Pharmacokinetics of oncolytic measles virotherapy: eventual equilibrium between virus and tumor in an ovarian cancer xenograft model

Pharmacokinetics of oncolytic measles virotherapy: eventual equilibrium between virus and tumor in an ovarian cancer xenograft model

Because of their ability to replicate, the dose-response relationships of oncolytic viruses cannot easily be predicted. To better understand the pharmacokinetics of virotherapy in relation to viral dose and schedule, we administered MV-CEA intraperitoneally in an orthotopic mouse model of ovarian ca...

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Bibliographic Details
Published in:Cancer gene therapy Vol. 13; no. 8; pp. 732 - 738
Main Authors: Peng, K-W, Hadac, E M, Anderson, B D, Myers, R, Harvey, M, Greiner, S M, Soeffker, D, Federspiel, M J, Russell, S J
Format: Journal Article
Language:English
Published: England Nature Publishing Group 01-08-2006
Subjects:
Animals
Antitumor activity
Carcinoembryonic antigen
Carcinoembryonic Antigen - biosynthesis
Carcinoembryonic Antigen - blood
Care and treatment
Diagnosis
Dose-Response Relationship, Immunologic
Female
Gene expression
Health aspects
Humans
Immunotherapy
Measles
Measles virus
Mice
Oncolysis
Oncolytic Virotherapy
Ovarian cancer
Ovarian Neoplasms - immunology
Ovarian Neoplasms - pathology
Ovarian Neoplasms - therapy
Pharmacokinetics
Properties
Tumor Burden
Tumor cells
Tumor Cells, Cultured
Viruses
Xenograft Model Antitumor Assays
Xenografts
United States
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Summary:Because of their ability to replicate, the dose-response relationships of oncolytic viruses cannot easily be predicted. To better understand the pharmacokinetics of virotherapy in relation to viral dose and schedule, we administered MV-CEA intraperitoneally in an orthotopic mouse model of ovarian cancer. MV-CEA is an attenuated oncolytic measles virus engineered to express soluble human carcinoembryonic antigen (CEA), and the virus is currently undergoing phase I clinical testing in patients with ovarian cancer. Plasma CEA levels correlate with numbers of virus-infected tumor cells at a given time, and were used as a surrogate to monitor the profiles of viral gene expression over time. The antineoplastic activity of single- or multiple-dose MV-CEA was apparent over a wide range of virus doses (10(3)-10(8) TCID(50)), with little reduction in observed antitumor efficacy, even at the lowest tested dose. However, analysis of CEA profiles of treated mice was highly informative, illustrating the variability in virus kinetics at different dose levels. The highest doses of virus were associated with higher initial levels of tumor cell killing, but the final outcome of MV-CEA therapy at all dose levels was a partial equilibrium between virus and tumor, resulting in significant slowing of tumor growth and enhanced survival of the mice.
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ISSN:0929-1903
1476-5500
DOI:10.1038/sj.cgt.7700948