PURPOSE: Repeated administration of exogenous proteinic compounds triggers the production of specific antibodies. This reaction is limits not only pharmacokinetic studies in animal but also development of human or humanized proteins as drugs. We investigated the effect of co-administration of tacrolimus on pharmacokinetic of human interferon-alpha (h-IFN) following multiple subcutaneous administration in rats. METHODS: h-IFN was administered at a dose of 5 million IU/kg. For some experiments, tacrolimus was also either subcutaneously or intravenously injected in rats at a dose of 0.001 or 0.5 mg/kg as well as with administration of h-IFN. RESULTS: Multiple administration of h-IFN without co-administration of tacrolimus induced IgG response at 2 or 3 weeks following first administration in the short dosing interval (daily, once per 3 days, or once per a week), irrespective of the dosing interval. Both intravenous and subcutaneous administration of tacrolimus (0.5 mg/kg) with multiple h-IFN injections successfully suppressed IgG response against h-IFN. Interestingly, in lower doses (0.001 mg/kg), intravenous co-administration of tacrolimus showed much stronger suppressive effect than subcutaneous co-administration. CONCLUSION: Intravenous co-administration of tacrolimus (0.001 mg/kg) may be a promising way to assess crossover pharmacokinetic study of human or humanized proteinic formulations with multiple dosing schedules in an experimental animal.
PURPOSE: Repeated administration of exogenous proteinic compounds triggers the production of specific antibodies. This reaction is limits not only pharmacokinetic studies in animal but also development of human or humanized proteins as drugs. We investigated the effect of co-administration of tacrolimus on pharmacokinetic of human interferon-alpha (h-IFN) following multiple subcutaneous administration in rats. METHODS: h-IFN was administered at a dose of 5 million IU/kg. For some experiments, tacrolimus was also either subcutaneously or intravenously injected in rats at a dose of 0.001 or 0.5 mg/kg as well as with administration of h-IFN. RESULTS: Multiple administration of h-IFN without co-administration of tacrolimus induced IgG response at 2 or 3 weeks following first administration in the short dosing interval (daily, once per 3 days, or once per a week), irrespective of the dosing interval. Both intravenous and subcutaneous administration of tacrolimus (0.5 mg/kg) with multiple h-IFN injections successfully suppressed IgG response against h-IFN. Interestingly, in lower doses (0.001 mg/kg), intravenous co-administration of tacrolimus showed much stronger suppressive effect than subcutaneous co-administration. CONCLUSION: Intravenous co-administration of tacrolimus (0.001 mg/kg) may be a promising way to assess crossover pharmacokinetic study of human or humanized proteinic formulations with multiple dosing schedules in an experimental animal.
Authors: T Kino; H Hatanaka; S Miyata; N Inamura; M Nishiyama; T Yajima; T Goto; M Okuhara; M Kohsaka; H Aoki Journal: J Antibiot (Tokyo) Date: 1987-09 Impact factor: 2.649
Authors: T Kino; H Hatanaka; M Hashimoto; M Nishiyama; T Goto; M Okuhara; M Kohsaka; H Aoki; H Imanaka Journal: J Antibiot (Tokyo) Date: 1987-09 Impact factor: 2.649
Authors: Victor E Buckwold; William Lang; Curtis Scribner; Dennis Blanchett; Tom Alessi; Peter Langecker Journal: Basic Clin Pharmacol Toxicol Date: 2006-07 Impact factor: 4.080
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