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:C0001486 (Adenovirus)
3,125 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Efficacy and toxicity of adenovirus-mediated transfer of the herpes simplex virus thymidine kinase gene followed by administration of ganciclovir were studied in vivo. A human epithelial ovarian cancer animal model was established in nude mice using the serous ovarian adenocarcinoma cell line Ov-ca-2774. Intraperitoneal (ip) injection of 1 x 10(8) Ov-ca-2774 cells resulted in tumor growth and formation of malignant ascites in all 15 animals. In a prospective randomized experimental design mice were treated 1, 3, or 7 days after ip injection of 1 x 10(8) cells with ip injection of 2 x 10(8), 6.7 x 10(8), or 2 x 10(9) pfu ADV.RSV-TK followed by administration of ganciclovir (10 microgram /ml, ip, bid) for 6 consecutive days. End points were survival and toxicity. Mice treated with GCV or HSV-TK alone died from 14.4 +/- 1.7 to 19.5 +/- 3.5 days after treatment as did untreated controls. No toxicity of ADV.RSV-TK was found up to 2 x 10(9) pfu (2 x 10(11) particles). The mice with the highest tumor burden treated with the lowest viral dose lived significantly longer than controls (P < 0.05). Median survival in all other groups of mice treated with ADV.RSV-TK plus GCV was even longer (P < 0.01). Treatment benefit was dependent on ADV/RSV-TK dose and tumor burden. Adenovirus-mediated thymidine kinase gene therapy is a realistic approach to ovarian cancer treatment that warrants investigation in the clinical setting.
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PMID:In vivo gene therapy of ovarian cancer by adenovirus-mediated thymidine kinase gene transduction and ganciclovir administration. 862 29

Adenovirus-mediated transduction of the herpes simplex thymidine kinase gene (HSV-tk) in conjunction with ganciclovir (GCV) has been shown to result in significant growth suppression and to enhance survival in a model of mouse prostate cancer. However, this therapeutic activity is not sustained, because in most cases tumors eventually regrow and ultimately cause the death of the host. Androgen ablation, an inducer of apoptosis in prostate cells which is used widely as palliative therapy in patients with prostate cancer, was combined with HSV-tk plus GCV using an androgen-sensitive mouse prostate cancer cell line. The combination of castration and HSV-tk plus GCV led to markedly enhanced tumor growth suppression in both subcutaneous and orthotopic models compared with either treatment alone and resulted in an enhanced survival in which combination-treated animals lived twice as long as controls in the subcutaneous model and over 50% longer than controls in the orthotopic model. Further analysis of apoptotic activity demonstrated high levels of apoptosis only in combined androgen ablation and HSV-tk plus GCV-treated tumors after 14 days of growth in an androgen-depleted environment and 8 days after HSV-tk plus GCV therapy. At this time, the apoptotic index, but not the percent of necrotic tissue, was significantly higher for combination therapy-treated tumors relative to control-treated tumors or either treatment alone. These data indicate that the therapeutic effects of androgen ablation and HSV-tk plus GCV are cooperative and that increased apoptosis may, in part, underlie these activities.
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PMID:Cooperative therapeutic effects of androgen ablation and adenovirus-mediated herpes simplex virus thymidine kinase gene and ganciclovir therapy in experimental prostate cancer. 1007 64

The immune system confers protection against a variety of pathogens and contributes to the destruction of neoplastic cells. Foreign major histocompatibility complex (MHC) protein serves as a potent stimulus to the immune system. In this report, a mouse H-2Kb gene was introduced into two poorly immunogenic tumor cell lines, a mouse colonic carcinoma cell line, MCA-26 (H-2Kd), and a rat mammalian carcinoma cell line, LN-4, in an effort to stimulate tumor rejection. Our results showed that the expression of xenogeneic MHC class I antigen completely abolished the LN-4 tumorigenicity in rats, whereas the expression of allogeneic MHC class I antigen only partially reduced the MCA-26 tumorigenicity in mice. Rats with tumor regression of LN-4/H-2Kb developed a T helper type 1-dominant response, whereas rats with LN-4 tumor growth developed a T helper type 2-dominant response. The immunized rats that experienced LN-4/H-2Kb tumor regression further developed protective immunity against a subsequent challenge of LN-4 cells. This protective immunity was mediated by the LN-4 tumor-specific cellular immune response against both the transduced and the parental LN-4 cells. Recombinant adenoviral vectors are highly efficient at in vitro and in vivo gene delivery. The LN4 cells transfected with the recombinant adenovirus AdV-H-2Kb in vitro expressed the cell surface H-2Kb molecule by fluorescence-activated cell sorter analysis. Adenovirus-mediated H-2Kb gene transfer in vivo can further significantly inhibit pre-established LN-4 tumors. Those rats with complete tumor regression further developed protective immunity against the subsequent challenge of a parental LN-4 tumor. Therefore, our study indicates that the adenovirus-mediated transfer of xenogeneic MHC class I gene may be an effective alternative to the current protocol of cancer gene therapy in which the allogeneic MHC class I gene is used.
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PMID:Adenoviral transfer of xenogeneic MHC class I gene results in loss of tumorigenicity and inhibition of tumor growth. 1067 54

Antiangiogenic therapy shows promise as a strategy for cancer treatment. We constructed an adenovirus (AdVEGF-ExR) expressing the entire extracellular domain of the human vascular endothelial growth factor (VEGF) receptor (flt-1) fused to the Fc portion of human IgG. The soluble receptor secreted from AdVEGF-ExR-infected cells bound to VEGF and inhibited VEGF-induced DNA synthesis in endothelial cells. When human lung cancer cell line H157, which produces not only VEGF but also fibroblast growth factor 2 and interleukin 8 at substantial levels, was infected with AdVEGF-ExR, cell growth in vitro was not affected. However, when H157 cells infected with AdVEGF-ExR were injected s.c. into nude mice, tumor formation stopped on the 10th day after reaching a certain size (about 100 mm3), and tumor size declined gradually thereafter. When AdVEGF-ExR was injected into skeletal muscle and uninfected H157 cells were injected s.c., the soluble receptor was detectable in the circulating blood for 3 weeks, tumor growth ceased after 10 days, and tumor size declined thereafter. Histological examination revealed that intratumor angiogenesis was markedly suppressed, and apoptosis was enhanced. Using the same experimental protocol, a significant suppression of tumor growth was also seen in four of five other lung cancer cell lines, some of which secreted VEGF at nominal levels, at least under normoxic conditions in vitro. Our results demonstrate that adenovirus-mediated expression of a soluble VEGF receptor in a remote organ could inhibit tumor angiogenesis and enhance apoptosis and thereby suppress tumor growth in vivo. Adenovirus-mediated overexpression of a soluble VEGF receptor in a remote organ may have the potential to be a feasible and effective strategy for cancer treatment.
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PMID:Suppression of tumor angiogenesis and growth by gene transfer of a soluble form of vascular endothelial growth factor receptor into a remote organ. 1078 81

Adenovirus-p53-mediated apoptosis has been extensively evaluated in animal xenografts derived from human epithelial tumors and recently began testing in phase I clinical trials, but has not been evaluated for lymphoid malignancies. Cell lines derived from anaplastic large cell lymphoma (ALCL) carrying the t(2;5) translocation are efficiently transduced by adenoviral vector expressing p53 and undergo apoptosis. To test the in vivo efficiency of adenovirus-mediated-p53 expression and apoptosis induction, SUDHL-1 cells (derived from human ALCL) were injected subcutaneously into athymic nude mice. Cells from the xenograft had typical morphology of human ALCL by standard hematoxylin-eosin staining, CD5+, CD45+ and CD30+ immunophenotype, the t(2;5) translocation by PCR. Six tumors from an initial set of mice were evaluated for apoptosis by TUNEL and for necrosis by hematoxylin-eosin staining 48-72 h after injection with 1 x 108 p.f.u. of AdWTp53 (adenoviral vector expressing p53), of AdNull (adenoviral vector backbone) and PBS (mock), respectively. TUNEL staining was positive only in tumors injected with AdWTp53 and was mainly localized around the needle track. Differences of the means of the counts of the necrotic cells were statistically significant at P = 0.02 between AdWTp53 and mock and only borderline between AdWTp53 and AdNull. Twenty-three tumors from a separate set of mice were subsequently injected with AdWTp53, AdNull and PBS and evaluated for in vivo tumor response. Three total injections of viral vectors (1 x 108 p.f.u.) and PBS were given every 48-72 h. Only tumors injected with AdWTp53 showed tumor growth inhibition with a mean final tumor volume that was statistically significantly smaller than AdNull (P = 0.007) and mock (P = 0.002). Based on these results we foresee a potential application of adenovirus-mediated p53 apoptosis as gene therapy of lymphomas.
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PMID:Adenovirus-p53-mediated gene therapy of anaplastic large cell lymphoma with t(2;5) in a nude mouse model. 1084 52

Adenovirus type 5 E1A has been implicated in mediation of tumor suppression. Preclinical gene therapy studies have additionally shown that complete growth suppression can be achieved by incomplete transfer of E1A into tumors, suggesting that a bystander effect may also be associated with E1A. In this study, we investigated the E1A-mediated bystander effect and the mechanisms that may be associated with it. By s.c. inoculating nude mice with a mixture of E1A transfectants and parental cells, we found that the E1A transfectants exhibited a bystander effect on inhibition of tumor growth. We further showed that E1A mediated suppression of angiogenesis and induction of apoptosis in the tumors, likely contributing to the bystander effect. In addition, coculture of E1A transfectants and parental cells in a Transwell unit led to growth retardation and apoptosis mediated by the supernatant in the parental cells, indicating that a secreted factor may also contribute to the bystander effect. Taken together, our results suggested that E1A mediates a bystander effect on tumor suppression by inhibiting angiogenesis and inducing apoptosis.
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PMID:Inhibition of angiogenesis and induction of apoptosis are involved in E1A-mediated bystander effect and tumor suppression. 1086 97

The purpose of this study was to determine the efficacy of adenovirus-based p53 gene therapy in the treatment of ovarian cancer using an intraperitoneal microscopic tumor animal model system. Adenovirus-mediated wild-type p53 gene was introduced into the NIH:OVCAR-3 human ovarian cancer cell line in vitro and in vivo. In order to study microscopic intraperitoneal tumor, athymic nude mice were inoculated intraperitoneally (i.p.) with 1 x 107 OVCAR-3 cells and observed for tumor growth. Three days after inoculation with OVCAR-3 cells, the mice were divided into 3 treatment groups. One group received three daily i.p. injections of 1 x 108 pfu Ad-CMV-p53, a second group received three daily i.p. injection of 1 x 108 pfu of the control adenovirus construct expressing beta galactosidase (Ad-CMV-betagal) and a third group received three daily i.p. injections of normal saline. Adenovirus-mediated introduction of the wild-type p53 gene in the ovarian cancer cell line resulted in transient high levels of p53 protein for 24-48 h. Cell cycle analysis revealed G1 arrest, as well as the appearance of apoptosis. In vitro cell growth assays showed growth inhibition of cancer cells infected with Ad-CMV-p53 compared to cells infected with Ad-CMV-betagal or normal saline. There was a significant increase in survival in the Ad-CMV-p53 adenovirus treated animals compared to the PBS treated animals (P = 0.004). Likewise, the survival in Ad-CMV-p53 treated mice was also significantly greater than mice treated with Ad-CMV-betagal (P < 0.0001). These results demonstrated that Ad-CMV-p53 treatment is effective in inhibiting tumor growth and prolonging survival in this microscopic cancer xenograft model. The results of this study constitute a step in translating promising in vitro and in vivo data from an adenovirus-based gene therapeutic model system into practical and scientifically based human cancer therapeutic trials.
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PMID:Efficacy of intraperitoneal adenovirus-mediated p53 gene therapy in ovarian cancer. 1124 Jul 95

The aim of this study was to investigate therapeutic efficacy of adenovirus-mediated E1a gene therapy for ovarian cancer in vitro and in vivo. Recombinant replication-deficient adenoviral vectors were prepared by superinfection of 293 cells, and then purified. The efficacy of the adenovirus vector system to infect ovarian cells was tested using different multiplicity of infection (MOI) and different times (1-4) of Ad.RSVlacZ. SKOV-3 cells (10(3) per well) were infected once with 2 x 10(4) adenovirus. The cells were harvested and counted on different days for 7 days to generate the in vitro growth curve. Tumor-bearing mice were injected intraperitoneally with ovarian cancer cells and treated by intraperitoneal injection of 100 microl (2.5 x 10(8) PFU) viral solution containing either replication-deficient Ad.E1a(+); control virus Ad.E1a(-) which is the same adenovirus as Ad.E1a(+) except for E1a deletion, or just phosphate buffered solution. The transduction efficacy increased with higher MOI and reached a plateau at the 20:1 ratio. When Ad.E1a(+) was used to transduce the HER-2/neu overexpressing human ovarian cancer cell line SKOV-3, tumor cell growth in vitro was greatly inhibited by E1a transduction. Also, Ad.E1a+ greatly inhibited tumor growth of SKOV-3-bearing mice. Immunohistochemistry analysis indicated that Ad.E1a protein was expressed in tumor tissue and expression of HER-2/neu p185 protein was suppressed. Very strong beta-gal staining was detected in tumors, and beta-gal activity in small intestine, lung, heart, stomach, liver, and kidney was detected. No beta-gal activity was detected in the tumor and other organs in control mice injected with Ad.E1a(-) or PBS. Adenovirus-type 5 E1a gene can efficaciously inhibit HER-2/neu-overexpressing ovarian cancer, and this promising procedure could greatly benefit ovarian cancer patients with high expression of HER-2/neu.
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PMID:Adenovirus 5 E1a-mediated gene therapy for human ovarian cancer cells in vitro and in vivo. 1128 29

It has been shown that intratumor administration of an adenovirus vector expressing IL-12 produces a potent T cell-mediated response that leads to significant tumor regression in a murine breast cancer model. IP-10 and MIG are CXC chemokines that recruit mononuclear cells in vivo. In addition to their chemotactic roles, IP-10 and MIG inhibit angiogenesis. We tested whether the addition of IP-10 or MIG may both enhance the antitumor immune response of IL-12 through T cell recruitment and inhibit tumor growth through angiostasis. Adenovirus vectors expressing IP-10 or MIG and/or IL-12 were administered intratumorally in a murine model of mammary adenocarcinoma and fibrosarcoma. Administration of IP-10 or MIG in combination with IL-12 resulted in considerable tumor regression and increased survival time of tumor-bearing animals as compared with IP-10, MIG, IL-12 alone or control-treated animals, with the IP-10 IL-12 combination being most effective. These results suggest augmenting the antitumor immune response and inhibiting tumor angiogenesis with adenoviral vectors expressing IP-10 in combination with IL-12 is a novel way to enhance tumor regression.
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PMID:Combined CXC chemokine and interleukin-12 gene transfer enhances antitumor immunity. 1131 2

Adenovirus (Ad) gene transfer vectors traffic to regional lymph nodes (RLNs) after footpad injections in mice, resulting in localized production of interferon gamma (IFN-gamma). With this background, we evaluated the hypothesis that Ad vector administration may inhibit RLN tumor metastasis independent of the transgene in the expression cassette. Tumors of MM48, a cell line with a propensity toward lymphogenous metastasis, were established in the footpads of syngeneic C3H mice, and E1(-)E3(-) Ad vectors encoding no transgene (AdNull) or encoding an irrelevant transgene (AdCD; Escherichia coli cytosine deaminase with no 5-fluorocytosine administration) were administered (10(10) particles) in a peritumoral location. Both vectors suppressed the growth of tumor in the regional (popliteal) lymph node. This effect was localized to the regional, but not distant, lymph nodes (p < 0.05). Heat inactivation of the vector or decreasing the dose of the vector to 10(9) particles did not suppress RLN growth of the tumor when compared with 10(10) particles of active AdNull (p < 0.05 and p < 0.01, respectively). The ability of an E1(-)E4(-) vector expressing beta-galactosidase (AdRSVbetagal.11) to suppress RLN tumor growth showed that the E4 region of the Ad vector was not responsible for the effect. Blocking either IFN-gamma or natural killer (NK) cells with systemic antibody treatment in immunocompetent mice allowed rapid growth of RLN metastases despite Ad vector administration, and Ad vector injection into the footpads of tumor-free mice induced the accumulation of NK cells in the RLN. These data demonstrate that, in a metastatic murine tumor model, a low dose (10(10) particles) of replication-deficient Ad vectors inhibits RLN metastases independent of a therapeutic transgene, an effect that is mediated, at least in part, by IFN-gamma and NK cells.
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PMID:Adenovirus gene transfer vectors inhibit growth of lymphatic tumor metastases independent of a therapeutic transgene. 1153 67


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