Your search keyword '"mrp2"' showing total 11 results

1. Intestinal transport of HDND-7, a novel hesperetin derivative, in in vitro MDCK cell and in situ single-pass intestinal perfusion models.

Author

Chen, Ruonan, Li, Lan, Shen, Chenlin, Huang, Cheng, Ma, Taotao, Meng, Xiaoming, Qian, Zhengyue, Li, Yangyang, and Li, Jun

Subjects

*BIOAVAILABILITY, *JEJUNUM, *TRANSCYTOSIS, *EFFLUX (Microbiology), *VERAPAMIL

Abstract

1. Hesperetin (HDND) possesses extensive bioactivities, however, its poor solubility and low bioavailability limit its application. HDND-7, a derivative of HDND, has better solubility and high bioavailability. In this study, we investigated the intestinal absorption mechanisms of HDND-7. 2. MDCK cells were used to examine the transport mechanisms of HDND-7in vitro, and a ratin situintestinal perfusion model was used to characterize the absorption of HDND-7. The concentration of HDND-7 was determined by HPLC. 3. In MDCK cells, HDND-7 was effectively absorbed in a concentration-dependent manner in both directions. Moreover, HDND-7 showed pH-dependent and TEER-independent transport in both directions. The transport of HDND-7 was significantly reduced at 4 °C or in the presence of NaN3. Furthermore, the efflux of HDND-7 was apparently reduced in the presence of MRP2 inhibitors MK-571 or probenecid. However, P-gp inhibitor verapamil had no effect on the transport of HDND-7. Thein situintestinal perfusion study indicated HDND-7 was well-absorbed in four intestinal segments. Furthermore, MRP2 inhibitors may slightly increase the absorption of HDND-7 in jejunum. 4. In summary, all results indicated that HDND-7 might be absorbed mainly by passive diffusion via transcellular pathway, MRP2 but P-gp may participate in the efflux of HDND-7. [ABSTRACT FROM PUBLISHER]

Published

2017

2. The permeability characteristics and interaction of the main components from Zhizi Bopi decoction in the MDCK cell model.

Author

Qian, Zhengyue, Huang, Cheng, Shen, Chenlin, Meng, Xiaoming, Chen, Zhaolin, Hu, Tingting, Li, Yangyang, and Li, Jun

Subjects

*CHINESE medicine, *EPITHELIAL cells, *PERMEABILITY (Biology), *BERBERINE, *THERAPEUTICS

Abstract

1. Although emerging evidence indicates the therapeutic effects of Zhizi Bopi Decoction, the extent to which essential ingredients are absorbed and the possible synergistic actions are poorly understood. 2. In this study, MDCK cell model was used to determine the bi-directional permeability and interaction between the main components (geniposide, berberine and glycyrrhizic acid) of Zhizi Bopi Decoction. 3. The transport of the active ingredients was concentration-dependent in both directions. Moreover, the Papp(AP-BL) values of berberine and glycyrrhizic acid were significantly reduced when co-incubation with an ATP inhibitor. Additionally, uptake of berberine, glycyrrhizic acid were clearly inhibited by the inhibitors of P-glycoprotein and MRP2, indicating that P-gp and MRP2 may be involved in the transport of berberine and glycyrrhizic acid, respectively. However, it was found that geniposide may be purely passive diffusion. Furthermore, the combined incubation of geniposide with berberine and glycyrrhizic acid had a powerful sorbefacient effect than use of a single drug alone which may be regulated by tight junctions. 4. In summary, our study provides useful information for pharmacological applications of Zhizi Bopi Decoction and offers new insights into this ancient decoction for further researches, especially in drug synergism. [ABSTRACT FROM PUBLISHER]

Published

2016

3. Transport of trans-tiliroside (kaempferol-3- β-D-(6″- p-coumaroyl-glucopyranoside) and related flavonoids across Caco-2 cells, as a model of absorption and metabolism in the small intestine.

Author

Luo, Zijun, Morgan, Michael R. A., and Day, Andrea J.

Subjects

*FLAVONOIDS, *MULTIDRUG resistance, *GLUCOSIDES, *SMALL intestine, *PHYSIOLOGICAL absorption research

Abstract

1. Absorption and metabolism of tiliroside (kaempferol 3-β-D-(6″- p-coumaroyl)-glucopyranoside) and its related compounds kaempferol, kaempferol-3-glucoside and p-coumaric acid were investigated in the small intestinal Caco-2 cell model. Apparent permeation (Papp) was determined as 0.62 × 10−6 cm/s, 3.1 × 10−6 cm/s, 0 and 22.8 × 10−6 cm/s, respectively. 2. Mechanistic study showed that the transportation of tiliroside, kaempferol-3-glucoside and p-coumaric acid in Caco-2 model were transporter(s) involved, while transportation of kaempferol was solely by passive diffusion mechanism. 3. Efflux transporters, multi-drug-resistance-associated protein-2 (MRP2), were shown to play a role in limiting the uptake of tiliroside. Inhibitors of MRP2, (MK571 and rifampicin) and co-incubation with kaempferol (10 μM), increased transfer from the apical to the basolateral side by three to five fold. 4. Metabolites of kaempferol-3-glucoside and p-coumaric acid were not detected in the current Caco-2 model, while tiliroside was metabolised to a limited extent, with two tiliroside mono-glucuronides identified; and kaempferol was metabolised to a higher extent, with three mono-glucuronides and two mono-sulfates identified. 5. In conclusion, tiliroside was metabolised and transported across Caco-2 cell membrane to a limited extent. Transportation could be increased by applying MRP2 inhibitors or co-incubation with kaempferol. It is proposed that tiliroside can be absorbed by human; future pharmacokinetics studies are warranted in order to determine the usefulness of tiliroside as a bioactive agent. [ABSTRACT FROM AUTHOR]

Published

2015

4. Transport of gemifloxacin, a 4th generation quinolone antibiotic, in the Caco-2 and engineered MDCKII cells, and potential involvement of efflux transporters in the intestinal absorption of the drug.

Author

Jin, Hyo-Eon, Song, Boran, Kim, Sang-Bum, Shim, Won-Sik, Kim, Dae-Duk, Chong, Saeho, Chung, Suk-Jae, and Shim, Chang-Koo

Subjects

*XENOBIOTICS, *DRUG bioavailability, *QUINOLONE antibacterial agents, *MULTIDRUG resistance-associated proteins, *VERAPAMIL

Abstract

1. The oral (po) bioavailability of gemifoxacin mesylate in rats and its possible association with efux transporters was investigated.2. The apparent permeabilities (Papp) of gemifoxacin across the Caco-2 cell monolayer were 1.20 ± 0.09 × 10-5 cm/s for apical to basal (absorptive) transport, and 2.13 ± 0.6 × 10-5 cm/s for basal to apical (secretory) transport for a [ABSTRACT FROM AUTHOR]

Published

2013

5. Understanding the interplay of drug transporters involved in the disposition of rosuvastatin in the isolated perfused rat liver using a physiologically-based pharmacokinetic model.

Author

Hobbs, Michael, Parker, Connie, Birch, Helen, and Kenworthy, Kathryn

Subjects

*STATINS (Cardiovascular agents), *CARRIER proteins, *PHARMACOKINETICS, *LABORATORY rats, *PERFUSION, *LIVER physiology

Abstract

The role of hepatic uptake (Oatp1a1 and Oatp1b4) and efflux (Bcrp and Mrp2) transporters in the disposition of rosuvastatin were investigated using the isolated perfused rat liver (IPRL). A simple physiologically-based pharmacokinetic model was developed to quantitatively determine the interplay between the individual transporters. Uptake and elimination of rosuvastatin in the IPRL was rapid and extensive. In the presence of rifamycin (an equipotent inhibitor of both Oatp1a1 and Oatp1a4) the perfusate clearance of rosuvastatin was reduced, but rifampicin (a potent inhibitor of Oatp1a4) had no effect upon the perfusate clearance. This might indicate a limited role for Oatp1a4, but it is possible that Oatp1a1 (or other uptake transporters) may have redundancy in their affinity for rosuvastatin. In the presence of GF120918 (a potent inhibitor of Bcrp) and in the Wistar TR- rat (a naturally occurring mutant not expressing Mrp2) the biliary clearance was reduced and virtually abolished in the TR- pre-incubated GF120918. Bcrp and Mrp2 appear to represent the primary efflux mechanisms for rosuvastatin in the rat. Rosuvastatin disposition in the IPRL is mediated in part by Oatp1a1 and efflux is almost entirely by Mrp2 and Bcrp. Other uptake processes may be involved. [ABSTRACT FROM AUTHOR]

Published

2012

6. A high throughput in vitro mrp2 assay to predict in vivo biliary excretion.

Author

Colombo, Federico, Armstrong, Catherine, Duan, Jianmin, and Rioux, Nathalie

Subjects

*MULTIDRUG resistance-associated proteins, *DRUG interactions, *HIGH throughput screening (Drug development), *BIOLOGICAL assay, *BILIARY tract, *EXCRETION, *ATP-binding cassette transporters, *LABORATORY rats

Abstract

Prediction of biliary excretion is a challenge for drug discovery scientists due to the lack of in vitro assays. This study explores the possibility of establishing a simple assay to predict in vivo biliary excretion via the mrp2 transport system. In vitro mrp2 activity was determined by measuring the ATP-dependent uptake of 5(6)-carboxy-2′,7′-dichlorofluorescein (CDCF) in canalicular plasma membrane vesicles (cLPM) from rat livers. The CDCF uptake was time- and concentration-dependent (Km of 2.2 ± 0.3 µM and Vmax of 115 ± 26 pmol/mg/min) and strongly inhibited by the mrp2 inhibitors, benzbromarone, MK-571, and cyclosporine A, with IC50 values ≤ 1.1 µM. Low inhibition of CDCF uptake by taurocholate (BSEP inhibitor; 57 µM) and digoxin (P-gp inhibitor; 101 µM) demonstrated assay specificity towards mrp2. A highly significant correlation (r2 = 0.959) between the in vitro IC50 values from the described mrp2 assay and in vivo biliary excretion in rats was observed using 10 literature compounds. This study demonstrated, for the first time, that a high throughput assay could be established with the capability of predicting biliary excretion in the rat using CDCF as a substrate. [ABSTRACT FROM AUTHOR]

Published

2012

7. Intestinal absorption mechanisms of berberine, palmatine, jateorhizine, and coptisine: involvement of P-glycoprotein.

Author

Zhang, Xinfeng, Qiu, Furong, Jiang, Jian, Gao, Chenglu, and Tan, Yingzi

Subjects

*INTESTINAL absorption, *BERBERINE, *P-glycoprotein, *COPTIS chinensis, *ISOQUINOLINE, *CYCLOSPORINE, *VERAPAMIL, *DRUG resistance

Abstract

The absorption and transport mechanisms of berberine, palmatine, jateorhizine, and coptisine were studied using a Caco-2 cells uptake and transport model, with the addition of cyclosporin A and verapamil as P-glycoprotein (P-gp) inhibitors and MK-571 as a multidrug resistance-associated protein 2 (MRP2) inhibitor. In the uptake experiment, berberine, palmatine, jateorhizine, and coptisine were all taken into Caco-2 cells, and their uptakes were increased in the presence of cyclosporin A or verapamil. In the transport experiment, Papp (AP-BL) was between 0.1 and 1.0 × 106 cm/sec for berberine, palmatine, jateorhizine, and coptisine and was lower than Papp (BL-AB). ER values were all >2. Cyclosporin A and verapamil both increased Papp (AP-BL) but decreased Papp (BL-AB) for berberine, palmatine, jateorhizine, and coptisine; ER values were decreased by >50%. MK-571 had no influence on the transmembrane transport of berberine, palmatine, jateorhizine, and coptisine. At a concentration of 1–100 μM, berberine, palmatine, jateorhizine, and coptisine had no significant effects on the bidirection transport of Rho123. Berberine, palmatine, jateorhizine, and coptisine were all P-gp substrates; and at the range of 1–100 μM, berberine, palmatine, jateorhizine, and coptisine had no inhibitory effects on P-gp. [ABSTRACT FROM AUTHOR]

Published

2011

8. Influence of drug-transporter polymorphisms on the pharmacokinetics of fexofenadine enantiomers.

Author

Akamine, Yumiko, Miura, Masatomo, Sunagawa, Satoko, Kagaya, Hideaki, Yasui-Furukori, Norio, and Uno, Tsukasa

Subjects

*POLYPEPTIDES, *PHARMACOKINETICS, *FEXOFENADINE, *ENANTIOMERS, *POLYMORPHISM (Zoology)

Abstract

1. This study investigated an association of SLCO (encoding organic anion-transporting polypeptides (OATP), 1B1, 1B3, and 2B1), ABCB1 (P-glycoprotein (P-gp)), ABCC2 multidrug resistance protein 2 (MRP2), and ABCG2 (breast cancer resistance protein (BCRP)) polymorphisms with fexofenadine enantiomer pharmacokinetics after an oral dose of fexofenadine (60 mg) in 24 healthy subjects. 2. The area under the plasma concentration-time curve (AUC0-24) of S-fexofenadine, but not R-fexofenadine, was significantly lower in subjects with a SLCO2B1*1/*1 allele as compared to subjects with a *3 allele (p = 0.031). 3. The AUC0-24 of S-fexofenadine was significantly lower in subjects with a wild-type combination of SLCO2B1*1/*1/ABCB1 1236CC, SLCO2B1*1/*1/ABCB1 3435CC, SLCO2B1*1/*1/ABCC2 -24CC, and ABCB1 1236CC/3435CC/ABCC2 -24CC compared to other polymorphic genotypes (p = 0.010, 0.033, 0.022, and 0.036, respectively), whereas there was no difference in the AUC0-24 between the SLCO1B1/1B3 plus ABCB1 and ABCC2 groups. 4. The pharmacokinetic properties of S-fexofenadine are affected by a single polymorphism of SLCO2B1 in combination with several polymorphisms of ABCB1 C1236T, C3435T, and ABCC2 C-24T. However, the ABCG2 polymorphism was not associated with fexofenadine pharmacokinetics. 5. These findings suggest that a combination of multiple transporters, including OATP, P-gp, and MRP2, reacts strongly to fexofenadine exposure in the small intestine and liver, resulting in different dispositions of both enantiomers. [ABSTRACT FROM AUTHOR]

Published

2010

9. Gemfibrozil and its glucuronide inhibit the hepatic uptake of pravastatin mediated by OATP1B1.

Author

Nakagomi-Hagihara, R., Nakai, D., Tokui, T., Abe, T., and Ikeda, T.

Subjects

*GLUCURONIDES, *GLUCURONIC acid, *PRAVASTATIN, *STATINS (Cardiovascular agents), *METABOLITES, *BIOMOLECULES, *CARBOXYLIC acids, *XENOBIOTICS, *BIOCHEMISTRY

Abstract

When pravastatin (40 mg/day) was co-administered with gemfibrozil (600 mg, b.i.d., 3 days) to man, the AUC of pravastatin increased approximately 2-fold. We have clarified that OATP1B1 is a key determinant of the hepatic uptake of pravastatin in humans. Thus, we hypothesized that gemfibrozil and the main plasma metabolites, a glucuronide (gem-glu) and a carboxylic acid metabolite (gem-M3), might inhibit the hepatic uptake of pravastatin and lead to the elevation of the plasma concentration of pravastatin. Gemfibrozil and gem-glu inhibited the uptake of 14C-pravastatin by human hepatocytes with Ki values of 31.7 µM and 15.7 µM, respectively and also inhibited pravastatin uptake by OATP1B1-expressing Xenopus laevis oocytes with Ki values of 15.1 µM and 7.6 µM. Additionally, we examined the biliary transport of pravastatin and demonstrated that pravastatin was transported by MRP2 using both human canalicular membrane vesicles (hCMVs) and human MRP2-expressing vesicles. However, gemfibrozil, gem-glu and gem-M3 did not affect the biliary transport of pravastatin by MRP2. Considering the plasma concentrations of gemfibrozil and gem-glu in humans, the inhibition of OATP1B1-mediated hepatic uptake of pravastatin by gem-glu would contribute, at least in part, to the elevation of plasma concentration of pravastatin by the concomitant use of gemfibrozil. [ABSTRACT FROM AUTHOR]

Published

2007

10. Multidrug resistance-associated protein 2 (MRP2) affects hepatobiliary elimination but not the intestinal disposition of tenofovir disoproxil fumarate and its metabolites.

Author

Mallants, R., Van Oosterwyck, K., Van Vaeck, L., Mols, R., De Clercq, E., and Augustijns, P.

Subjects

*MULTIDRUG resistance, *DRUG resistance, *SUCCINATE dehydrogenase, *DEHYDROGENASES, *SUCCINIC acid, *METABOLITES, *BIOMOLECULES, *XENOBIOTICS, *BIOCHEMISTRY

Abstract

The role of multidrug resistance-associated protein 2 (MRP2) on the intestinal disposition and hepatobiliary elimination of tenofovir disoproxil fumarate (DF) and its metabolites [tenofovir (mono)ester and tenofovir] was studied in the Caco-2 system, Ussing chambers and rat in-situ efflux experiments. In the Caco-2 model and Ussing chambers, no statistically significant differences in transport could be observed when the MRP inhibitor probenecid was included. In Ussing chambers, transport was also similar when using intestinal tissue from MRP2-deficient rats. After intravenous administration of tenofovir DF, the excretion of tenofovir [(mono)ester] in bile was significantly decreased in MRP2-deficient rats and in rats treated with probenecid. The area under the blood concentration–time curve was increased in MRP2-deficient rats [1.0  ±  0.1 and 0.36  ±  0.03  µM.min -1 for tenofovir and tenofovir (mono)ester, respectively] and rats treated with probenecid (1.42  ±  0.04 and 0.36  ±  0.02  µM.min -1 ) compared with control rats (0.64  ±  0.05 and 0.15  ±  0.06  µM.min -1 ). The appearance of tenofovir [(mono)ester] in intestinal perfusate was similar in control rats upon co-administering probenecid or when using MRP2-deficient rats. In conclusion, MRP2 appeared to have no modulatory effect on the intestinal disposition of tenofovir and tenofovir (mono)ester. However, inhibition (probenecid) or the total absence of MRP2 (MRP2-deficient rats) significantly reduced hepatobiliary elimination, which was accompanied by increased systemic exposure. [ABSTRACT FROM AUTHOR]

Published

2005

11. Effects of fibrates on human organic anion-transporting polypeptide 1B1-, multidrug resistance protein 2- and P-glycoprotein-mediated transport.

Author

Yamazaki, M., Li, B., Louie, S. W., Pudvah, N. T., Stocco, R., Wong, W., Abramovitz, M., Demartis, A., laufer, R., Hochman, J. H., Prueksaritanont, T., and Lin, J. H.

Subjects

*DRUG interactions, *MULTIDRUG resistance, *CIMETIDINE, *ESTRADIOL, *GLUCURONIDES, *ETHACRYNIC acid, *CYCLOSPORINE, *XENOBIOTICS

Abstract

The effects of different fibric acid derivatives (bezafibrate, clofibrate, clofibric acid, fenofibrate, fenofibric acid and gemfibrozil) on human organic anion transporting-polypeptide 1B1 (OATP2, OATP-C, SLC21A6), multidrug resistance protein 2 (MRP2/ABCC2) and MDR1-type P-glycoprotein (P-gp/ABCB1) were examined in vitro. Cyclosporin A (a known inhibitor of OATP1B1 and P-gp), MK-571 (a known inhibitor of MRP2) and cimetidine (an organic cation) were also tested. Bezafibrate, fenofibrate, fenofibric acid and gemfibrozil showed concentration-dependent inhibition of estradiol 17-β-D-glucuronide uptake by OATP1B1-stably transfected HEK cells, whereas clofibrate and clofibric acid did not show any significant effects up to 100 µM. Inhibition kinetics of gemfibrozil, which exhibited the most significant inhibition on OATP1B1, was shown to be competitive with a Ki = 12.5 µM. None of the fibrates showed any significant inhibition of MRP2-mediated transport, which was evaluated by measuring the uptake of ethacrynic acid glutathione into MRP2-expressing Sf9 membrane vesicles. Only fenofibrate showed moderate P-gp inhibition as assessed by measuring cellular accumulation of vinblastine in a P-gp overexpressing cell-line. Cyclosporin A significantly inhibited OATP1B1 and P-gp, whereas only moderate inhibition was observed on MRP2. The rank order of inhibitory potency of MK-571 was determined as OATP1B1 (IC50: 0.3 µM) >MRP2 (4) µM) µ P-gp (25 µM). Cimetidine did not show any effects on these transporters. In conclusion, neither MRP2- nor P-gp-mediated transport is inhibited significantly by the fibrates tested. Considering the plasma protein binding and IC50 values for OATP1B1, only gemfibrozil appeared to have a potential to cause drug-drug interactions by inhibiting OATP1B1 at clinically relevant concentrations. [ABSTRACT FROM AUTHOR]

Published

2005