine. Therefore, intratumoral G207 inoculation is able to inhibit tumor growth both by local cytotoxic viral replication in tumor cells and induction of a systemic anti-tumor immune response.
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PMID:Herpes simplex virus as an in situ cancer vaccine for the induction of specific anti-tumor immunity. 1004 91

Varicella-zoster virus (VZV) is an alphaherpesvirus that is the causative agent of chickenpox and herpes zoster. VZV open reading frame 5 (ORF5) encodes glycoprotein K (gK), which is conserved among alphaherpesviruses. While VZV gK has not been characterized, and its role in viral replication is unknown, homologs of VZV gK in herpes simplex virus type 1 (HSV-1) and pseudorabies virus (PRV) have been well studied. To identify the VZV ORF5 gene product, we raised a polyclonal antibody against a fusion protein of ORF5 codons 25 to 122 with glutathione S-transferase and used it to study the protein in infected cells. A 40,000-molecular-weight protein was detected in cell-free virus by Western blotting. In immunogold electron microscopic studies, VZV gK was in enveloped virions and was evenly distributed in the cytoplasm in infected cells. To determine the function of VZV gK in virus growth, a series of gK deletion mutants were constructed with VZV cosmid DNA derived from the Oka strain. Full and partial deletions in gK prevented viral replication when the gK mutant cosmids were transfected into melanoma cells. Insertion of the HSV-1 (KOS) gK gene into the endogenous VZV gK site did not compensate for the deletion of VZV gK. The replacement of VZV gK at a nonnative AvrII site in the VZV genome restored the phenotypic characteristics of intact recombinant Oka (rOka) virus. Moreover, gK complementing cells transfected with a full gK deletion mutant exhibited viral plaques indistinguishable from those of rOka. Our results are consistent with the studies of gK proteins of HSV-1 and PRV showing that gK is indispensable for viral replication.
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PMID:Characterization of Varicella-Zoster virus glycoprotein K (open reading frame 5) and its role in virus growth. 1019 16

A major obstacle to the success of gene therapy strategies that directly target cancer cells is the poor vector distribution within solid tumors. To address this problem, we developed an E1b 55 kDa attenuated, replication-competent adenovirus (Ad.TKRC) which expresses the herpes simplex-1 thymidine kinase (HSVtk) gene to sensitize tumors to ganciclovir (GCV). Efficacy of this combined strategy was tested in nude mice with subcutaneous human A375 melanoma and ME180 cervical carcinomas. Intratumoral injection of a replication-defective adenoviral vector expressing HSVtk (Ad.TK) followed by GCV treatment resulted in doubling of the survival time of mice bearing A375 tumors and 20% long-term survival of mice with ME180 tumors. Treatment of tumors with Ad.TKRC without GCV resulted in a similar antitumor effect, confirming that the replicating vector has an oncolytic effect. When GCV was initiated 3 days after Ad.TKRC injection, survival of mice with each tumor type was greatly prolonged, with 60% of animals with ME180 tumors surviving for over 160 days. These results confirm that both the oncolysis caused by a replicating virus and suicide/prodrug gene therapy with HSVtk/GCV have potent antitumor effects. When combined, these two approaches are complementary resulting in a significantly improved treatment outcome.
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PMID:Adenoviral vectors capable of replication improve the efficacy of HSVtk/GCV suicide gene therapy of cancer. 1034 76

The Fab fragment of monoclonal antibody B4G7 against human epidermal growth factor (EGF) receptor was conjugated with cationic poly-L-lysine and the resulting conjugate was further complexed with reporter genes or therapeutic genes. This Fab/DNA complex was designated as "Fab immunogene." The Fab immunogene transfer in vitro was mediated through the EGF receptors in two melanoma cell lines. The frequency of cells expressing beta-galactosidase (beta-Gal) reporter gene was approximately 1%. The induction of suicide effects after Fab immunogene transfer of herpes simplex virus thymidine kinase (TK) or Escherichia coli cytosine deaminase (CD) gene was quite remarkable, and the growth of melanoma cells was inhibited for over 7 days in the presence of ganciclovir (GCV) or 5-fluorocytosine (5-FC). Similarly, when melanoma cells treated in vitro with the Fab immunogene carrying TK or CD were transplanted into the back of nude mouse, subsequent systemic administration of GCV or 5-FC effectively suppressed the growth of tumors, indicating the occurrence of in vivo suicide effects.
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PMID:Ex vivo delivery of suicide genes into melanoma cells using epidermal growth factor receptor-specific Fab immunogene. 1036 86

Initial studies have demonstrated the therapeutic efficacy for cancer treatment of in vivo transfer of the herpes simplex virus thymidine kinase gene followed by ganciclovir (GCV) treatment. However, recent studies have questioned the validity of this approach. Using retroviral vector-producing cells (VPC) as a source for in vivo gene transfer, we evaluated the efficacy of in vivo transduction of malignant cells using three different tumor cell models: B16 murine and IIB-MEL-LES human melanomas and a C6 rat glioblastoma. In vitro studies showed a bystander effect only in C6 cells. In vivo studies showed an inhibition of tumor growth in the two melanoma models when tumor cells were coinjected with VPC-producing retroviral vectors carrying the herpes simplex virus thymidine kinase gene, followed by GCV treatment; however, 100% of mice developed tumors in both models. Under similar experimental conditions, 70% (7 of 10) of syngeneic rats completely rejected stereotactically transferred C6 tumor cells; most of them (5 of 10) showed a prolonged survival. Treating established C6 tumors with VPC-producing retroviral vectors carrying the herpes simplex virus thymidine kinase gene and GCV led to the cure of 33% (4 of 12) of the animals. Rats that rejected tumor growth developed an antitumor immune memory, leading to a rejection of a stereotactic contralateral challenge with parental cells. The immune infiltrate, which showed the presence of T lymphocytes, macrophages, and polymorphonuclear cells at the site of the first injection and mainly T lymphocytes and macrophages at the site of tumor challenge, strengthened the importance of the immune system in achieving complete tumor rejection.
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PMID:Different efficacy of in vivo herpes simplex virus thymidine kinase gene transduction and ganciclovir treatment on the inhibition of tumor growth of murine and human melanoma cells and rat glioblastoma cells. 1041 54

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