Delivery of interferon alpha using a novel Cox2-controlled adenovirus for pancreatic cancer therapy

Armstrong, Leonard; Davydova, Julia; Brown, Eric J.; Han, Joohee; Yamamoto, Masato; Vickers, Selwyn M.

doi:10.1016/j.surg.2012.02.017

Cited by 25 publications

(33 citation statements)

References 23 publications

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“…To further enhance the effect of an IFN-expressing adenovirus, our group developed an infectivity-enhanced, conditionally replicative adenovirus (CRAd) that is designed to selectively replicate and spread within pancreatic cancer cells expressing cyclooxygenase 2 (Cox2). The incorporation of the human IFN transgene into the E3 region of the adenovirus genome allows for a high concentration of IFN to be locally produced at the tumor site with each successful cycle of viral replication 21, 22 . To overcome the low infectivity and improve upon the oncolysis of conventional CRAds, the virus was designed to include an Ad5/Ad3 chimeric fiber and overexpression of the adenovirus death protein (ADP).…”

Section: Introductionmentioning

confidence: 99%

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Oncolytic adenovirus expressing interferon alpha in a syngeneic Syrian hamster model for the treatment of pancreatic cancer

LaRocca

Han

Gavrikova

et al. 2015

Surgery

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Background The addition of interferon alpha (IFN) to adjuvant chemoradiotherapy regimens resulted in remarkable improvements in survival for pancreatic cancer patients. However, systemic toxicities and insufficient levels of IFN at the tumor sites have limited its widespread adoption in treatment schemes. We have previously developed an IFN-expressing conditionally replicative oncolytic adenovirus and demonstrated its therapeutic effects both in vitro and in vivo. Here, the same vectors were tested in a syngeneic and immunocompetent Syrian hamster model to better understand the roles of adenoviral replication and of IFN’s pleiotropic effects on pancreatic tumor growth suppression. Methods Oncolytic adenoviruses expressing human or hamster IFN were designed and generated. Viral vectors were tested in vitro to determine qualitative and quantitative cell viability, Cox2 promoter activity, and IFN production. For the in vivo studies, subcutaneous hamster pancreatic cancer tumors were treated with one intratumoral dose of virus. Similarly, one intraperitoneal dose of virus was used to prolong survival in a carcinomatosis model. Results All cell lines tested demonstrated Cox2 promoter activity. The oncolytic potential of a replication competent adenovirus expressing the IFN cytokine was clearly demonstrated. These viruses resulted in significant tumor growth suppression and survival increases compared to controls in a hamster model. Conclusions The profound therapeutic potential of an IFN-expressing oncolytic adenovirus for the treatment of pancreatic cancer was demonstrated in a syngeneic Syrian hamster model. These results strongly suggest the potential application of our viruses as part of combination regimens with other therapeutics.

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Section: Introductionmentioning

confidence: 99%

“…We have recently reported that this infectivity-enhanced, tumor-specific CRAd demonstrated a greatly improved oncolytic effect mediated by IFN overexpression. The virus was effective in both in vitro and in vivo settings, including a human pancreatic cancer xenograft model in nude mice 22 .…”

Section: Introductionmentioning

confidence: 99%

Oncolytic adenovirus expressing interferon alpha in a syngeneic Syrian hamster model for the treatment of pancreatic cancer

LaRocca

Han

Gavrikova

et al. 2015

Surgery

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“…Low CAR levels on target tumor cells have been a limiting factor with certain gene therapy approaches for some time, but modification of the adenovirus capsid proteins has been shown to improve infectivity in both HNSCCs as well as other cancers [33, 34]. Previously, our group has used an Ad5/Ad3 fiber in the setting of adenoviral therapy for pancreatic cancer [27]. Based on this experience, we have applied the same fiber modification to overcome the CAR deficiency for HNSCCs.…”

Section: Discussionmentioning

confidence: 99%

“…Ramon Alemany and Cristina Balgué) were recombined with the pAd-ΔE3-ADP-Luc adenoviral backbone as previously described [26]. Briefly, in the pAd-ΔE3-ADP-Luc structure, most of the non-essential adenovirus E3 genes were deleted (with the exception of the adenovirus death protein (ADP) which is designed to facilitate viral spread and oncolysis) and replaced with the luciferase reporter gene [26, 27]. …”

Section: Methodsmentioning

confidence: 99%

Oncolytic adenoviruses targeted to Human Papilloma Virus-positive head and neck squamous cell carcinomas

et al. 2016

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Objectives In recent years, the incidence of Human Papilloma Virus (HPV)-positive head and neck squamous cell carcinomas (HNSCC) has markedly increased. Our aim was to design a novel therapeutic agent through the use of conditionally replicative adenoviruses (CRAds) that are targeted to the HPV E6 and E7 oncoproteins. Methods Each adenovirus included small deletion(s) in the E1a region of the genome (Δ24 or CB016) intended to allow for selective replication in HPV-positive cells. In vitro assays were performed to analyze the transduction efficiency of the vectors and the cell viability following viral infection. Then, the UPCI SCC 090 cell line (HPV-positive) was used to establish subcutaneous tumors in the flanks of nude mice. The tumors were then treated with either one dose of the virus or four doses (injected every fourth day). Results The transduction analysis with luciferase-expressing viruses demonstrated that the 5/3 fiber modification maximized virus infectivity. In vitro, both viruses (5/3Δ24 and 5/3CB016) demonstrated profound oncolytic effects. The 5/3CB016 virus was selective for only HPV-positive HNSCC cells, whereas the 5/3Δ24 virus killed HNSCC cells regardless of HPV status. In vivo, single injections of both viruses demonstrated anti-tumor effects until only 6–8 days following viral inoculation. However, after four viral injections, there was statistically significant reduction in tumor growth when compared to the control group (p<0.05). Conclusion CRAds targeted to HPV-positive HNSCCs demonstrated excellent in vitro and in vivo therapeutic effects, and they have the potential to be clinically translated as a novel treatment modality for this emerging disease.

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“…Human PC cells that underwent retrovirusmediated gene transfer of IL-2, IL-4, IL-6, IL-27 and granulocyte macrophage-colony stimulating factor (GM-CSF) showed significant retardation and even regression when inoculated into BALB/c nude mice [129,130] . In vivo gene delivery of IL-1β, IL-24, IFN-a, IFN-β and IFN-γ by different viral vectors have been proved to lead to significant tumor growth inhibition in many PC models [131][132][133][134][135] . In addition, combined application of cytokine transfection and traditional chemotherapy, and combining immune genes with either tumor suppressor genes or suicide genes, are also common strategies in cancer immunogen therapy.…”

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confidence: 99%

Gene Therapy for Pancreatic Cancer

Kasuya

Nomoto²,

Kimata³

et al.

SpringerReference

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Core tip: This paper tries to present a full picture of gene therapy in pancreatic cancer, providing an unambiguous classification and comprehensive analysis, especially in therapeutic targets and clinical trials worldwide. From our work, you may find the hotspots in related research and the reason why they get there.Liu SX, Xia ZS, Zhong YQ. Gene therapy in pancreatic cancer. World J Gastroenterol 2014; 20(37): 13343-13368 Available from: URL: http://www.wjgnet.com/1007-9327/full/v20/i37/13343.htm DOI: http://dx.doi.org/10.3748/wjg.v20.i37.13343 INTRODUCTIONPancreatic cancer (PC) is an aggressive and highly lethal malignant disease. The incidence of PC is lower than that of many other types of cancer, but it is the fourth most common cause of death from cancer [1] . PC is highly malignant and invasive, owing to nonspecific incipient symptoms and early metastasis. Most patients have local or metastatic spread at the time of presentation, and less than 15% of patients are candidates for surgery. Therefore, the prognosis of the disease remains poor. Recent statistics from the US National Cancer Institute showed that the overall 5-year relative survival rate for [2002][2003][2004][2005][2006][2007][2008] was 5.8%, and nearly 90% of all patients were dead in 1 TOPIC HIGHLIGHT Gene therapy in pancreatic cancer WJG 20 th Anniversary Special Issues (14): Pancreatic cancerSi-Xue Liu, Zhong-Sheng Xia, Ying-Qiang Zhong year from diagnosis, with a median survival less than 6 mo [2,3] . Surgery is still the first line treatment for PC, because it provides the only curable option. Other adjuvant treatments are chemotherapy, radiotherapy, physiotherapy and biotherapy. However, PC is highly resistant to the currently available chemotherapy and radiotherapy, and it is one of the cancers for which survival rate has not been substantially improved during the past 30 years. Therefore, new effective modalities for the treatment of this disease are urgently required. In recent years, with the outstanding progress of modern molecular biology, tumor immunology and gene engineering technology, tumor biotherapy is becoming a perspective and rapidly developing field of modern medicine, which is expected to improve state of or even cure patients who are not curable by classical methods of therapy.Generally, tumor biotherapy includes immunotherapy and gene therapy, but there is no explicit boundary between them. Gene therapy can be used to transfer genes into tumor cells to render them more highly immunogenic, while cancer immunotherapy utilizes gene engineering technology to produce immunomodulating agents, such as tumor vaccines.Since the first gene therapy clinical trial was approved by the National Institutes of Health in May 1990, significant progress in gene therapy technology has been achieved. In September 2006, a successful immunogene therapy of two patients with metastatic melanoma was reported. Up to July 2013, we have entries for 1970 trials undertaken in 31 countries, and most of them had been aimed at the treatment of cancer...

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Delivery of interferon alpha using a novel Cox2-controlled adenovirus for pancreatic cancer therapy

Cited by 25 publications

References 23 publications

Oncolytic adenovirus expressing interferon alpha in a syngeneic Syrian hamster model for the treatment of pancreatic cancer

Oncolytic adenovirus expressing interferon alpha in a syngeneic Syrian hamster model for the treatment of pancreatic cancer

Oncolytic adenoviruses targeted to Human Papilloma Virus-positive head and neck squamous cell carcinomas

Gene Therapy for Pancreatic Cancer

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