ISSN:
1573-904X
Keywords:
α1-acid glycoprotein
;
protein binding
;
dissociation rate
;
species difference
;
physiological model
;
pharmacokinetics
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract Purpose. The extremely low clearance and small distribution volumeof UCN-01 in humans could be partly due to the high degree of bindingto hAGP (1,2). The quantitative effects of hAGP on the pharmacokineticsof UCN-01 at several levels of hAGP and UCN-01 were estimatedin rats given an infusion of hAGP to mimic the clinical situation anda physiological model for analysis was developed. Methods. The plasma concentrations of UCN-01 (72.5–7250 nmol/kgiv) in rats given an infusion of hAGP, 15 or 150 nmol/h/kg, weremeasured by HPLC. Pharmacokinetic analysis under conditionsassuming rapid equilibrium of protein binding and incorporating thedissociation rate was conducted. Results. The Vdss and CLtot of UCN-01 (725 nmol/kg iv) in ratsgiven an infusion of hAGP, 150 nmol/h/kg, fell to about 1/250 and 1/700that in control rats. The Vdss and CLtot following 72.5–7250nmol/kg UCN-01 to rats given 150 nmol/h/kg hAGP were 63.9–688ml/kg and 3.18–32.9 ml/h/kg, respectively, indicating non-linearitydue to saturation of UCN-01 binding. The CLtot estimated by thephysiological model assuming rapid equilibrium of UCN-01 bindingto hAGP, was six times higher than the observed value while the CLtotestimated by the model incorporating koff, measured using DCC, wascomparable with the observed value. Conclusions. These results suggest that the slow dissociation ofUCN-01 from hAGP limits its disposition and elimination.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1007512832006
