The Presence of Human Coxsackievirus and Adenovirus Receptor Is Associated with Efficient Adenovirus-Mediated Transgene Expression in Human Melanoma Cell Cultures

Hemmi, Silvio; Geertsen, Ralf; Mezzacasa, Anna; Peter, Isabelle S.; Dummer, Reinhard

doi:10.1089/hum.1998.9.16-2363

Cited by 203 publications

(183 citation statements)

References 30 publications

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“…29,[41][42][43] Furthermore, downregulation of CAR may be associated with a more malignant phenotype. 44 Due to variable expression of CAR on human primary cancer cells, the utility of Ad5 as a cancer gene therapy vector is compromised, limiting overall efficiency of cancer gene therapy including the use of CRAds.…”

Section: Discussionmentioning

confidence: 99%

Vascular endothelial growth factor promoter-based conditionally replicative adenoviruses for pan-carcinoma application

Takayama

Adachi

et al. 2006

Cancer Gene Ther

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Treatment of advanced lung cancer is one of the major challenges in current medicine because of the high morbidity and mortality of the disease. Advanced stage lung cancer is refractory to conventional therapies and has an extremely poor prognosis. Thus, new therapeutic approaches are needed. Lung tumor formation depends on angiogenesis in which the vascular endothelial growth factor (VEGF) produced by cancer cells plays a pivotal role. Neutralizing VEGF with a soluble VEGF receptor suppresses tumor growth; however, the anticancer effect with this therapy is weakened after the intratumoral vascular network is completed. In this study, we turned the expression of VEGF by tumors to therapeutic advantage using a conditionally replication-competent adenovirus (CRAd) in which the expression of E1 is controlled by the human VEGF promoter. This virus achieved good levels of viral replication in lung cancer cells and induced a substantial anticancer effect in vitro and in vivo. As a further enhancement, the cancer cell killing effect was improved with tropism modification of the virus to express the knob domain of Ad3, which improved infectivity for cancer cells. These VEGF promoter-based CRAds also showed a significant cell killing effect for various types of cancer lines other than lung cancer. Conversely, the VEGF promoter has low activity in normal tissues, and the CRAd caused no damage to normal bronchial epithelial cells. Since tumor-associated angiogenesis via VEGF signalling is common in many types of cancers, these CRAds may be applicable to a wide range of tumors. We concluded that VEGF promoter-based CRAds have the potential to be an effective strategy for cancer treatment.

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Section: Discussionmentioning

confidence: 99%

Vascular endothelial growth factor promoter-based conditionally replicative adenoviruses for pan-carcinoma application

Takayama

Adachi

et al. 2006

Cancer Gene Ther

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“…This variability could be at least partially attributed to the variability in CAR and integrin expression levels that are required for viral uptake into the cells. [76][77][78][79][80][81][82][83][84] To demonstrate suppression of cell growth in the sarcoma cell lines, lower doses of Ad-wtp53 were used so as not to produce an overt cytotoxic effect with massive cell death as seen in our previous experiments. Doses ranging from 0.1 to 0.4 PFU/cell (2-10 PFU/cell for RD) were used and a cell count was performed every 24 hours for 5 days.…”

Section: Discussionmentioning

confidence: 99%

Adenovirus-mediated p53 gene therapy in pediatric soft-tissue sarcoma cell lines: sensitization to cisplatin and doxorubicin

et al. 2004

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Sarcomas, or tumors of connective tissue, represent roughly 20% of childhood cancers. Although the cure rate for sarcomas in general has significantly improved in the last 10 years, there continue to be subgroups that are difficult to treat. High-grade or metastatic soft-tissue sarcomas and rhabdomyosarcomas (RMS) of the extremities remain therapeutic challenges and their prognosis is often poor. The future of sarcoma therapy will likely include molecular approaches including gene/protein expression profiling and gene-based therapy. Most sarcomas harbor defects in the p53 or pRb pathways. The tumor suppressor p53 is central to regulation of cell growth and tumor suppression and restoring wild-type p53 function in pediatric sarcomas may be of therapeutic benefit. Studies with adenoviral-mediated p53 gene transfer have been conducted in many cancer types including cervical, ovarian, prostatic and head and neck tumors. Studies of this approach, however, remain limited in pediatric cancers, including sarcomas. Using three viral constructs containing cDNA for wild-type p53, mutant p53 (C135S) and lacZ, we studied the effect of adenoviralmediated gene therapy in four pediatric sarcoma cell lines, RD and Rh4 (RMS), Rh1 (Ewing's sarcoma) and A204 (undifferentiated sarcoma). Using the MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide) assay, we have shown a dose-dependent decrease in cell viability 72 h post-treatment that occurs with Ad-wtp53 but not with Ad-mutp53. Cells treated with Ad-wtp53 show upregulation of the p53 downstream targets, p21 CIP1/WAF1 and bax. Growth curves demonstrate suppression of cell growth over a period of 4 days and cells treated with Ad-wtp53 demonstrate a significant increase in sensitivity to the chemotherapeutic agents, cisplatin and doxorubicin. Our results indicate that restoration of wild-type p53 function in pediatric sarcoma cells could provide a basis for novel approaches to treatment of this disease.

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“…After attachment, the virion is then internalized by endocytosis through the interaction of its penton base with α v β 3 and α v β 5 integrins on the host cell surface [3]. However, there is growing evidence that the expression of CAR is frequently suppressed in various types of cells, including tumor cells and in primary tumors [4,5], resulting in resistance to adenovirus infection [6][7][8] Unfortunately, technical difficulties may be encountered in production of certain modified adenovectors. We have encountered difficulties when producing certain adenovectors by this method, especially those with RGD-modified fibers or "sticky" virus.…”

mentioning

confidence: 99%

A rapid and efficient method for purification of recombinant adenovirus with arginine–glycine–aspartic acid-modified fibers

Peng¹,

Wu²,

Davis³

et al. 2006

Analytical Biochemistry

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Recombinant adenoviral vectors (adenovectors) have been subject to various genetic modifications to improve their transduction efficiency and targeting capacity. Production and purification of adenovectors with modified capsid proteins can be problematic using conventional two-cycle CsCl gradient ultracentrifugation. We have developed a new method for purifying recombinant adenovectors in two steps: iodixanol discontinuous density gradient ultracentrifugation and sizeexclusion column chromatography. The purity and infectious activity of adenovectors isolated by either method were comparable. The new method yielded three to four times more adenovectors with RGD-modified fiber proteins than did the conventional CsCl method. For other fiber-modified and wild-type adenovectors, the yields of the two methods were comparable. Thus, the iodixanol-based method can be used not only to improve the production of RGD-modified adenovectors, but also to purify adenovectors with or without fiber modifications. Moreover, the whole procedure can be completed in 3 hours. Therefore, this method is rapid and efficient for production recombination adenovectors, especially those with RGD-modified fibers.Adenoviral vectors (adenovectors) have high in vivo transduction efficiencies and are easy to construct and produce. They are thus frequently used for in vitro and in vivo gene delivery and for gene therapy in clinical trials [1] . Substantial efforts have been made to characterize adenovirus-host cell interactions and to improve gene delivery by adenovectors, including minimizing vector gene expression, reducing vector related toxicity and immunogenicity, increasing their capacity to accommodate large foreign genes, and increasing their transduction efficiency.It is now known that adenovirus interacts with host cells by binding to the coxsackievirus and adenovirus receptor (CAR) [2], a cellular receptor for Ad5 and most other adenovirus serotypes. After attachment, the virion is then internalized by endocytosis through the interaction of its penton base with α v β 3 and α v β 5 integrins on the host cell surface [3]. However, there is growing evidence that the expression of CAR is frequently suppressed in various types of cells, including tumor cells and in primary tumors [4,5], resulting in resistance to adenovirus infection [6][7][8] Unfortunately, technical difficulties may be encountered in production of certain modified adenovectors. We have encountered difficulties when producing certain adenovectors by this method, especially those with RGD-modified fibers or "sticky" virus. For example, we have experienced difficulty in purifying various RGD-modified adenoviral vectors by conventional two-cycle (2x) of CsCl ultracentrifugation because the RGD-modified adenoviral vectors tend to aggregate, especially in the second round of ultracentrifugation, forming floccules without a sharp band. This results in a low yield or even failure of purification. Thus, an alternative method for efficient production of these modified adenov...

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The Presence of Human Coxsackievirus and Adenovirus Receptor Is Associated with Efficient Adenovirus-Mediated Transgene Expression in Human Melanoma Cell Cultures

Cited by 203 publications

References 30 publications

Vascular endothelial growth factor promoter-based conditionally replicative adenoviruses for pan-carcinoma application

Vascular endothelial growth factor promoter-based conditionally replicative adenoviruses for pan-carcinoma application

Adenovirus-mediated p53 gene therapy in pediatric soft-tissue sarcoma cell lines: sensitization to cisplatin and doxorubicin

A rapid and efficient method for purification of recombinant adenovirus with arginine–glycine–aspartic acid-modified fibers

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