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Kinetic Modeling of Ouabain Tissue Distribution Based on Slow and Saturable Binding to Na,K-ATPase (1992)

Harashima, Hideyoshi ; Mamiya, Michio ; Yamazaki, Masayo ; [et al.]

Springer

Pharmaceutical research 9 (1992), S. 1607-1611

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ISSN: 1573-904X

Keywords: cardiac glycosides ; ouabain ; Na,K-ATPase ; guinea pig ; tissue distribution ; tissue-to-plasma concentration ratio ; kinetic modeling

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The significance of the binding to Na,K-ATPase in the tissue distribution of ouabain was previously documented (Harashima et al., Pharm. Res. 9:474-479, 1992). The purpose of this study was to obtain a kinetic model of ouabain tissue distribution. In most tissues, the ouabain concentration continued to rise after the termination of infusion (5 min), with the peak tissue concentration at approximately 20 min. This delay could not be explained by the rapid equilibrium model (RE model), nor could the kinetics of ouabain be explained by an RE model modified for saturable binding. Since ouabain binding to Na,K-ATPase is slow, the association and dissociation processes were incorporated into a model that can accurately fit the observed time courses of ouabain. The obtained binding parameters corresponded well with the observed values in the in vitro binding experiments, except for muscle. These results quantitatively support the role of the slow and saturable binding of ouabain to Na,K-ATPase in its tissue distribution.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015820610048

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Significance of Binding to Na,K-ATPase in the Tissue Distribution of Ouabain in Guinea Pigs (1992)

Harashima, Hideyoshi ; Mamiya, Michio ; Yamazaki, Masayo ; [et al.]

Springer

Pharmaceutical research 9 (1992), S. 474-479

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ISSN: 1573-904X

Keywords: cardiac glycosides ; ouabain ; Na,K-ATPase ; guinea pig ; tissue distribution ; tissue-to-plasma concentration ratio

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Ouabain binds specifically to Na,K-ATPase on the plasma membrane and therefore serves to measure the tissue concentration of Na,K-ATPase. We examined the role of ouabain binding to Na,K-ATPase in its overall tissue distribution. The tissue-to-plasma concentration ratio (K p,vivo) was defined in each tissue after intravenous administration of 3H-ouabain in guinea pigs, and specific binding of ouabain to Na,K-ATPase was measured in tissue homogenate to obtain the dissociation constant and binding capacity in each tissue. A predicted tissue-to-plasma concentration ratio (K p,vitro) was calculated using the obtained binding parameters and the volume of extracellular space in each tissue. The absolute values of K p,vitro were comparable to those of K p vivo, except in brain. Regression analysis showed that the specific binding capacity of Na,K-ATPase in each tissue is the main factor in the tissue variation of K p,vivo. Therefore, the binding of ouabain to Na,K-ATPase plays a significant role in the tissue distribution of ouabain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015832127969

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Evaluation of the Uptake of Pravastatin by Perfused Rat Liver and Primary Cultured Rat Hepatocytes (1995)

Ishigami, Michi ; Tokui, Taro ; Komai, Toru ; [et al.]

Springer

Pharmaceutical research 12 (1995), S. 1741-1745

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ISSN: 1573-904X

Keywords: multiple indicator dilution method ; primary cultured hepatocytes ; carrier-mediated uptake ; active transport ; HMG-CoA reductase inhibitor

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. We have already demonstrated that the HMG-CoA reductase inhibitor, pravastatin is actively taken up by isolated rat hepatocytes via a multispecific anion transporter (Yamazaki et al., Am. J. Physiol. 264, G36-44, (1993)). We further attempted the quantitative evaluation of this uptake in different experimental systems. Methods. We have quantified the initial uptake of pravastatin by both primary cultured hepatocytes and by isolated perfused rat liver using the multiple indicator dilution (MID) method. Results. The permeability surface area product for the influx (PSinf) of pravastatin evaluated in MID study was comparable with those reported previously in isolated rat hepatocytes and in vivo. Furthermore, the highly concentrative uptake (influx clearance 〉〉 efflux clearance) of pravastatin was confirmed by kinetic analysis of the dilution curves obtained in the MID study. On the other hand, the uptake by primary cultured cells was significantly lower than that by isolated cells, and the ability of hepatocytes to take up pravastatin showed a decrease with time in culture (0-96 hr). The Vmax for uptake diminished with increasing time in culture, while no significant change was observed in both Km and nonspecific diffusion clearance. Conclusions. The MID method in isolated perfused liver which maintains the spatial and anatomical architecture can be used to quantitatively evaluate the initial uptake of pravastatin. Furthermore, the ability of hepatocytes to take up pravastatin is diminished in culture with time and this is caused by a decrease in Vmax.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016226024587

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Correlation Between the Inhibitory Effects of Basic Drugs on the Uptake of Cardiac Glycosides and Taurocholate by Isolated Rat Hepatocytes (1992)

Okudaira, Kazuho ; Yamazaki, Masayo ; Sawada, Yasufumi ; [et al.]

Springer

Pharmaceutical research 9 (1992), S. 1152-1156

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ISSN: 1573-904X

Keywords: taurocholate ; ouabain ; verapamil ; multispecific bile acid transporter ; hepatic uptake

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The role of the multispecific bile acid transporter for cardiac glycoside uptake is still controversial. This study was designed to examine the inhibitory effects of basic drugs (verapamil, dipyridamole, nifedipine, chlorpromazine, disopyramide, quinidine, propranolol, and lidocaine) on taurocholate uptake by isolated rat hepatocytes and to compare these effects with inhibition of ouabain uptake. Sodium-dependent taurocholate uptake was significantly reduced, to 50-70% of the control value, by 50 µM verapamil, dipyridamole, and nifedipine. Sodium-independent taurocholate uptake was more extensively inhibited, to 20-40%, by these basic drugs. The inhibition of ouabain uptake correlated better with sodium-independent taurocholate uptake (γ = 0.918) than with sodium-dependent taurocholate uptake (γ = 0.714). Taurocholate competitively inhibited ouabain uptake in the absence of sodium. These results indicate that the cardiac glycoside transport system is similar to the sodium-independent taurocholate transport system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015895520584

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Uptake Is the Rate-limiting Step in the Overall Hepatic Elimination of Pravastatin at Steady-state in Rats (1996)

Yamazaki, Masayo ; Akiyama, Sayoko ; Nishigaki, Ryuichiro ; [et al.]

Springer

Pharmaceutical research 13 (1996), S. 1559-1564

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ISSN: 1573-904X

Keywords: carrier-mediated active transport ; well-stirred model ; parallel-tube model ; dispersion model ; nonlinearity ; pharmacokinetics ; tissue-distribution

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. Of the HMG-CoA reductase inhibitors, the hydrophilic pravastatin has been shown to exhibit relatively specific inhibition of cholesterol synthesis in the liver. As one of the reasons for this relatively specific pharmacological activity, we demonstrated that the tissue distribution of pravastatin is limited because of its high hydrophilicity, while hepatic uptake by active transport takes place at the liver surface via a multispecific anion transporter (M. Yamazaki et al., Am. J. Physiol., 264, G36-44, 1993). In this study, we examined the hepatic elimination of pravastatin at steady-state. Methods. After i.v. infusion, the plasma concentrations of pravastatin in both arterial and hepatic venous blood were measured. Results. The hepatic availability at steady-state exhibited a clear increase on increasing the infusion rate of pravastatin. The total hepatic elimination rate at steady-state exhibited Michaelis-Menten type saturation with the drug concentration in the capillary defined by typical mathematical models (i.e., well-stirred, parallel-tube and dispersion models), Km and Vmax values being comparable with those obtained from analysis of the initial uptake velocity using in vitro isolated hepatocytes. Conclusions. These results indicate that overall hepatic intrinsic clearance of pravastatin at steady-state is regulated by the uptake process, followed by rapid metabolism and/or biliary excretion with minimal efflux to the circulating blood.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016044032571

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Recent Advances in Carrier-mediated Hepatic Uptake and Biliary Excretion of Xenobiotics (1996)

Yamazaki, Masayo ; Suzuki, Hiroshi ; Sugiyama, Yuichi

Springer

Pharmaceutical research 13 (1996), S. 497-513

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ISSN: 1573-904X

Keywords: organic anion ; hepatic clearance ; primary active transport ; bile acid ; HMG-CoA reductase ; TR− rat ; Eisai hyperbilirubinemic rat ; GS-X-pump ; P-glycoprotein ; multidrug resistance related protein

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. Besides renal excretion, hepatic metabolism and biliary excretion are the major pathways involved in the removal of xenobiotics. Recently, for many endogenous and exogenous compounds (including drugs), it has been reported that carrier-mediated transport contributes to hepatic uptake and/ or biliary excretion. In particular, primary active transport mechanisms have been shown to be responsible for the biliary excretion of anticancer drugs, endogenous bile acids and organic anions including glutathione and glucuronic acid conjugates. Primary active excretion into bile means the positive removal of xenobiotics from the body, and this elimination process is now designated as “Phase III” (T. Ishikawa, Trends Biochem. Sci., 17, 1992) in the detoxification mechanisms for xenobiotics in addition to Phase I by P-450 and Phase II by conjugation. Methods. The transporters, which have been called P-glycoprotein (MDR), multidrug resistance related protein (MRP) and GS-X pump and which are believed to be involved in the primary active pumping of xenobiotics from the cells, are now known as the ATP-binding cassette (ABC) transporters. In this review, we first describe the HMG-CoA reductase inhibitor, pravastatin, as a typical case of a carrier-mediated active transport system that contributes to the liver-specific distribution in the body. Results. Regarding biliary excretion, we have summarized recent results suggesting the possible contribution of the ABC transporters to the biliary excretion of xenobiotics. We also focus on the multiplicities in both hepatic uptake and biliary excretion mechanisms. Analyzing these multiplicities in transport is necessary not only from a biochemical point of view, but also for our understanding of the physiological adaptability of the living body in terms of the removal (detoxification) of xenobiotics. Conclusions. Clarification of these transport mechanism may provide important information for studying the pharmacokinetics of new therapeutic drugs and furthermore, leads to the development of the drug delivery systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016077517241

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