Effect of a protein binding change on unbound and total plasma concentrations for drugs of intermediate hepatic extraction.

Abstract

For substances eliminated from blood by the liver, the effect of a change in unbound fraction of drug (fu(b)) on steady state total (Cb) and unbound (Cu(b)) blood concentrations has hitherto only been considered for the two limiting cases, i.e., at the upper and lower extremes of hepatic intrinsic clearance (CL(int)). For a substance of very low CL(int), if fu(b) changes, Cb will change and Cub will remain constant, whereas if CL(int) is very high, Cub will change and Cb will remain constant. The present study defines the effects of a change in fu(b) on Cb and Cub over the whole CL(int) range. Computer simulations were undertaken which predicted that, for a given change in fu(b), absolute and relative changes in Cb would decrease nonlinearly with increasing CL(int), while the relative change in Cub would increase with CL(int). The absolute change in Cub would be independent of CL(int). Significant changes in Cb and Cub would be observed at intermediate values of CL(int) not just at the high and low extremes. These theoretical predictions were investigated experimentally in the isolated perfused rat liver by examining the effects of a change in fu(b) of sodium taurocholate a substance with intermediate CL(int) (such that at fu(b) = 0.27, hepatic extraction ratio = 0.71) induced by concurrent administration of sodium oleate. Sodium 24-14 C-taurocholate (specific activity 52 microCi/mmol) was infused into the reservoir in a recycling system at 30 mumol/hr for 105 min (n = 6). At 45 min a bolus dose of sodium oleate (50 mmol) was administered to the reservoir, followed by a constant infusion of 143 mmol/hr for 1 hr. Following the administration of oleate, taurocholate fu(b) fell promptly by 55% (0.27-0.12). There was a relative increase of taurocholate Cb of 22.7% and a relative decrease in Cub of 45.4%, in accordance with the simulations (p less than 0.05). We conclude that important changes in unbound steady-state concentration, the pharmacologically active moiety, can occur upon changes in unbound fraction with compounds of intermediate hepatic intrinsic clearance.