UMLS:C0001486 - FACTA Search

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

Pancreatic cancer has a poor prognosis even when surgical treatment can be accomplished. Studies have demonstrated that pancreatic cancer is associated with various genetic abnormalities in oncogenes and tumor suppressor genes including p53. New therapeutic approaches for pancreatic cancer can be developed by targeting these genetic alterations. Adenovirus (Adv) lacking the 55-kDa E1B protein (E1B55K) replicates preferentially in p53-deficient cancer cells. We constructed E1B55K-deleted Adv (AxE1AdB), and studied its replication and cytopathic effect on pancreatic cancer cells. AxE1AdB replicated in and caused cell death of the p53-deficient pancreatic cancer cell lines tested (e.g., PANC-1, MIAPaCa-2, SU.86.86, BxPC-3, and PK-1). To enhance its therapeutic effect, we examined the combination of coinfecting this restricted replication-competent adenovirus (RRCA) with other Adv. Coinfection of E1-deficient Adv expressing the reporter lacZ gene (AxCAlacZ) together with AxE1AdB resulted in the replication of both viruses and a marked increase in reporter gene expression. PANC-1 cells coinfected with AxE1AdB and the Adv for human IL-2 (AxCAhIL2), produced 110 times more IL-2 than those infected with AxCAhIL2 alone. Similarly, coinfection of AxE1AdB and Adv for human IL-12 augmented the IL-12 production by 370-fold. Injecting AxE1AdB into the PANC-1 tumor of severe combined immunodeficient mice (SCID mice) resulted in marked reduction of the volume of the tumor. Moreover, injecting AxE1AdB with AxCAhIL2 into the PANC-1 tumor resulted in complete regression of the established tumors. These data suggest that RRCA, which augments the antitumor effect of a viral transgene (i.e., cytokines), may be a powerful tool for treating p53-deficient pancreatic cancer.
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PMID:Effective gene therapy for pancreatic cancer by cytokines mediated by restricted replication-competent adenovirus. 1068 Aug 37

Gliomas express a higher amount of Fas than normal brain tissue. It is of interest to know whether expression of the Fas receptor is unfavorable to the antiapoptotic pathways in gliomas. In this study, we introduced the Fas gene via an adenovirus vector (Adeno-Fas) into the A-172, U251, and U-373 MG glioma cell lines, each of which expresses Fas on the cell surface. Infection of Adeno-Fas induced apoptosis in each glioma cell line. In U251 cells and A-172 cells that express the same level of Fas as a result of infection with Adeno-Fas, a much higher percentage of U251 cells underwent apoptosis than did A-172 cells. This suggests that each glioma cell line has its own threshold of Fas expression, above which apoptosis is induced, and that the constitutive expression of Fas is below the level of this threshold. It was found that the constitutive expression of the anti-apoptotic gene Bcl-X(L) is higher in A-172 cells than in U251 cells. Adenovirus-mediated transduction of the Bcl-X(L) gene into U251 cells effectively suppressed Adeno-Fas-mediated apoptosis. These data indicate that the Bcl-X(L) gene is one of the important determinants of the threshold for Fas-mediated apoptosis. When U251 and U-373 MG cells were transduced with the Fas gene controlled by the myelin basic protein promoter, which had been shown to be active in gliomas but not in neural tissues, the cells underwent markedly enhanced apoptosis. Taken together, these results indicate that the overexpression of Fas alone induced apoptosis in each glioma cell line. The degree of Fas-mediated apoptosis was attenuated by the expression of an anti-apoptotic gene, Bcl-X(L). The adenovirus-mediated induction of Fas gene controlled by a tissue-specific promoter (e.g., myelin basic protein promoter) would be a promising therapeutic approach for malignant glioma.
Cancer Gene Ther 2000 Feb
PMID:Adenovirus-mediated overexpression of Fas induces apoptosis of gliomas. 1077 Jun 30

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.
Cancer Res 2000 Apr 15
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.
Cancer Res 2000 Jun 15
PMID:Inhibition of angiogenesis and induction of apoptosis are involved in E1A-mediated bystander effect and tumor suppression. 1086 97

Adenovirus (Adv)-mediated gene transfer has recently gained new attention as a means to deliver genes for hematopoietic stem cell (HSC) or progenitor cell gene therapy. In the past, HSCs have been regarded as poor Adv targets, mainly because they lack the specific Adv receptors required for efficient and productive Adv infection. In addition, the nonintegrating nature of Adv has prevented its application to HSC and bone marrow transduction protocols where long-term expression is required. There is even controversy as to whether Adv can infect hematopoietic cells at all. In fact, the ability of Adv to infect epithelium-based targets and its inability to effectively transfect HSCs have been used in the development of eradication schemes that use Adv to preferentially infect and "purge" tumor cell-contaminating HSC grafts. However, there are data supporting the existence of productive Adv infections into HSCs. Such protocols involve the application of cytokine mixtures, high multiplicities of infection, long incubation periods, and more recently, immunological and genetic modifications to Adv itself to enable it to efficiently transfer genes into HSCs. This is a rapidly growing field, both in terms of techniques and applications. This review examines the two sides of the Adv/CD34 controversy as well as the current developments in this field.
Cancer Gene Ther 2000 Jun
PMID:Adenovirus as a gene therapy vector for hematopoietic cells. 1088 11

We constructed a series of adenoviral (Ad) vectors that express the Candida albicans cytosine deaminase (CD) suicide gene under the transcriptional control of either the human alpha-lactalbumin (ALA) or ovine beta-lactoglobulin (BLG) promoter (Ad.ALA.CD and Ad.BLG.CD, respectively). The Ad.ALA.CD and the Ad.BLG.CD vectors converted the prodrug 5-fluorocytosine (5-FC) to the toxic nucleotide analog 5-fluorouracil in a breast cancer cell-specific manner, with a conversion rate of 40% and 52% in T47D cells and 50% and 41% in MCF7 cells, respectively. No significant conversion (< or =3%) was observed in an immortalized nontumorigenic breast epithelial cell line (MCF10A) and a human osteosarcoma cell line (U2OS). Adenovirus vector-based prodrug conversion of the 5-FC in T47D and MCF7 in the presence of 1 mg/mL of 5-FC led to cytotoxicity that resulted in a nearly complete cell death (> or =90%) after 5 days, whereas MCF10A and U2OS cells remained resistant (< or =10%). Nude mice harboring T47D-derived breast tumors that were injected intratumorally (i.t.) with therapeutic adenovirus vectors at a dose of 2 x 10(8) plaque-forming units and treated systemically with 5-FC at a concentration of 500 mg/kg/day showed a marked reduction in tumor mass within 30 days when compared with animals that received vector alone. Animal survival was significantly prolonged after 72 days in mice treated with therapeutic vectors in conjunction with prodrug when compared with control animals. These preclinical data are sufficiently promising to warrant further studies of this transcriptional targeting approach to breast cancer treatment.
Cancer Gene Ther 2000 Jun
PMID:Breast cancer-specific expression of the Candida albicans cytosine deaminase gene using a transcriptional targeting approach. 1088 14

Adenovirus expressing herpes simplex virus-thymidine kinase (HSV-TK) sensitizes internal rat glioma cells to radiation in combination with acyclovir (ACV). However, relatively high concentrations of ACV (>10 microM) are required to obtain significant radiosensitization. Serum levels rarely reach more than the lower micromolar range, preventing the full use of this genetic approach to radiosensitize cells in vivo. To better use the lower concentrations of ACV available in sera, we constructed an adenovirus expressing a mutant HSV-TK (HSV-TK(75)) isolated for its approximately 20 times greater sensitivity to ACV than wild-type (wt) HSV-TK. We demonstrate that rat RT2 glioma cells infected with adenovirus AdCMV-TK(75) and exposed to either ACV or ganciclovir become more sensitive to lower concentrations (1-3 microM) of the drugs compared with cells infected with AdCMV-TK(wt), which expresses wt HSV-TK. Most importantly, the RT2 cells become more sensitive to low doses (2-4 Gy) of 60Co radiation than cells infected with an adenovirus expressing wt HSV-TK. This sensitization is accompanied by an increased rate of apoptosis. In summary, we show that infection of rat glioma cells with an adenovirus expressing a mutant HSV-TK sensitizes the cells to low doses of radiation after exposure to ACV at lower concentrations than those required for wt HSV-TK. This finding suggests that this mutant adenovirus may improve the in vivo efficacy of HSV-TK-based cancer gene therapy approaches.
Cancer Gene Ther 2000 Jun
PMID:Improved radiosensitization of rat glioma cells with adenovirus-expressed mutant herpes simplex virus-thymidine kinase in combination with acyclovir. 1088 18

Rapid advances are being made in the engineering of replication-competent viruses to treat cancer. Adenovirus is a mildly pathogenic human virus that propagates prolifically in epithelial cells, the origin of most human cancers. While virologists have revealed many details about its molecular interactions with the cell, applied scientists have developed powerful technologies to genetically modify or regulate every viral protein. In tandem, the limited success of nonreplicative adenoviral vectors in cancer gene therapy has brought the old concept of adenovirus oncolysis back into the spotlight. Major efforts have been directed toward achieving selective replication by the deletion of viral functions dispensable in tumor cells or by the regulation of viral genes with tumor-specific promoters. However, the predicted replication selectivity has not been realized because of incomplete knowledge of the complex virus-cell interactions and the leakiness of cellular promoters in the viral genome. Capsid modifications are being developed to achieve tumor targeting and enhance infectivity. Cellular and viral functions that confer greater oncolytic potency are also being elucidated. Ultimately, the interplay of the virus with the immune system will likely dictate the success of this approach as a cancer therapy.
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PMID:Replicative adenoviruses for cancer therapy. 1088 38

Adenovirus-mediated gene transfer may hold much promise in the treatment of human cancer. However, concerns regarding vector dissemination beyond the target tissue, particularly with replication-competent viruses, require an evaluation of the persistence of viral infection in collateral tissue and vector-associated toxicities. In addition, for indications such as prostate cancer, the proximity of the point of viral administration to organs of the male reproductive system raises concerns regarding inadvertent germ-line transmission of genes carried by the virus. To address these concerns, the biodistribution, persistence, toxicity, and potential of germ-line transmission of a replication-competent adenovirus (Ad5-CD/TKrep) following intraprostatic administration in the mouse was examined. Ad5-CD/TKrep (10(10) vp, 5 x 10(11) vp/kg) was injected intraprostatically on Day 1 of the study and its presence in the major organs of the male urogenital tract (prostate, testes, seminal vesicles, and urinary bladder) and liver was determined on Days 8 and 29. For comparison, a parallel group of animals was injected with the same dose of a related replication-defective Ad5-FGNR virus. To evaluate germ-line transmission, Ad5-CD/TKrep-injected males were mated to females on Days 8 and 29 and resulting embryos were examined for AdS-CD/TKrep viral DNA. Ad5-CD/TKrep viral DNA was detected in all major organs of the adult male urogenital tract and liver 7 and 28 Days postinjection. Interestingly, relative to the replication-defective Ad5-FGNR adenovirus, the replication-competent Ad5-CD/TKrep virus accumulated to a much greater level (approximately 300-fold) and persisted for a longer period of time in prostate, testes, and liver. This difference could not be explained on the basis of differences in viral infectivity, suggesting that the AdS-CD/TKrep virus may be capable of replicating in mouse tissues in vivo. In vitro infection of six mouse cell lines representing prostate, testes, and liver demonstrated that the Ad5-CD/TKrep virus was indeed capable of replicating in these mouse cell types, albeit with reduced efficiencies relative to human cells. Despite the fact that the Ad5-CD/TKrep vector persisted in the adult male gonads and may have replicated in vivo, we observed no evidence of germ-line transmission in 149 offspring examined. To evaluate the toxicity of combining Ad5-CD/TKrep viral therapy with CD/5-FC and HSV-1 TK/GCV suicide gene therapies as a prerequisite for a human trial, an escalating dose (10(8), 10(9), 10(10) vp) of Ad5-CD/TKrep was administered intraprostatically followed by 7 days of 5-FC and GCV double prodrug therapy. Although the virus persisted in the mouse urogenital tract and liver for up to 28 days postinjection, most of the toxicities observed were expected, minimal, and self-limiting. These results lead us to believe that intraprostatic administration of the Ad5-CD/TKrep virus to humans concomitant with double suicide gene therapy will be associated with acceptable toxicities and will not result in vertical transmission of viral-encoded genes through the germ line.
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PMID:Evaluation of the biodistribution, persistence, toxicity, and potential of germ-line transmission of a replication-competent human adenovirus following intraprostatic administration in the mouse. 1093 42

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