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

Although the high transfection efficiency with adenovirus in vitro is well documented, it is still not clear whether adenoviral vectors are effective in vivo in solid tumor models. In our preliminary experiment, transduction of tumor tissue was limited to just around the injection site after intratumoral injection of the adenoviral vector. To improve the transduction efficiency in vivo, we tried a combination of adenoviral vector and liposome in our animal model. Adenovirus carrying human placental alkaline phosphatase (AdALP) and Lipofectamine or 1,3-di-oleoyloxy-2-(6-carboxyspermyl)-propylamide were used as a marker gene and the cationic liposome, respectively. A >15-fold increase in the transfection efficiency was observed in CT26 tumor cell lines with the combination of AdALP adenovirus carrying murine granulocyte-macrophage colony-stimulating factor (AdmGM-CSF), and liposome compared with adenovirus alone, showing the feasibility of the combination treatment. In the animal model, with the combination of liposome and AdALP, deeper and wider distribution of the marker gene in the tumor mass was shown. We conclude that the limitations of direct application of adenoviral vectors in a solid tumor model could be overcome by the use of cationic liposomes. This approach will facilitate the more effective delivery of adenoviral vectors in a clinical trial setting.
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PMID:Enhancement of adenoviral transduction with polycationic liposomes in vivo. 1105 90

Adenovirus is the most frequently used virus in gene therapy clinical trials. There have been conflicting reports on the ability of adenovirus to transduce primary ovarian cancer samples and the expression of relevant cell surface molecules. These factors were examined using primary ovarian cancer cells cultured from ascites and solid tumor to gain insights into the clinical use of adenovirus in ovarian cancer. The level of transduction of primary cultures was much higher than uncultured cells and established cell lines, and correlated with higher levels of coxsackie-adenovirus receptor (CAR) and integrin expression. Growth of primary cultures in autologous ascitic fluid prevented an increase in CAR expression and inhibited transduction compared with cells treated in supplemented RPMI. Cells at the periphery of solid tumor samples were transduced using a replication-incompetent virus and correlated with CAR expression. However, transduction was abolished by autologous ascitic fluid, despite the expression of CAR. We conclude that the use of adenoviruses for ovarian cancer gene therapy will require testing in the presence of inhibitory factors in ascitic fluid. The clinical use of adenoviral vectors may require circumvention of such inhibitory factors and the use of replication competent adenovirus to enable efficient viral penetration of the cancer.
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PMID:Role of cell surface molecules and autologous ascitic fluid in determining efficiency of adenoviral transduction of ovarian cancer cells. 2053 22

Polyethyleneimine (PEI) is a well-known cationic polymer that has previously been shown to have significant potential to deliver genes in vitro and in vivo. However, PEI is non-degradable and exhibits a high cytotoxicity as its molecular weight increases. The clinical application for systemic administration of adenoviral (Ad) vectors is limited, as these vectors do not efficiently penetrate solid tumor masses due to a common deficiency of Coxsackie Adenovirus Receptor (CAR) on the tumor surface. In this study, we conjugated low molecular weight PEI (Mn = 1,800) to heparin (Mn = 4,000-6,000) to create a new type of cationic degradable nanogel (HPEI) that was then used to modify Ad vectors. The resulting HPEI-Ad complexes were used to infect CT26 and HeLa cells in vitro. Additionally, the HPEI-Ad complexes were administrated in vivo via intravenous injection, and tissue distribution was assessed using luciferase assays; the therapeutic potential of HPEI-Ad complexes for pulmonary metastasis mediated by CT26 cells was also investigated. In vitro, HPEI-Ad complexes enhanced the transfection efficiency in CT26 cells, reaching 36.3% compared with 0.1% of the native adenovirus. In vivo, HPEI-Ad complexes exhibited greater affinity for lung tissue than the native adenovirus and effectively inhibited the growth of pulmonary metastases mediated by CT26 cells. Our results indicate that Ad vectors modified by HPEI nanogels to form HPEI-Ad complexes enhanced transfection efficiency in CT26 cells that lacked CAR, targeted to the lung and demostrated a potential therapy for pulmonary metastasis.
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PMID:Adenoviral vectors modified by heparin-polyethyleneimine nanogels enhance targeting to the lung and show therapeutic potential for pulmonary metastasis in vivo. 2241 75