Manabu Hanano scite author profile

To examine whether the relatively selective inhibition of hepatic cholesterol synthesis by the hydrophilic 3-hydroxyl-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor pravastatin in vivo may be due to the existence of a specific uptake mechanism in the liver, the uptake by isolated rat hepatocytes was investigated. The uptake was composed of a saturable component [Michaelis constant (Km) 29 microM, maximal uptake rate 546 pmol.min-1.mg-1] and nonspecific diffusion (nonspecific uptake clearance 1.6 microliters.min-1.mg-1), inhibited by hypothermia, metabolic inhibitors, sulfhydryl-modifying reagents, and inhibitor of anion exchanger, whereas replacement of Na+ by choline+ or Cl- by gluconate- did not alter the uptake. Competitive inhibition was observed by a more highly lipophilic HMG-CoA reductase inhibitor simvastatin (open acid form), dibromosulfophthalein, cholate, and taurocholate. Pravastatin inhibited Na(+)-independent taurocholate uptake with an inhibition constant comparable with the Km value of pravastatin itself. Furthermore, the hepatic permeability clearance in vivo obtained with intact rats was comparable with that in vitro, indicating that the carrier-mediated active transport system we demonstrated in vitro is responsible for the hepatic uptake in vivo. These findings demonstrated that the hepatic uptake of pravastatin occurs via a carrier-mediated active transport mechanism utilizing the so-called multispecific anion transporter, which is common with the Na(+)-independent bile acid uptake system, and that this is one of the mechanisms for its selective inhibition of hepatic cholesterol synthesis in vivo.

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Importance of the liver in plasma clearance of hepatocyte growth factors in rats

Liu

Kato

Narukawa

et al. 1992

American Journal of Physiology-Gastrointestinal and Liver Physi

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After intravenous administration of 125I-labeled hepatocyte growth factor (HGF), trichloroacetic acid-precipitable radioactivity in the plasma disappeared rapidly with an early phase half-life of 4 min. The amounts of 125I-HGF distributed to the liver, adrenal, spleen, kidney, and lung tissues were much greater than those that could be accounted for by distribution to the extracellular space alone. The first-pass removal of 125I-HGF by the liver was approximately 26%; the liver accounted for approximately 70% of early-phase removal. The hepatic handling was also analyzed using a single-pass perfused liver system. The steady-state extraction ratio of tracer 125I-HGF was 0.48 but dropped to 0.23 in the presence of excess HGF (135 pM), demonstrating hepatic removal saturation of HGF. In the presence of excess HGF, the heparin-washable 125I-HGF, the heparin-resistant and acid-washable 125I-HGF, and the internalized 125I-HGF dropped to 54, 31, and 32% of the control values. The presence of at least two binding sites for HGF on the liver cell surfaces was made clear: the heparin-washable site and the heparin-resistant and acid-washable binding site, considered to have higher affinity for HGF. The internalization of 125I-HGF was observed to some extent even in the presence of excess HGF and phenylarsine oxide, known to be an inhibitor of polypeptides receptor-mediated endocytosis, suggesting the contribution of a relatively nonspecific internalization mechanism as well as receptor-mediated endocytosis.

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Prediction of the volumes of distribution of basic drugs in humans based on data from animals

Sawada

Hanano

Sugiyama

et al. 1984

Journal of Pharmacokinetics and Biopharmaceutics

113

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The apparent volume of distribution-after distribution equilibrium and the ratio of distributive tissue volume to the unbound fraction in the tissue (VT/fuT) of 10 weak basic drugs, i.e., chlorpromazine, imipramine, propranolol, disopyramide, lidocaine, quinidine, meperidine, pentazocine, chlorpheniramine, and methacyclin were compared in animal species and humans. In these two parameters, a statistically significant correlation between animals and humans was obtained, when the parameters were plotted on a log-log scale. The correlation coefficient between VT/fuT was significantly higher than that between the apparent volumes of distribution (p less than 0.05). In general, there was little difference between VT/fuT of various basic drugs in animals and that in humans. Prediction of the apparent volume of distribution in humans using animal data of VT/fuT, plasma unbound fraction, blood volume, and blood-to-plasma concentration ratio in humans was successful for most of drugs studied.

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Kinetic analysis of albumin-mediated uptake of warfarin by perfused rat liver

Tsao

Sugiyama

Sawada

et al. 1988

Journal of Pharmacokinetics and Biopharmaceutics

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We previously found that the uptake of warfarin in the presence of albumin by perfused rat liver could not be explained simply by the unbound warfarin concentration. The aim of the present study is to develop a kinetic model to account for this albumin-mediated uptake of warfarin. Single circulation indicator dilution studies on warfarin uptake were carried out in the isolated perfused rat liver in the absence and presence of various concentrations of bovine serum albumin (BSA) in the perfusate. A distributed model was fitted to the dilution data and the estimates of the influx, efflux, and sequestration rate constants were obtained. The results showed that the predicted concentration of the unbound warfarin is not high enough to explain the observed uptake rate; the liver cell surface appears to reduce the binding affinity of warfarin for BSA to 1/20 of that observed in vitro. A kinetic model which considers the interaction between albumin and the liver cell surface was fitted to the uptake rates of warfarin over a wide range of BSA concentration. The model gave a dissociation constant of the cell surface for albumin of 160 microM, which is comparable with those reported by others for the hepatic extractions of free fatty acids and rose bengal. Based on this kinetic model, the contributions of the unbound and bound warfarin to its hepatic uptake were estimated, and the bound warfarin was found to contribute most in the physiological albumin concentration range.

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Prediction of diazepam disposition in the rat and man by a physiologically based pharmacokinetic model

Igari

Sugiyama

Sawada

et al. 1983

Journal of Pharmacokinetics and Biopharmaceutics

103

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A physiologically based pharmacokinetic model for diazepam disposition was developed in the rat, incorporating anatomical, physiological, and biochemical parameters, i.e., tissue volume, blood flow rate, serum free fraction, distribution of diazepam into red blood cells, drug metabolism and tissue-to-blood distribution ratio. The serum free fraction of diazepam was determined by equilibrium dialysis at 37 degrees C and was constant over a wide concentration range. Partition of diazepam between plasma and erythrocytes was determined in vitro at 37 degrees C, and the resultant blood-to-plasma concentration ratio was constant over a wide concentration range. The enzymatic parameters (Km, Vmax) of the eliminating organs, i.e., liver, kidney, and lung, previously determined using microsomes, were used for the prediction. The tissue-to-blood distribution ratios inferred by inspection of the data when pseudoequilibrium is reached after i.v. bolus injection of 1.2 mg/kg diazepam were corrected according to the method of Chen and Gross. Predicted diazepam concentration time-course profiles in plasma and various organs or tissues, using an 11-compartmental model, were compared with those observed. Prediction was successful in all compartments including brain, the target organ of diazepam. Scale-up of the disposition kinetics of diazepam from rat to man was also successful.

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Manabu Hanano

Na(+)-independent multispecific anion transporter mediates active transport of pravastatin into rat liver

Importance of the liver in plasma clearance of hepatocyte growth factors in rats

Prediction of the volumes of distribution of basic drugs in humans based on data from animals

Kinetic analysis of albumin-mediated uptake of warfarin by perfused rat liver

Prediction of diazepam disposition in the rat and man by a physiologically based pharmacokinetic model

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