超高效液相色谱-串联质谱法同时测定食蟹猴血浆中地高辛、安非他酮及活性代谢物浓度和药动学评价

目的：建立同时测定食蟹猴体内地高辛、安非他酮及其活性代谢物血浆浓度的方法，并评价药动学特征。方法：以乙腈沉淀蛋白处理血浆样品。色谱柱Agilent Zorbax SB-C8（4.6×100 mm 3.5 μm）；流动相为甲醇-水（含5 mmol·L^-1甲酸铵，pH 3.6），梯度洗脱；质谱条件为电喷雾离子源，正离子模式，扫描方式为多反应离子监测，m/z 798.4→651.3（地高辛）；m/z 240.2→184.0（安非他酮）；m/z 256.3→238.0（羟基安非他酮）；m/z 242.2→168.1（赤式/苏式羟化安非他酮）；m/z 172.2→128.2（甲硝唑，内标）。食蟹猴3只，♂，体质量2~4 kg，0.1 mg·5 mL^-1·kg^-1地高辛和1.5 mg·5 mL^-1·kg^-1盐酸安非他酮静滴给药。给药前后0.08，0.25，0.5，1，1.5，2，4，6，8，12，24，48 h采血。测定地高辛、安非他酮及其活性代谢物浓度。结果：血浆标准曲线在0.25~100 ng·mL^-1（地高辛），0.2~1 000 ng·mL^-1（安非他酮/羟基安非他酮），0.2~50 ng·mL^-1（赤式/苏式羟化安非他酮），定量范围内线性良好（r≥0.995）。批内批间精密度均小于13.7%，绝对回收率为83.8%~104.2%，基质效应小于10.6%。地高辛、安非他酮、羟基安非他酮、赤式、苏式羟化安非他酮药动学参数C_max分别为（29.32±7.31）、（254.00±68.23）、（22.43±7.56）、（1.53±0.27）、（3.96±0.42） ng·mL^-1，T_max分别为（0.14±0.10）、（0.08±0）、（1.50±0.00）、（1.17±0.29）、（4.06±1.46） h，AUC_0-48h分别为（123.87±9.59）、（550.68±17.43）、（160.47±62.92）、（9.26±3.65）、（24.43±5.28） ng·h·mL^-1，半衰期分别为（21.26±3.77）、（5.54±1.76）、（3.96±1.21）、（5.58±2.40）、（4.06±1.46） h。结论：和已报道的方法比较，建立的分析方法灵敏、准确，样品处理简便、快速，适用于药动学研究以及地高辛-安非他酮药物相互作用的评价，也能为临床个体化用药实践提供方法学参考。     

Interactions of crizotinib and gefitinib with organic anion-transporting polypeptides (OATP)1B1, OATP1B3 and OATP2B1: gefitinib shows contradictory interaction with OATP1B3

1.?The drug–drug interaction (DDI) mediated by organic anion-transporting polypeptide (OATP)1B1, OATP1B3 and OATP2B1 has a major impact on the hepatic clearance of drugs. The effects of tyrosine kinase inhibitors (TKIs) on OATPs have not been well studied. In the present study, we evaluated the contribution of OATPs to the hepatic uptake of crizotinib and gefitinib and the interaction of those TKIs with OATPs to estimate DDIs.

2.?To clarify whether crizotinib and gefitinib were substrates for OATPs, we performed uptake studies. We examined the effects of the TKIs on uptake of typical substrates and fluvastatin via OATPs. IC₅₀ and EC₅₀ values of the TKIs were calculated.

3.?OATP1B3- and OATP2B1-mediated crizotinib uptake and OATP2B1-mediated gefitinib uptake were observed. Gefitinib accelerated OATP1B3-mediated [³H]TCA uptake and inhibited OATP2B1-mediated [³H]E₃S uptake. On the other hand, gefitinib inhibited OATP1B1- and OATP2B1-mediated fluvastatin uptake.

4.?We provided basic information to estimate the DDI on OATPs caused by TKIs. The DDI on OATPs caused by gefitinib could occur in a normal clinical situation. And the uptake of crizotinib into the intrahepatocellular environment via OATPs may induce DDI and liver damage. We therefore emphasize the necessity of careful use of TKIs.     

Complex drug interactions of the HIV protease inhibitors 3: effect of simultaneous or staggered dosing of digoxin and ritonavir, nelfinavir, rifampin, or bupropion

As part of a larger clinical drug-drug interaction (DDI) study aimed at in vitro to in vivo prediction of HIV protease inhibitor metabolic and transporter-based DDIs, we measured the inductive (staggered administration) and inductive plus inhibitory (simultaneously administered) effect of multiple dose ritonavir (RTV), nelfinavir (NFV), or rifampin (RIF) on the pharmacokinetics of the P-glycoprotein probe, digoxin (DIG), when administered simultaneously or staggered with the protease inhibitors or RIF. In both cases, NFV did not significantly affect DIG disposition. RTV decreased DIG renal clearance (Cl(renal)) when administered simultaneously or staggered but significantly increased DIG area under the curve from time zero to 24 h (AUC(0-24 h)) only when administered simultaneously. RIF decreased DIG AUC(0-24 h) only when RIF and DIG administration was staggered. When RIF and DIG were administered simultaneously, DIG maximal observed plasma concentration and area under the curve from time zero to 4 h were significantly increased, and DIG Cl(renal) was decreased. An unexpected and potentially clinically significant DDI was observed between DIG and the CYP2B6 probe, bupropion, which decreased DIG AUC(0-24 h) 1.6-fold and increased Cl(renal) 1.8-fold. Because this was an unexpected DDI and our studies were not specifically designed to quantify this interaction, further studies are required to confirm the interaction and understand the mechanistic basis of the DDI. In summary, RTV or NFV do not induce P-glycoprotein activity measured with DIG, and RIF does so only under staggered administration.     

OATP and MRP2-mediated hepatic uptake and biliary excretion of eprosartan in rat and human

BackgroundEprosartan is an angiotensin II receptor antagonist, used in the treatment of hypertension and heart failure in clinical patients. The objective of this study was to clarify the mechanism underlying hepatic uptake and biliary excretion of eprosartan in rats and humans.MethodsPerfused rat liver in situ, rat liver slices, isolated rat hepatocytes and human organic anion-transporting polypeptide (OATP)-transfected cells in vitro were used in this study.ResultsExtraction ratio of eprosartan was decreased by rifampicin in perfused rat livers. Uptake of eprosartan in rat liver slices and isolated rat hepatocytes was significantly inhibited by Oatp modulators such as ibuprofen, digoxin, rifampicin and cyclosporine A, but not by tetraethyl ammonium or p-aminohippurate. Uptake of eprosartan in rat hepatocytes indicated a saturable process. Although uptake of eprosartan in OATP1B3-human embryonic kidney cells (HEK) 293 cells was not observed, significant differences in cellular accumulations of eprosartan between vector- and OATP1B1-Madin–Darby canine kidney strain (MDCK) II cells were found in transcellular transport study. Moreover, cumulative biliary excretion rate of eprosartan in the presence of probenecid (Multidrug resistance-associated protein 2 (Mrp2) inhibitor) was significantly decreased in perfused rat livers. Vectorial basal-to-apical transport of eprosartan was also observed in OATP1B1/MRP2 double transfectants.ConclusionsEprosartan was transported by multiple Oatps (at least Oatp1a1 and Oatp1a4)/Mrp2 in rat and OATP1B1/MRP2, at least, in human.     

Radiosynthesis of novel pitavastatin derivative ([18F]PTV‐F1) as a tracer for hepatic OATP using a one‐pot synthetic procedure

Pitavastatin is an antihyperlipidemic agent, a potent inhibitor of 3‐hydroxymethyl‐glutaryl‐CoA reductase, which is selectively taken up into the liver mainly via hepatic organic anion transporting polypeptide 1B1 (OATP1B1). OATP1B1 can accept a variety of organic anions, and previous reports indicated that it is responsible for the hepatic clearance of several clinically used anionic drugs. Therefore, the pharmacokinetics and the hepatic distribution of pitavastatin provide an insight into the function of OATP1B1 in humans. For the development of the in vivo evaluation of OATP1B1 function by positron emission tomography imaging, we designed a novel [¹⁸F]pitavastatin derivative ([¹⁸F]PTV‐F1), in which a [¹⁸F]fluoroethoxy group is substituted for the [¹⁸F]fluoro group of [¹⁸F]pitavastatin, with the aim of convenient radiolabeling protocol and high radiochemical yield. In vitro studies suggested that transport activities of PTV‐F1 mediated by OATP1B1 and OATP1B3 were very similar to those of pitavastatin and PTV‐F1 was metabolically stable in human liver microsomes. In the radiosynthesis of [¹⁸F]PTV‐F1 from the tosylate precursor, nucleophilic fluorination and subsequent deprotection were performed using a one‐pot procedure. [¹⁸F]PTV‐F1 was obtained with a radiochemical yield of 45% ± 3% (n = 3), and the operating time for the radiosynthesis of [¹⁸F]PTV‐F1 is very short (30 minutes) compared with [¹⁸F]pitavastatin.     

Oatp2 mediates bidirectional organic solute transport: a role for intracellular glutathione

One member of the OATP family of transporters, rat Oatp1, functions as an anion exchanger that is driven in part by the glutathione (GSH) electrochemical gradient, indicating that other OATP-related transporters may also be energized by this mechanism. The present study examined whether rat Oatp2 is also an anion exchanger, and, if so, whether it is energized by the GSH electrochemical gradient. As with Oatp1, uptake of 10 microM [(3)H]taurocholate in Oatp2-expressing Xenopus laevis oocytes was trans-stimulated by intracellular 0.2 mM unlabeled taurocholate, indicating bidirectional transport. Interestingly, [(3)H]taurocholate uptake in Oatp2-expressing oocytes was also trans-stimulated when oocytes were preloaded with GSH, S-methylglutathione, S-sulfobromophthalein-glutathione, S-dinitrophenyl glutathione, or ophthalmic acid (a GSH analog) but not by glutarate or N-acetylcysteine, suggesting that GSH derivatives and conjugates may function as intracellular substrates for Oatp2. Support for this hypothesis was provided by the demonstration of enhanced [(3)H]GSH and [(3)H]S-(2,4-dinitrophenyl)-glutathione efflux in Oatp2-expressing oocytes. However, in contrast to Oatp1, extracellular GSH failed to cis-inhibit uptake of [(3)H]taurocholate or [(3)H]digoxin in Oatp2-expressing oocytes, indicating that the stimulatory effect of high intracellular GSH concentrations is not due to a coupled exchange mechanism. Taken together, the results indicate that Oatp2 mediates bidirectional transport of organic anions by a GSH-sensitive facilitative diffusion mechanism and suggest that this transporter may play a role in cellular export of specific organic molecules.     

Active intestinal absorption of fluoroquinolone antibacterial agent ciprofloxacin by organic anion transporting polypeptide, Oatp1a5

Fluoroquinolone antimicrobial drugs are absorbed efficiently after oral administration despite of their hydrophilic nature, implying an involvement of carrier‐mediated transport in their membrane transport process. It has been that several fluoroquinolones are substrates of organic anion transporter polypeptides OATP1A2 expressed in human intestine derived Caco‐2 cells. In the present study, to clarify the involvement of OATP in intestinal absorption of ciprofloxacin, the contribution of Oatp1a5, which is expressed at the apical membranes of rat enterocytes, to intestinal absorption of ciprofloxacin was investigated in rats. The intestinal membrane permeability of ciprofloxacin was measured by in situ and the vascular perfused closed loop methods. The disappeared and absorbed amount of ciprofloxacin from the intestinal lumen were increased markedly in the presence of 7,8‐benzoflavone, a breast cancer resistance protein inhibitor, and ivermectin, a P‐glycoprotein inhibitor, while it was decreased significantly in the presence of these inhibitors in combination with naringin, an Oatp1a5 inhibitor. Furthermore, the Oatp1a5‐mediated uptake of ciprofloxacin was saturable with a K_m value of 140 µm , and naringin inhibited the uptake with an IC₅₀ value of 18 µm by Xenopus oocytes expressing Oatp1a5. Naringin reduced the permeation of ciprofloxacin from the mucosal‐to‐serosal side, with an IC₅₀ value of 7.5 µm by the Ussing‐type chamber method. The estimated IC₅₀ values were comparable to that of Oatp1a5. These data suggest that Oatp1a5 is partially responsible for the intestinal absorption of ciprofloxacin. In conclusion, the intestinal absorption of ciprofloxacin could be affected by influx transporters such as Oatp1a5 as well as the efflux transporters such as P‐gp and Bcrp. Copyright © 2012 John Wiley & Sons, Ltd.     

Short-lasting inhibition of hepatic uptake transporter OATP1B1 by tyrosine kinase inhibitor pazopanib

Risk assessment of organic anion transporting polypeptide 1B1 (OATP1B1)-mediated drug-drug interactions (DDIs) is an integral part of drug development, but the difficult aspects in DDI prediction include complex mechanism of OATP1B1 inhibition. Pazopanib, an orally available tyrosine kinase inhibitor, exhibits OATP1B1 inhibition and clinically interacts with some OATP1B1 substrates, although quantitative analysis of DDI potential has not yet been performed. The purpose of the present study was to characterize the inhibitory effect of pazopanib on OATP1B1-mediated transport. Inhibition by pazopanib of OATP1B1-mediated uptake of two typical substrates, [³H]estrone-3-sulfate (E₁S) and [³H]estradiol-17β-glucuronide, assessed in HEK293/OATP1B1 cells, was more obvious after preincubation with pazopanib compared with no preincubation. The reduction in IC₅₀ values was 3–7 times greater and was comparable with the preincubation effect of another long-lasting inhibitor, cyclosporine A (CsA). Preincubation with pazopanib and CsA tended to similarly reduce V_max and increase K_m values of E₁S. However, the reduced OATP1B1 activity by preincubation with pazopanib was more rapidly recovered than CsA. In addition, R value, which predicts the maximum increase in the AUC ratio of victim drugs, was calculated to be 1.09. These results suggest that pazopanib is preincubation-dependent but a short-lasting inhibitor against OATP1B1 with low potential of OATP1B1-mediated DDIs.     

Predominant contribution of OATP1B3 to the hepatic uptake of telmisartan, an angiotensin II receptor antagonist, in humans.

Telmisartan, a nonpeptide angiotensin II receptor antagonist, is selectively distributed to liver. In the present study, we have characterized the contribution of organic anion transporting polypeptide (OATP) isoforms to the hepatic uptake of telmisartan by isolated rat hepatocytes, human cryopreserved hepatocytes, and human transporter-expressing cells. Because it is difficult to evaluate the transport activity of telmisartan because of its extensive adsorption to cells and culture materials, we performed the uptake study in the presence of human serum albumin. The saturable uptake of telmisartan into isolated rat hepatocytes took place in a Na(+)-independent manner and was inhibited by pravastatin, taurocholate, and digoxin, which are Oatp substrates and inhibitors, but not by organic cation, tetraethylammonium, indicating the involvement of Oatp isoforms in its uptake into rat hepatocytes. To identify which human OATP transporters are important for the hepatic uptake of telmisartan, the uptake assay was carried out using OATP1B1- and OATP1B3-expressing human embryonic kidney 293 cells and cryopreserved human hepatocytes. The uptake of telmisartan by OATP1B3-expressing cells was saturable (K(m) = 0.81 microM) and significantly higher than that by vector-transfected cells. In contrast, no significant uptake was observed in OATP1B1-expressing cells. We also observed the saturable uptake of telmisartan by human hepatocytes. Thirty micromolar estrone-3-sulfate, which can selectively inhibit OATP1B1-mediated uptake compared with OATP1B3, did not inhibit the uptake of telmisartan in human hepatocytes, whereas it could inhibit the uptake of estradiol 17beta-d-glucuronide mediated by OATP1B1. These results suggest that OATP1B3 is predominantly involved in the hepatic uptake of telmisartan in humans.     

The organic anion transport polypeptide 1d1 (Oatp1d1) mediates hepatocellular uptake of phalloidin and microcystin into skate liver

Organic anion transporting polypeptides (rodent Oatp; human OATP) mediate cellular uptake of numerous organic compounds including xenobiotic toxins into mammalian hepatocytes. In the little skate Leucoraja erinacea a liver-specific Oatp (Oatp1d1, also called sOatp) has been identified and suggested to represent an evolutionarily ancient precursor of the mammalian liver OATP1B1 (human), Oatp1b2 (rat), and OATP1B3 (human). The present study tested whether Oatp1d1 shares functional transport activity of the xenobiotic oligopeptide toxins phalloidin and microcystin with the mammalian liver Oatps/OATPs. The phalloidin analogue [(3)H]-demethylphalloin was taken up into skate hepatocytes with high affinity (Km approximately 0.4 microM), and uptake could be inhibited by phalloidin and a variety of typical Oatp/OATP substrates such as bromosulfophthalein, bile salts, estrone-3-sulfate, cyclosporine A and high concentrations of microcystin-LR (Ki approximately 150 microM). When expressed in Xenopus laevis oocytes Oatp1d1 increased uptake of demethylphalloin (Km approximately 2.2 microM) and microcystin-LR (Km approximately 27 microM) 2- to 3-fold over water-injected oocytes, whereas the alternative skate liver organic anion transporter, the dimeric Ostalpha/beta, exhibited no phalloidin and only minor microcystin-LR transport. Also, the closest mammalian Oatp1d1 orthologue, the human brain and testis OATP1C1, did not show any phalloidin transport activity. These results demonstrate that the evolutionarily ancient Oatp1d1 is able to mediate uptake of cyclic oligopeptide toxins into skate liver. The findings support the notion that Oatp1d1 is a precursor of the liver-specific mammalian Oatps/OATPs and that its transport properties are closely associated with certain forms of toxic liver injury such as for example protein phosphatase inhibition by the water-borne toxin microcystin.     

Sodium fluorescein is a probe substrate for hepatic drug transport mediated by OATP1B1 and OATP1B3

The aim of this study was to characterize the in vitro hepatic uptake kinetics of sodium fluorescein (NaFluo) and identify the transporters involved. NaFluo exhibited saturable uptake kinetics in suspended rat and human hepatocytes as reflected by K_m values of 22.5 and 14.1 µM, and V_max values of 98.3 and 5.8 pmol/(million cells ? min), respectively. Coincubation with known inhibitors (e.g. rifampicin) of organic anion transporting polypeptide (OATP/Oatp; SLCO gene family) significantly decreased NaFluo uptake in hepatocytes. In contrast, neither inhibitors/substrates of the organic cation transporter or organic anion transporter family nor depletion of extracellular sodium resulted in significant inhibition of NaFluo uptake. To explore the contribution of individual uptake transporters, NaFluo uptake was determined in Chinese hamster ovary cells transfected with OATP1B1, OATP1B3, and OATP2B1. Transporter‐mediated uptake of NaFluo was observed in OATP1B1‐ and OATP1B3‐transfected cells (K_m = 4.2 and 10.9 µM; V_max = 30.9 and 135 [pmol/(mg protein ? min)], respectively). NaFluo can be used as a probe substrate to study Oatp/OATP1B‐mediated drug interactions in fluorescence‐based in vitro transport assays of rat and human liver. Labeling of drugs or bile salts with a fluorescein moiety can be expected to result in fluorescent conjugates with substantially altered hepatic uptake characteristics as compared with the unconjugated compounds. © 2011 Wiley‐Liss, Inc. and the American Pharmacists Association J Pharm Sci 100:5018–5030, 2011     

Transport of prostaglandin E1 across the blood-brain barrier in rats

The transport of prostaglandin E(1) (PGE(1)) across the blood-brain barrier (BBB) was characterized using an in-situ rat brain perfusion technique. The uptake of [(3)H]PGE(1) was not affected by shortchain monocarboxylic acids (butyric acid and valeric acid). On the other hand, uptake of [(3)H]PGE(1) was significantly inhibited by medium-chain monocarboxylic acids such as hexanoic acid, enanthic acid and octanoic acid. These medium-chain monocarboxylic acids showed a more potent inhibitory effect on [(3)H]PGE(1) uptake with increasing number of carbon atoms. In contrast, there was no decrease in [(3)H]PGE(1) transport by any dicarboxylic acids with 5-8 carbon atoms. Valproic acid decreased [(3)H]PGE(1) uptake, whereas p-aminohippuric acid, a substrate for the organic anion transporter family, did not inhibit [(3)H]PGE(1) transport. Bromocresol green, an inhibitor of prostaglandin transporter (PGT), strongly decreased [(3)H]PGE(1) transport across the BBB. In addition, digoxin and taurocholate, substrates for organic anion transporting polypeptide subtype 2 (Oatp2), significantly inhibited [(3)H]PGE(1) uptake. RT-PCR analysis revealed that PGT mRNA and Oatp2 mRNA are expressed in a capillary-rich fraction from rat brain. Thus, it is suggested that PGE(1) transport across the BBB is mediated by some specific transport systems, possibly by the members of the Oatp family.     

Organic anion transporting polypeptides expressed in liver and brain mediate uptake of microcystin

Microcystins are toxins produced by freshwater cyanobacteria. They are cyclic heptapeptides that exhibit hepato- and neurotoxicity. However, the transport systems that mediate uptake of microcystins into hepatocytes and across the blood-brain barrier have not yet been identified. Using the Xenopus laevis oocyte expression system we tested whether members of the organic anion transporting polypeptide superfamily (rodent: Oatps; human: OATPs) are involved in transport of the most common microcystin variant microcystin-LR by measuring uptake of a radiolabeled derivative dihydromicrocystin-LR. Among the tested Oatps/OATPs, rat Oatp1b2, human OATP1B1, human OATP1B3, and human OATP1A2 transported microcystin-LR 2- to 5-fold above water-injected control oocytes. This microcystin-LR transport was inhibited by co-incubation with the known Oatp/OATP substrates taurocholate (TC) and bromosulfophthalein (BSP). Microcystin-LR transport mediated by the human OATPs was further characterized and showed saturability with increasing microcystin-LR concentrations. The apparent K(m) values amounted to 7 +/- 3 microM for OATP1B1, 9 +/- 3 microM for OATP1B3, and 20 +/- 8 microM for OATP1A2. No microcystin-LR transport was observed in oocytes expressing Oatp1a1, Oatp1a4, and OATP2B1. These results may explain some of the observed organ-specific toxicity of microcystin-LR. Oatp1b2, OATP1B1, and OATP1B3 are responsible for microcystin transport into hepatocytes, whereas OATP1A2 mediates microcystin-LR transport across the blood-brain barrier.     

Synthesis of [3H]ABT‐518, a matrix metalloproteinase inhibitor (MMPI) labeled in the phenyl rings

A novel matrix metalloproteinase inhibitor, ABT‐518, [S‐(R^*, R^*)]‐N‐[1‐(2, 2‐dimethyl‐1,3‐dioxol‐4‐yl)‐2‐[[4‐[4‐(trifluoromethoxy)‐phenoxy]phenyl]sulfonyl]ethyl]‐N‐hydroxyformamide, was labeled with tritium in two phenyl rings in a seven‐step synthesis. The overall radiochemical yield of [³H]ABT‐518 in seven steps starting from 1‐(methylsulfonyl)‐4‐[4‐(trifluoromethoxy)phenoxy]benzene was 6.2% with the radiochemical purity of 99.4%. Copyright © 2009 John Wiley & Sons, Ltd.     

Hepatic transport of PKI166, an epidermal growth factor receptor kinase inhibitor of the pyrrolo-pyrimidine class, and its main metabolite, ACU154.

PKI166, a specific inhibitor of the tyrosine kinase activity of two epidermal growth factor receptors, was under development for the treatment of cancer. In preclinical studies PKI166 was mainly cleared by metabolism, and its metabolites were eliminated by biliary excretion, emphasizing the role of liver transport processes for its disposition. Here the transport properties of [14C]PKI166 and its main metabolite [14C]ACU154, an O-glucuronide, were analyzed using 1) Madin-Darby canine kidney II (MDCKII) cells stably transfected with human multidrug resistance-associated protein 2 (MRP2) and/or human organic anion-transporting peptide 2 (OATP2) and 2) liver canalicular membrane vesicles (CMVs) prepared from Wistar and mrp2-deficient TR- rats. Analysis of transport through MDCKII cells revealed that [14C]ACU154 was a substrate of MRP2 and OATP2. Rat mrp2 was shown to transport [14C]ACU154 with a Km of approximately 1 microM. [14C]PKI166 efficiently crossed MDCKII cells, particularly toward the apical side, but expression of MRP2 and/or OATP2 did not increase the flux. The effect of PKI166 and ACU154 on transport of [3H]estradiol-17beta-d-glucuronide (EG; via mrp2/MRP2 and OATP2) or [3H]taurocholic acid (TCA; via bile salt export pump (bsep) was analyzed. PKI166 inhibited the transport of [3H]EG by OATP2. ACU154 did strongly inhibit [3H]TCA uptake into CMVs from Wistar but not from TR- rats, demonstrating a dependence of bsep inhibition on mrp2 activity. ATP-dependent uptake of [3H]EG into CMVs from Wistar rats was inhibited by ACU154 but up to 4-fold increased by PKI166. In conclusion, OATP2 and MRP2/mrp2 were identified as transporters involved in ACU154 transport into bile. Both PKI166 and its O-glucuronide ACU154 affected mrp2/MRP2-, OATP2-, and/or bsep-mediated transport processes.     

In vitro inhibition of OATP-mediated uptake of phalloidin using bile acid derivatives

Hepatocyte uptake of phalloidin is carried out mainly by OATP1B1. We have used this compound as a prototypic substrate and assayed the ability to inhibit OATP-mediated phalloidin transport of four bile acid derivatives (BALU-1, BALU-2, BALU-3 and BALU-4) that showed positive results in preliminary screening. Using Xenopus laevis oocytes for heterologous expression of transporters, BALUs were found to inhibit taurocholic acid (TCA) transport by OATP1B1 (but not OATP1B3) as well as by rat Oatp1a1, Oatp1a4 and Oatp1b2. The study of their ability to inhibit sodium-dependent bile acid transporters revealed that the four BALUs induced an inhibition of rat Asbt-mediated TCA transport, which was similar to TCA-induced self-inhibition. Regarding human NTCP and rat Ntcp, BALU-1 differs from the other three BALUS in its lack of effect on TCA transport by these proteins. Using HPLC–MS/MS and CHO cells stably expressing OATP1B1 the ability of BALU-1 to inhibit the uptake of phalloidin itself by this transporter was confirmed. Kinetic analysis using X. laevis oocytes revealed that BALU-1-induced inhibition of OATP1B1 was mainly due to a competitive mechanism (Ki = 8 μM). In conclusion, BALU-1 may be useful as a pharmacological tool to inhibit the uptake of compounds mainly taken up by OATP1B1 presumably without impairing bile acid uptake by the major carrier accounting for this process, i.e., NTCP.     

Preparation of high specific activity tritium‐labelled leukotriene B4 suitable for radioligand binding assay

We describe a method of preparation of high specific activity tritium‐labelled leukotriene (LT) B₄ from [5,6,8,9,11,12,14,15‐³H] arachidonic acid (AA; 6.66 TBq/mmol) utilizing a LTB₄‐synthesizing enzyme system from rat basophilic leukemia (RBL‐1) cells. It was shown that both cyclooxygenase inhibitor indomethacin and adenosine 5′‐triphosphate induced [³H] AA transformation to [³H] LTB₄. In optimized conditions up to 15% of total radioactivity of the incubation mixture was present in [³H] LTB₄. A separation of [³H] LTB₄ from other labelled C_20:4 products was achieved by a three‐step reverse phase‐high‐performance liquid chromatography in methanol‐ and acetonitrile‐based solvent systems. [³H] LTB₄ was confirmed to be identical to the naturally occurring LTB₄ by a radioligand binding assay using a culture of HF1 cells that express a BLT₁ receptor. Copyright © 2008 John Wiley & Sons, Ltd.     

Transport properties of 3′-azido-3′-deoxythymidine and 2′,3′-dideoxyinosine in the rat choroid plexus

Transport properties of 3′-azido-3′-deoxythymidine (AZT) and 2′, 3′-dideoxyinosine (DDI) were characterized in the isolated rat choroid plexus. AZT and DDI competitively inhibited the active transport of [³H]benzylpenicillin, a prototypic organic anion, with K_i values of 85·4±13·1 and 155±22 μM, respectively. Accumulation of [³H]DDI was against an electrochemical potential via a saturable process (K_m=29·7±4·9 μM, V_max=13·5±2·4 pmol min⁻¹/μL tissue) that was inhibited by metabolic inhibitors (carbonylcyanide p -trifluoromethoxyphenylhydrazone, 10 μM, and rotenone, 30 μM) and sulphydryl reagents (p -chloromercuribenzoic acid, 100 μM, and p -chloromercuribenzenesulphonic acid, 100 μM), but did not require an inwardly directed Na⁺ gradient. Accumulation of [³H]DDI was inhibited by benzylpenicillin and AZT in a dose-dependent manner, with IC₅₀ values of 91·6±28·9 and 294±84 μM, respectively. In contrast, no significant accumulation of [³H]AZT was observed. These results suggest that DDI is transported, at least in part, by the transport system for organic anions located on the rat choroid plexus, whereas AZT is recognized, but not transported by this system. © 1997 John Wiley & Sons, Ltd.     

In vitro evaluation of potential transporter‐mediated drug interactions of evogliptin

To date, little is known about the transporter‐mediated drug–drug interaction (DDI) potential of evogliptin, a novel DPP‐4 inhibitor. The objective of this study was to evaluate the DDI potential of evogliptin using various in vitro assays in transporter‐expressing cell lines. After incubating evogliptin with cells overexpressing OAT1, OAT3, OCT2, OATP1B1 and OATP1B3, there was no notable cellular accumulation of evogliptin (fold accumulation, 0.41–1.86). In bidirectional transport assays using a Caco‐2 cell monolayer, a high efflux ratio (ER, 522) of evogliptin was observed, which was significantly decreased (97.96%) in the presence of a potent P‐gp inhibitor. In assays using MDCKII‐BCRP cell monolayers, by contrast, a low net ER (1.16–1.26) was found. In similar cellular uptake and bidirectional studies with probe substrates of P‐gp, BCRP, OAT1, OAT3, OCT2, OATP1B1 and OATP1B3, the active transport of the substrates was not significantly suppressed by evogliptin. These results suggest that evogliptin may be a substrate of P‐gp, but not a substrate of BCRP, OAT1B1, OAT1B3, OAT1, OAT3 or OCT2, and not an inhibitor of any of these transporters. Therefore, it could be concluded that evogliptin has some DDI potential involving P‐gp, but it has low potential of DDI mediated by the other transporters.     

A comparison of the effects of sibutramine hydrochloride,bupropion and methamphetamine on dopaminergic function: evidence that dopamine is not a pharmacological target for sibutramine

Sibutramine hydrochloride, a novel monoamine reuptake inhibitor antidepressant, has been studied to determine whether it alters dopaminergic function in the brain. Its effects have been compared with bupropion, a dopamine reuptake inhibitor, and methamphetamine, a dopamine reuptake inhibitor and releasing agent. Sibutramine (0.1–3 mg/kg PO) and methamphetamine (0.3–30 mg/kg PO) both prevented reserpine (0.75 mg/kg IV) ptosis in rats with ED₅₀ values of 0.6 mg/kg and 4.2 mg/kg, respectively. Bupropion (10–100 mg/kg PO) was ineffective against reserpine ptosis. The efflux of [³H]-dopamine from preloaded rat striatal slices was not altered by 10^–7–10^–5 M concentrations of sibutramine, BTS 54 354, BTS 54 505 (secondary and primary amine metabolites, respectively) or bupropion. In contrast, methamphetamine (10^–8–10^–4 M) caused a significant concentration-dependent increase in [³H]-dopamine release. Sibutramine (3 mg/kg IP or 6 mg/kg PO) and bupropion (10 mg/kg IP or 430 mg/kg PO) did not alter 3-methoxy-tyramine (3-MT) levels in rat striatum. Striatal 3-MT concentrations were, however, dose-dependently increased by methamphetamine (0.3–10 mg/kg IP or 0.42–4.2 mg/kg PO). Sibutramine (6 mg/kg PO) did not induce circling in rats with unilateral 6-hydroxydopamine lesions of the nigrostriatal dopaminergic neuronal tract. Bupropion (10–100 mg/kg PO) did not induce circling at the lowest dose, but caused increasing ipsilateral rotation at higher doses. Methamphetamine (0.42 or 4.2 mg/kg PO) induced ipsilateral circling with marked effects at the higher dose. In a two-choice lever pressing model using rats trained to discriminated-amphetamine (0.5 mg/kg IP) from saline, sibutramine (0.3–3 mg/kg IP) generalised to the saline lever. Bupropion (3–30 mg/kg IP) generalised tod-amphetamine at the highest dose, while methamphetamine (0.1–5 mg/kg IP) generalised to this lever at doses as low as 0.3 mg/kg. Overall, the rank order of potency for enhancing central dopaminergic function is methamphetamine > bupropion >> sibutramine. The data therefore indicate that dopamine is unlikely to be an important pharmacological target for reuptake inhibition by sibutramine.