Inefficient killing of quiescent human epithelial cells by replicating adenoviruses: potential implications for their use as oncolytic agents

Vaillancourt, Mei; Atencio, Isabella A.; Quijano, Erlinda; Howe, John A.; Ramachandra, Murali

doi:10.1038/sj.cgt.7700840

Cited by 14 publications

(16 citation statements)

References 18 publications

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“…6A), S + G 2 -M cycling cells constituted 81% of dl309-treated cells, 73% of Internavec-treated cells, and 58% of ONYX-411-treated cells at 96 hours post-infection. These findings were consistent with previous reports (28,29) of E1A and E4 early adenoviral genes overriding the fundamental control of the host cell cycle, forcing progression into the cell cycle. Furthermore, Internavec treatment, but not ONYX-411, produced significantly elevated accumulation of cells in S + G 2 -M phases as compared with untreated cultures at 72 hours (68 F 8.4% versus 52 F 0.4%, n = 3; P = 0.028) and 96 hours (71 F 7.2% versus 49 F 3.8%, n = 3; P = 0.01; mean F SD).…”

Section: Resultssupporting

confidence: 83%

“…The self-limiting disease course of wild-type adenoviral infections in immunocompromised patients is indicative of limited virulence (29). Host cells with viral protein expression are commonly seen post-infection, indicative of an aborted viral replicative process and/or a latent infection state (13,28,29). Coupled with the common defects in apoptotic and IFN-induction pathways in cancer cells, the aborted oncolytic process is an explanation for incomplete clinical responses seen in oncolytic virotherapy trials (14,18).…”

Section: Resultsmentioning

confidence: 99%

“…Currently, the precise mechanism by which a conditional replicative adenovirus effects tumor cell kill is unclear. The self-limiting disease course of wild-type adenoviral infections in immunocompromised patients is indicative of limited virulence (29). Host cells with viral protein expression are commonly seen post-infection, indicative of an aborted viral replicative process and/or a latent infection state (13,28,29).…”

Section: Resultsmentioning

confidence: 99%

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Antitumor Activity of an Oncolytic Adenovirus-Delivered Oncogene Small Interfering RNA

et al. 2006

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Despite successes in animal models, cancer gene therapy with small interfering RNAs (siRNA) is hindered by the lack of an optimal delivery platform. We examined the applicability of the replication-competent, oncolytic adenovirus, ONYX-411, to deliver a mutant K-ras siRNA transgene to human cancer cells. Proof-of-principle studies showed an additive tumor growth-inhibitory response through siRNA-mediated K-ras knockdown and ONYX-411-mediated cancer cell lysis. A novel construct, termed Internavec ( for interfering RNA vector), was generated by cloning a K-ras v12 -specific siRNA ras-4 hairpin construct under the control of the human H1 promoter into the deleted E3b region of ONYX-411. Internavec acquired an increase in potency of f10-fold in human cancer cells expressing the relevant K-ras v12 mutation (H79, H441, and SW480), as defined by a reduction in the effective dose needed to achieve 50% growth inhibition (ED 50 ). Internavec remained attenuated in nonmalignant epithelial cells. Daily intratumoral injections of Internavec ( five daily injections of 1 Â 10 8 plaque-forming units) significantly reduced the growth of s.c. H79 pancreatic cancer xenografts in nu/nu mice by 85.5%, including complete growth suppression in three of five mice. Parental ONYX-411 or ONYX-411-siRNA GFP was markedly less effective (47.8% growth reduction, P = 0.03; and 44.1% growth reduction, P = 0.03, respectively). siRNA ras transgene activity contributed to cell cycle blockage, increased apoptosis, and marked down-regulation of Ras signaling-related gene expression (AKT2, GSK3b, E2F2, and MAP4K5 ). These findings indicate that Internavec can generate a two-pronged attack on tumor cells through oncogene knockdown and viral oncolysis, resulting in a significantly enhanced antitumor outcome.

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Section: Resultssupporting

confidence: 83%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Antitumor Activity of an Oncolytic Adenovirus-Delivered Oncogene Small Interfering RNA

et al. 2006

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“…We preselected the virus Ad5/3 as optimal for our strategy by screening a virus panel and picking a virus with limited cytopathic effect in MPCs and maximum cytopathic effect in the tumor cell line. It has been shown that wild-type adenoviral replicates and kills highly proliferating cells more efficiently and therefore only exerts an attenuated effect on quiescent cells (48). This could explain the lower cytopathic effect rate of adenoviruses on MPCs compared with tumor cells.…”

Section: Discussionmentioning

confidence: 81%

Mesenchymal progenitor cells as cellular vehicles for delivery of oncolytic adenoviruses

Komarova

Kawakami

Stoff-Khalili

et al. 2006

Molecular Cancer Therapeutics

274

224

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Natural and genetically modified oncolytic viruses have been systematically tested as anticancer therapeutics. Among this group, conditionally replicative adenoviruses have been developed for a broad range of tumors with a rapid transition to clinical settings. Unfortunately, clinical trials have shown limited antitumor efficacy partly due to insufficient viral delivery to tumor sites. We investigated the possibility of using mesenchymal progenitor cells (MPC) as virus carriers based on the documented tumorhoming abilities of this cell population. We confirmed preferential tumor homing of MPCs in an animal model of ovarian carcinoma and evaluated the capacity of MPCs to be loaded with oncolytic adenoviruses. We showed that MPCs were efficiently infected with an adenovirus genetically modified for coxsackie and adenovirus receptorindependent infection (Ad5/3), which replicated in the cell carriers. MPCs loaded with Ad5/3 caused total cell killing when cocultured with a cancer cell line. In an animal model of ovarian cancer, MPC-based delivery of the Ad5/3 increased the survival of tumor-bearing mice compared with direct viral injection. Further, tumor imaging confirmed a decrease in tumor burden in animals treated with oncolytic virus delivered by MPC carriers compared with the direct injection of the adenovirus. These data show that MPCs can serve as intermediate carriers for replicative adenoviruses and suggest that the natural homing properties of specific cell types can be used for targeted delivery of these virions. [Mol Cancer Ther 2006;5(3):755 -66]

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“…Conversely, wild-type adenoviral infections of even immunocompromised patients often produced self-limiting disease, which is indicative of the limited virulence of the adenovirus [Vaillancourt et al, 2005;Hogg, 2001]. The expression of viral proteins by the host cell without replication of a complete virus has been well documented in adenovirus-infected host tissues [Elliott et al, 1995;Rao et al, 2004].…”

Section: Oncolytic Viral Delivery Of Transgenes With Oncogene Knockdomentioning

confidence: 99%

Oncolytic viral therapy for human cancer: Challenges revisited

Tong

2005

Drug Dev. Res.

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Conditional replicative, oncolytic adenoviruses are genetically modified to replicate primarily in malignant cells with oncogenetic defects, selectively killing cancer cells in the process. Viral progenies released within the tumor microenvironment can penetrate, infect, and destroy additional cell layers of the solid tumor mass. Much excitement has been generated over the clinical successes of ONYX-015 adenovirus treatment for advanced head and neck cancer, pancreatic carcinoma, and metastatic colorectal carcinoma at the locoregional level. However, follow-up trials with systemic viral administration have not met initial expectations. This review examines recent basic science developments that may potentially overcome the two key limitations of systemic virotherapy, namely, suboptimal tumor oncolysis and pharmacokinetic shortcomings due to rapid viral clearance. Late-generation constructs incorporate alternative viral backbone modifications and antitumor transgenes to enhance oncolytic potency. Furthermore, altered viral tropism, through masking or substitution of viral surface components, is likely to promote tumor-selective targeting and safety. Merits of these approaches in the clinical arena are discussed. Drug Dev.

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Inefficient killing of quiescent human epithelial cells by replicating adenoviruses: potential implications for their use as oncolytic agents

Cited by 14 publications

References 18 publications

Antitumor Activity of an Oncolytic Adenovirus-Delivered Oncogene Small Interfering RNA

Antitumor Activity of an Oncolytic Adenovirus-Delivered Oncogene Small Interfering RNA

Mesenchymal progenitor cells as cellular vehicles for delivery of oncolytic adenoviruses

Oncolytic viral therapy for human cancer: Challenges revisited

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