Construction of a Physiologically Based Pharmacokinetic Model to Describe the Hepatobiliary Excretion Process of Ligands : Quantitative Estimation of Intracellular Diffusion
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概要
- 論文の詳細を見る
A physiologically based pharmacokinetic model was established to describe the hepatobiliary excretion process for ligands which are excreted into the bile without metabolic conversion. In this model, the following processes were taken into consideration : influx and efflux across the liver sinusoidal membrane, intracellular diffusion, and excretion across the canalicular membrane into the bile. The partial differential equation by which these processes were described was solved to obtain the Laplace transformed solution for the biliary excretion rate of ligands, based on the plasma concentration profiles as an input function. The time profiles for the biliary excretion rate of dibromosulfophthalein (DBSP; 6.80 mg/kg b.w.) or cefodizime (15.0 mg/kg b.w.) after i.v. bolus administration to rats were fitted to the solution using a nonlinear least-squares program based on a fast inverse Laplace transform (MULTI-FILT [Y. Yano et al., Chem. Pharm. Bull., 37,1035 (1989)]) to determine the permeability-surface area product across the plasma membrane as well as the apparent intracellular diffusion coefficient. DBSP and cefodizime were used as model compounds since these two ligands possess different binding characteristics for cytosol protein(s). Although both ligands are present predominantly in the cytosol, DBSP binds to intracellular protein(s) (such as ligandin) to a great extent whereas the protein binding of cefodizime is not so extensive. The fitted lines were superimposed on the experimental results. The calculated intracellular diffusion coefficient (D_<app>) for DBSP (approx. 3.4×10^<-6>cm^2/min) was much lower than that for cefodizime (approx. 2.1×10^<-5>cm^2/min). These D_<app> values were quantitatively accounted for by considering the extent of cytosolic binding of these ligands described previously, based on the assumption that the intracellular diffusion coefficient for bound ligands to the cytosolic protein(s) equals that for the protein(s) (approx. 9.5×10^<-6>cm^2/min). Although we could not determine the absolute values for the transport clearance across the membranes based on this model, kinetic analysis indicated that, in some instances, intracellular diffusion can be a rate determining process for the hepatobiliary excretion of ligands. Simulation studies also suggest that alterations in intracellular binding affect the biliary excretion rate of ligands.
- 公益社団法人日本薬学会の論文
- 1993-03-15
著者
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杉山 雄一
Faculty of Pharmaceutical Sciences, University of Tokyo
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花野 学
College of Pharmacy, Nihon University
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花野 学
College Of Pharmacy Nihon University
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花野 学
東京大学 薬
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安田 佳与子
Faculty Of Pharmaceutical Sciences University Of Tokyo
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杉山 雄一
Faculty Of Pharmaceutical Sciences University Of Tokyo
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SATHIRAKUL Korbtham
Faculty of Pharmaceutical Sciences, University of Tokyo
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鈴木 洋史
Faculty of Pharmaceutical Sciences, University of Tokyo
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花野 学
(Present address)College of Pharmacy, Nihon University
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Sathirakul Korbtham
Faculty Of Pharmaceutical Sciences University Of Tokyo
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/ 鈴木
Faculty of Pharmaceutical Sciences, University of Tokyo
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