Rapid screening of antineoplastic candidates for the human organic anion transporter OATP1B3 substrates using fluorescent probes

A rapid screening system has been established to extract novel candidates that exhibit potent inhibition of the transport of fluorescent substrate by organic anion transporting polypeptide (OATP) 1B3. OATP1B3 is abundantly expressed in solid digestive organ cancers. Thus, the identification of new substrates leads to novel strategies for effective cancer chemotherapy with minimal adverse effects. We used an automated image acquisition and analysis system (IN Cell Analyzer 1000) to visualize the transport and subsequent accumulation of the fluorescent substrate chenodeoxycholyl-(Nε-NBD)-lysine (CDCA-NBD). Antineoplastic screening demonstrated that five candidates agents, docetaxel, actinomycin D, mitoxantrone, paclitaxel, and SN-38, exhibited potent inhibitory effects on OATP1B3-mediated transport of CDCA-NBD. To clarify if these antineoplastic drugs are substrates for OATP1B3, we performed transport assays in OATP1B3-expressing cells. We determined that SN-38 is a novel substrate for OATP1B3. In conclusion, our results demonstrate that the screening system established in this study is a useful method for the rapid extraction of candidate therapeutic agents from the large numbers of compounds.     

有机阴离子转运多肽1B1（OATP1B1）基因多态性对他汀类药物影响的研究进展

有机阴离子转运多肽1B1(OATP1B1)是一种负责转运多种内外源性物质进入肝细胞发挥作用的摄入型转运蛋白。他汀类药物又称3-羟基-3-甲基戊二酸单酰辅酶A(HMG-CoA)还原酶抑制剂,临床上广泛应用于调脂及心脑血管疾病的预防,其疗效及不良反应有显著的个体化差异。研究表明OATP1B1基因多态性是导致他汀类药物个体化差异的重要因素。对OATP1B1基因多态性对他汀类药物影响的研究进展进行综述,为他汀类药物的个体化、安全化应用提供可能的理论指导。     

Experimental and mathematical analysis of in vitro Pitavastatin hepatic uptake across species

Abstract

1.?To investigate the non-linear kinetics of in vitro hepatocyte uptake across species, the OATP substrate Pitavastatin was used as a probe.

2.?Experiments were conducted at AstraZeneca (Alderley Park, Macclesfield) using freshly isolated rat, dog and human hepatocytes, utilising the “oil spin” methodology described by Hassen et al. (1996). Very few mechanistic models have previously been used to characterise the uptake process.

3.?Here two candidate pharmacokinetic non-linear compartmental models are proposed. Both models have been shown to be structurally identifiable and distinghishable previously, which establishes that all unknown parameters could be identified from the experimental observations available and that input/output relationships for both the candidate models were structurally different.

4.?A kinetic modelling software package, FACSIMILE (MCPA Software, Faringdon, UK), was used to obtain numerical solutions for the system equations and for parameter estimation. Model fits gave good agreement with the in vitro data and suggest the current widely accepted assumption that the rate of diffusion across the hepatocyte cell membrane is the same at both 4?°C and 37?°C is not valid, at least for Pitavastatin. Although this finding has already been proposed, this is the first time it is comprehensively debunked using statistical testing.     

Influence of Drug Transporter Polymorphisms on Pravastatin Pharmacokinetics in Humans

The role of drug transporters in pravastatin disposition is underlined by the fact that pravastatin does not undergo significant cytochrome P-450 (CYP)-mediated biotransformation. The organic anion transporting polypeptide 1B1 (OATP1B1), encoded by SLCO1B1, and multidrug resistance-associated protein 2 [MRP2 (ABCC2)], are thought to be the major transporters involved in the pharmacokinetics of pravastatin in humans. Other transporters that may play a role include OATP2B1, organic anion transporter 3 (OAT3), bile salt export pump (BSEP), and the breast cancer resistance protein (BCRP). OATP1B1 and MRP2 mediate the hepatic uptake and biliary excretion of pravastatin, respectively. The SLCO1B1 and ABCC2 polymorphisms probably contribute to the high interindividual variability in pravastatin disposition. Recent small studies have characterized the impact of the SLCO1B1 polymorphism on pravastatin in humans, and especially the c.521T>C single-nucleotide polymorphism (SNP) seems to be an important determinant of pravastatin pharmacokinetics. Pravastatin plasma concentrations may be up to 100% higher in subjects carrying the c.521C variant, as found in the *5, *15, *16, and *17 haplotypes, reflecting diminished OATP1B1-mediated uptake into the major site of pravastatin elimination, the liver. The SLCO1B1 polymorphism seems to have a similar impact on the pharmacokinetics of single- and multiple-dose pravastatin. Overall, 2–5% of individuals in various populations may be expected to show markedly elevated plasma pravastatin concentrations due to the SLCO1B1 polymorphism. Of note, the impact of the SLCO1B1 polymorphism on statins may be dependent on ethnicity. Although individuals with a diminished hepatic uptake of pravastatin might be expected to show reduced cholesterol-lowering efficacy due to lower intracellular pravastatin concentrations, there is preliminary evidence to suggest that the SLCO1B1 polymorphism is not a major determinant of non-response to pravastatin. The possible consequences of drug transporter polymorphisms, especially the SLCO1B1 and ABCC2 polymorphisms, for the lipid-lowering efficacy and tolerability of pravastatin in various ethnic groups warrant further study.     

Coordinate regulation of human drug-metabolizing enzymes, and conjugate transporters by the Ah receptor, pregnane X receptor and constitutive androstane receptor

Coordinate regulation of Phase I and II drug-metabolizing enzymes and conjugate transporters by nuclear receptors suggests that these proteins evolved to an integrated biotransformation system. Two major groups of ligand-activated nuclear receptors/xenosensors evolved: the Ah receptor (activated by aryl hydrocarbons and drugs such as omeprazole) and type 2 steroid receptors such as PXR and CAR, activated by drugs such as rifampicin, carbamazepin and phenytoin. It is increasingly recognized that there is considerable cross-talk between these xenosensors. Therefore, an attempt was made to discuss biotransformation by the Ah receptor together with that of PXR and CAR. Due to considerable species differences the emphasis is on human biotransformation. Agonists coordinately induce biotransformation due to common xenosensor-binding response elements in the regulatory region of target genes. However, whereas different groups of xenobiotics appear to more selectively stimulate CYPs (Phase I), their regulatory control largely converged in modulating Phase II metabolism and transport. Biotransformation appears to be tightly controlled to achieve efficient homeostasis of endobiotics and detoxification of dietary phytochemicals, but nuclear receptor agonists may also lead to potentially harmful drug interactions.     

Frequencies of single nucleotide polymorphisms and haplotypes of organic anion transporting polypeptide 1B1 SLCO1B1 gene in a Finnish population

Objective Organic anion transporting polypeptide 1B1 (OATP1B1) is a drug uptake transporter located at the sinusoidal membrane of hepatocytes. Our aim was to establish high-throughput genotyping assays for the major known single nucleotide polymorphisms (SNP) in the SLCO1B1 gene encoding OATP1B1 and to investigate the frequencies of SNPs and haplotypes of SLCO1B1 in a large Caucasian population.Methods Distribution of SLCO1B1 alleles was determined in 468 healthy Finnish Caucasian subjects at 11 variant sites spanning the entire gene by using allelic discrimination with TaqMan 5′ nuclease assays.Results The allelic frequencies of SLCO1B1 SNPs were 9.7% for g.−11187G>A, 0.4% for g.−11110T>G, 8.0% for g.−10499A>C, 46.2% for c.388A>G, 13.1% for c.411G>A, 13.1% for c.463C>A, 20.2% for c.521T>C, 53.2% for c.571T>C, 46.4% for c.597C>T, 4.0% for c.1929A>C and 48.8% for c.*439T>G. Altogether, 26 haplotypes were statistically inferred. The most common haplotype, with a frequency of 35.6%, contained variant allele C at position c.571, but had the reference nucleotide at all other positions investigated. The functionally significant c.521T>C SNP existed in four major haplotypes, which could be differentiated by the g.−11187G>A, g.−10499A>C and c.388A>G SNPs. The frequencies of these haplotypes were 7.9% for g.−11187G/g.−10499C/c.388G/c.521C (*16), 6.9% for AAGC (*17), 2.7% for GAAC (*5) and 2.4% for GAGC (*15).Conclusion Sequence variations of SLCO1B1 occur at high frequencies in the Caucasian population. Further studies are needed to characterise the effects of SLCO1B1 haplotypes, especially *16, *17, *15 and *5, on drug pharmacokinetics and response, and to determine the frequencies of SLCO1B1 SNPs and haplotypes in different populations.     

药物转运蛋白在药物吸收、分布和排泄中的作用及对新药研发的意义

介绍了药物转运蛋白(drug transporter)在药物处置过程中的作用，探讨了其在新药开发中应用的可能性。通过对药物转运蛋白功能的了解和利用，可以增加口服药物的生物利用度，开发出对某些器官有靶向性的药物，或避免药物分布到某些器官中，从而提高药物的疗效，降低其的毒副作用；也可以控制药物的消除速度。在药物研发过程中可以通过两种手段达到上述目的，一是根据需要选择与某些转运蛋白有作用或没有作用的先导化合物．另一个则是使用转运蛋白抑制剂。在药物研发的初始阶段，就开始重视其药动学特性，这一观念近年来已被很多人所接受。对转运蛋白的深入认识和利用，建立研究药物转运特性的有效方法，在药物开发过程中将具有非常重要的意义。