OBJECTIVES: To evaluate whether a recombinant replication-deficient adenovirus containing the secreted human interferon alpha-2b gene (rAd-IFN) could improve the tissue and urine levels of IFN protein by transducing the urothelium with the secreted human IFN-alpha gene. We also assessed whether varying the interval between rAd-IFN/Syn3 treatments would improve the duration and levels of gene expression. METHODS: The rats received intravesical administration of rAd-IFN at varying concentrations in a formulation containing Syn3, an agent identified that facilitates passage of the adenovirus through the protective barrier of the bladder. Urine was collected daily for 7 days, and human IFN was measured in the urine by enzyme-linked immunosorbent assay. For the redosing studies, the animals received a second dose at varying intervals ranging from 1 to 7 days after the first dose or at longer intervals (30, 60, or 90 days). RESULTS: Rats that received intravesical administration of rAd-IFN in a Syn3 formulation expressed levels of human IFN protein in their urine at peak concentrations of 50,000 to 100,000 pg/mL, but were undetectable by 7 days. Expression was localized to the bladder with only minimal systemic exposure to IFN. Short-term redosing marginally improved the IFN urine concentrations, with maximal levels achieved when a second dose was administered 3 days after a first dose. Although gene expression was attenuated when a second dose was given 5 to 7 days after the first treatment, the levels and duration of IFN expression recovered when the interval was increased to 90 days. CONCLUSIONS: Intravesical treatment with rAd-IFN facilitates high levels of IFN transgene exposure and may be a new approach to treating superficial bladder cancer.
OBJECTIVES: To evaluate whether a recombinant replication-deficient adenovirus containing the secreted humaninterferon alpha-2b gene (rAd-IFN) could improve the tissue and urine levels of IFN protein by transducing the urothelium with the secreted humanIFN-alpha gene. We also assessed whether varying the interval between rAd-IFN/Syn3 treatments would improve the duration and levels of gene expression. METHODS: The rats received intravesical administration of rAd-IFN at varying concentrations in a formulation containing Syn3, an agent identified that facilitates passage of the adenovirus through the protective barrier of the bladder. Urine was collected daily for 7 days, and humanIFN was measured in the urine by enzyme-linked immunosorbent assay. For the redosing studies, the animals received a second dose at varying intervals ranging from 1 to 7 days after the first dose or at longer intervals (30, 60, or 90 days). RESULTS:Rats that received intravesical administration of rAd-IFN in a Syn3 formulation expressed levels of humanIFN protein in their urine at peak concentrations of 50,000 to 100,000 pg/mL, but were undetectable by 7 days. Expression was localized to the bladder with only minimal systemic exposure to IFN. Short-term redosing marginally improved the IFN urine concentrations, with maximal levels achieved when a second dose was administered 3 days after a first dose. Although gene expression was attenuated when a second dose was given 5 to 7 days after the first treatment, the levels and duration of IFN expression recovered when the interval was increased to 90 days. CONCLUSIONS: Intravesical treatment with rAd-IFN facilitates high levels of IFN transgene exposure and may be a new approach to treating superficial bladder cancer.
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Authors: Stephen A Boorjian; Mehrdad Alemozaffar; Badrinath R Konety; Neal D Shore; Leonard G Gomella; Ashish M Kamat; Trinity J Bivalacqua; Jeffrey S Montgomery; Seth P Lerner; Joseph E Busby; Michael Poch; Paul L Crispen; Gary D Steinberg; Anne K Schuckman; Tracy M Downs; Robert S Svatek; Joseph Mashni; Brian R Lane; Thomas J Guzzo; Gennady Bratslavsky; Lawrence I Karsh; Michael E Woods; Gordon Brown; Daniel Canter; Adam Luchey; Yair Lotan; Tracey Krupski; Brant A Inman; Michael B Williams; Michael S Cookson; Kirk A Keegan; Gerald L Andriole; Alexander I Sankin; Alan Boyd; Michael A O'Donnell; David Sawutz; Richard Philipson; Ruth Coll; Vikram M Narayan; F Peter Treasure; Seppo Yla-Herttuala; Nigel R Parker; Colin P N Dinney Journal: Lancet Oncol Date: 2020-11-27 Impact factor: 41.316