Steve D. Loken scite author profile

Background:Although the naturally occurring reovirus causes only mild symptoms in humans, it shows considerable potential as an oncolytic agent because of its innate ability to target cancer cells. In immunocompromised hosts, however, wild-type reovirus can target healthy tissues, including heart, liver, pancreas and neural structures.Methods:We characterized an attenuated form of reovirus (AV) derived from a persistently infected cell line through sequence analysis, as well as western blot and in vitro transcription and translation techniques. To examine its pathogenesis and oncolytic potential, AV reovirus was tested on healthy embryonic stem cells, various non-transformed and transformed cell lines, and in severe combined immunodeficiency (SCID) mice with tumour xenografts.Results:Sequence analysis of AV reovirus revealed a premature STOP codon in its sigma 1 attachment protein. Western blot and in vitro translation confirmed the presence of a truncated σ1. In comparison to wild-type reovirus, AV reovirus did not kill healthy stem cells or induce black tail formation in SCID mice. However, it did retain its ability to target cancer cells and reduce tumour size.Conclusion:Despite containing a truncated attachment protein, AV reovirus still preferentially targets cancer cells, and compared with wild-type reovirus it shows reduced toxicity when administered to immunodeficient hosts, suggesting the potential use of AV reovirus in combination cancer therapy.

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Morbidity in immunosuppressed (SCID/NOD) mice treated with reovirus (Dearing 3) as an anti-cancer biotherapeutic

Loken¹,

Norman²,

Hirasawa³

et al. 2004

Cancer Biology & Therapy

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KEY WORDSReovirus, SCID mice, cancer biotherapy, distal necrosis, vasculitis, myocarditis ACKNOWLEDGEMENTSThe authors would like to thank Calgary Laboratory Services for salary support (D.J.D.) and assistance with the histology studies. Oncolytics and Dr. Matt Coffey are gratefully acknowledged for their funding of the immunostaining costs of the project. The Patrick Lee laboratory is acknowledged for the gift of SCID mice treated with reovirus, and the anti-reovirus sera. The Don Morris laboratory is also acknowledged for the gift of mouse specimens. Research Paper Morbidity in Immunosuppressed (SCID/NOD) Mice Treated with Reovirus (Dearing 3) as an Anti-Cancer Biotherapeutic ABSTRACTSpecific viral oncolysis of cancer cells has aroused great interest as a potential anti-cancer therapy. Reovirus was proposed as an anti-cancer biotherapeutic several years ago, as it elicits virus-mediated death of human cancer cells both in vitro and in mouse model systems. A common model system for reovirus oncolysis is the NOD/ LtSz-scid/scid (SCID/NOD) immunocomprimised mouse. While human tumour xenografts are effectively killed by intra-tumour injections of reovirus, the mice often exhibit discoloration and necrosis of extremities including feet, distal leg, tail and ears several weeks after injection. This phenomenon never occurs in sham-injected mice, nor is it observed in wild type or nude mice. The pathogenesis of this "Black Foot" lesion has not yet been described, but may be of relevance for future human studies of biotherapeutics.Examination of SCID/NOD mice was performed at various time points following intratumoral injection of reovirus. Immunohistological evaluation of tissues reveals infection of cardiac myocytes and venous endothelial cells at approximately 2 days post infection. Over time, venules and veins showed a mixed inflammatory vasculitis and thrombus formation. Synchronously, the heart showed diffuse myocyte death, with dystrophic calcification. The results indicate that the "Black Foot" syndrome is likely due to venous vasculitis secondary to reovirus infection, on a background of reovirus myocarditis and heart failure. The rationale for the selective susceptibility of venous over arterial endothelium to reovirus infection is currently unknown. The results of this study may be relevant to the use of oncolytic viruses, particularly reovirus, in the anti-cancer therapy of immunosuppressed patients.

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Intrapericardial teratoma in the perinatal period

MacKenzie

Loken

Kalia

et al. 2005

Journal of Pediatric Surgery

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A novel method for freezing and storing research tissue bank specimens

Loken

Demetrick

2005

Human Pathology

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Steve D. Loken

Attenuated reovirus displays oncolysis with reduced host toxicity

Morbidity in immunosuppressed (SCID/NOD) mice treated with reovirus (Dearing 3) as an anti-cancer biotherapeutic

Intrapericardial teratoma in the perinatal period

A novel method for freezing and storing research tissue bank specimens

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