Effects of herbal components on cDNA-expressed cytochrome P450 enzyme catalytic activity

We evaluated the effects of 25 purified components of commonly used herbal products on the catalytic activity of cDNA-expressed cytochrome P450 isoforms in in vitro experiments. Increasing concentrations of the compounds were incubated with a panel of recombinant human CYP isoforms (CYP1A2, CYP2C9, CYP2C19, CYP2D6 and CYP3A4) and their effects on the conversion of specific surrogate substrates measured fluorometrically in a 96-well plate format. For each test substance, the IC50 (the concentration required to inhibit metabolism of surrogate substrates by 50%) was estimated and compared with IC50's for the positive control inhibitory drugs furafylline, sulfaphenazole, tranylcypromine, quinidine, and ketoconazole. Constituents of Ginkgo biloba (ginkgolic acids I and II), kava (desmethoxyyangonin, dihydromethysticin, and methysticin), garlic (allicin), evening primrose oil (cis-linoleic acid), and St. John's wort (hyperforin and quercetin) significantly inhibited one or more of the cDNA human P450 isoforms at concentrations of less than 10 uM. Some of the test compounds (components of Ginkgo biloba, kava, and St. John's wort) were more potent inhibitors of the isoforms 1A2, 2C19, and 2C19 than the positive controls used in each assay (furafylline, sulfaphenazole, and tranylcypromine, respectively), which are known to produce clinically significant drug interactions. The enzyme most sensitive to the inhibitory of effects of these compounds was CYP2C19, while the isoform least effected was CYP2D6. These data suggest that herbal products containing evening primrose oil, Ginkgo biloba, kava, and St. John's Wort could potentially inhibit the metabolism of co-administered medications whose primary route of elimination is via cytochrome P450.     

Cross-linking of human cytochrome P450 2B6 to NADPH-cytochrome P450 reductase: Identification of a potential site of interaction

The site(s) of interaction between human cytochrome P450 2B6 and NADPH-cytochrome P450 reductase (P450 reductase) have yet to be identified. To investigate this, the cross-linking agent 1-ethyl-3-[3-dimethylaminopropyl]carbodiimide hydrochloride (EDC) was used to covalently link P450 2B6-P450 reductase. Following digestion with trypsin, the cross-linked peptides were identified by reconstituting the peptides in ¹⁸O-water based on the principle that the cross-linked peptides would be expected to incorporate twice as many ¹⁸O atoms as the non-cross-linked peptides. Subsequent mass spectrometric analyses of the resulting peptides led to the identification of one cross-linked peptide candidate. De novo sequencing of the peptide indicated that it is a complex between residues in the C-helix of the P450 (based upon solved X-ray crystal structures of P450 2B4) and the connecting domain of the P450 reductase. To confirm this experimentally, the P450 2B6 peptide identified through the cross-linking studies was synthesized and peptide competition studies were performed. In the presence of the synthetic peptide, P450 catalytic activity was decreased by up to 60% when compared to competition studies performed using a nonsense peptide. Taken together, these studies indicate that residues in the C-helix of P450 2B6 play a major role in the interaction with the P450 reductase.     

细胞色素P450酶系循环催化的新途径

细胞色素P45 0酶系的循环催化反应需要电子供体NADPH或NADH等辅助因子系统 ,因此它在实际应用中受到制约。用电极电解或锌粉作电子供体取代NADPH辅助因子可以获得与NADPH相似的底物转换率。此外 ,还讨论了P45 0的“定向进化”产生的突变体在无NADPH等辅助因子存在下 ,通过“过氧化物途径”使底物羟基化。     

链霉菌细胞色素P450研究进展

链霉菌中存在大量的细胞色素P450,它们在链霉菌次生代谢产物的生物合成和外来化学物质代谢过程中发挥了重要作用.本文综述了链霉菌中发现的细胞色素P450及其功能的研究进展,分析了存在的问题和研究应用前景.     

An evaluation of the P450 inhibition and induction potential of daptomycin in primary human hepatocytes

Two in vitro studies assessed the potential of daptomycin (Cubicin), a newly marketed antibiotic, to affect the cytochrome P450 (CYP450) isoforms in primary cultured human hepatocytes. Both induction and inhibition of isoforms 1A2, 2A6, 2C9, 2C19, 2D6, 2E1, and 3A4 were evaluated. The highest concentrations of daptomycin used in both the induction and inhibition assays were approximately eight-fold higher than the peak total drug concentration (50-60 microg/mL), or the peak free drug concentration (estimated 5-6 microg/mL), in plasma at the clinical dose regimen of 4 mg/kg qd. Results in primary human hepatocytes indicate that daptomycin, at concentrations up to 400 microg total drug/mL, demonstrated no biologically significant induction of any of the CYP450 isoform activities in comparison with the negative control or known inducers. At daptomycin concentrations up to 40 microg free drug/mL, no biologically significant inhibition of the activities of these CYP450 isoforms was observed as compared with known inhibitors. The human hepatocyte results demonstrate that daptomycin has no effects on hepatic CYP450-mediated drug metabolism and, therefore, suggest that daptomycin is unlikely to show potential for pharmacokinetic interactions with concomitantly administered drugs that are metabolized by CYP450 isoforms.     

细胞色素P450还原酶与CYP17的共表达及其功能分析*

17α-羟基黄体酮(17α-OH-PROG)是甾体激素类药物的关键中间体,其生物合成主要由细胞色素单加氧酶(CYP17)催化生成。在此过程中,细胞色素 P450还原酶(cytochrome P450 reductase,CPR)作为细胞色素P450 酶电子传递链的重要组成部分,直接影响CYP17的催化效率。为研究不同来源CPR与17α-羟化酶的适配性,首先以人源17α-羟化酶作为研究对象,构建了表达质粒pPIC3.5k-hCYP17,获得了重组毕赤酵母菌株。其次筛选获得3种不同来源CPR,构建了表达质粒 pPICZX-CPR,获得17α-羟化酶与CPR共表达菌株,并在毕赤酵母中进行转化实验,对转化产物进行薄层色谱(TLC)和高效液相色谱(HPLC)分析。结果显示,重组菌株具有17α-羟化酶活性,能够催化黄体酮生成目标产物17α-OH-PROG 以及副产物16α-羟基黄体酮(16α-OH-PROG)。不同来源的CPR与17α-羟化酶共表达与仅表达17α-羟化酶的产率相比均有所提高,其中hCPR-CYP17共表达菌株表现出最高的转化水平,17α-OH-PROG产率提高42%。上述结果表明:17α-羟化酶基因与CPR共表达能够提高其黄体酮17α-羟基化水平。为甾体黄体酮17α-羟基化的生物催化研究提供思路,对甾体药物的工业生产具有重要意义。     

细胞色素P450酶系与除草剂代谢

细胞色素P450是广泛存在于动物、植物和微生物体内的一类具有混合功能的血红素氧化酶系。它不但能够催化苯丙烷类、萜类化合物和脂肪酸等内源性物质的生物合成 ,而且参与许多外源性物质包括除草剂等的生物氧化。综述了代谢除草剂的细菌、哺乳动物和植物细胞色素P450酶系 ,概述了细胞色素P450酶系参与除草剂代谢的作用方式 :脱烷基化作用、环甲基化羟基化作用和芳环的羟基化作用等。这些细胞色素P450酶系在培育除草剂抗性作物、生物安全和生物修复方面表现出了巨大的潜能     

Cytochrome P450 in living donor liver transplantation

Cytochrome P450 metabolizes many drugs in the liver. Three genotypes of CYP2C19 with extensive, intermediate, and poor metabolizing activity, respectively, have been identified in peripheral blood of transplant recipients and new liver grafts in living donor liver transplantation (LDLT). The expression of the final genotype in liver graft biopsies depends on the donor, whereas the expression in peripheral blood mononuclear cells depends on the recipient. The metabolizing isoenzyme of the major anti-rejection agents passes through CYP3A4, CYP3A5 and MDR1, which have also been identified to have similar biological characteristics as genotype of CYP2C19 in liver tissue. Recently, pyrosequencing has been used to investigate the expressions of different genotypes in liver grafts in LDLT. This review focuses on recent findings regarding the biological expressions of the CYP2C19, CYP3A4, CYP3A5 and MRD1 genotypes in liver grafts before and after LDLT. The application of pyrosequencing may be beneficial in further research on liver transplantation. Laser capture microdissection of hepatocytes in liver grafts may be a direction for future research.     

Phylogenetic Analysis of the Cytochrome P450 3 (CYP3) Gene Family

Cytochrome P450 genes (CYP) constitute a superfamily with members known from the Bacteria, Archaea, and Eukarya. The CYP3 gene family includes the CYP3A and CYP3B subfamilies. Members of the CYP3A subfamily represent the dominant CYP forms expressed in the digestive and respiratory tracts of vertebrates. The CYP3A enzymes metabolize a wide variety of chemically diverse lipophilic organic compounds. To understand vertebrate CYP3 diversity better, we determined the killifish (Fundulus heteroclitus) CYP3A30 and CYP3A56 and the ball python (Python regius) CYP3A42 sequences. We performed phylogenetic analyses of 45 vertebrate CYP3 amino acid sequences using a Bayesian approach. Our analyses indicate that teleost, diapsid, and mammalian CYP3A genes have undergone independent diversification and that the ancestral vertebrate genome contained a single CYP3A gene. Most CYP3A diversity is the product of recent gene duplication events. There is strong support for placement of the guinea pig CYP3A genes within the rodent CYP3A diversification. The rat, mouse, and hamster CYP3A genes are mixed among several rodent CYP3A subclades, indicative of a complex history involving speciation and gene duplication. Phylogenetic analyses suggest two CYP3A gene duplication events early in rodent history, with the rat CYP3A9 and mouse Cyp3a13 clade having a sister relationship to all other rodent CYP3A genes. In primate history, the human CYP3A43 gene appears to have a sister relationship to all other known primate CYP3A genes. Other, more recent gene duplications are hypothesized to have occurred independently within the human, pig, rat, mouse, guinea pig, and fish genomes. Functional analyses suggest that gene duplication is strongly tied to acquisition of new function and that convergent evolution of CYP3A function may be frequent among independent gene copies. Current address (Rachel L. Cox): Laboratory of Aquatic Biomedicine, Marine Biology Laboratory, Woods Hole, MA 02543, USA     

Cytochrome P450: major player in reperfusion injury

While attention has historically focused on mitochondria as the primary source of ROS in myocardial ischemia/reperfusion injury, recent evidence has implicated cytochrome P450 monooxygenases (CYPs) as a significant factor. CYPs represent a large family of enzymes that catalyze the oxidation of endogenous and exogenous compounds. They catalyze arachidonic acid oxidation to a variety of biologically active eicosanoids that regulate ion channels and protein kinases, with effects on vasomotor tone and cardiac inotropy. They also represent a significant source of reactive oxygen species that may target cellular homeostatic mechanisms and mitochondria. In this review, we will consider the contribution of cytochrome P450 enzymes to reperfusion injury and will speculate on whether the mechanism of injury is due to CYP-mediated ROS production or arachidonic acid metabolites.     

不同杀虫剂处理对赤拟谷盗P450基因诱导表达特性影响

害虫细胞色素P450基因可被杀虫剂迅速诱导,然而当前对不同杀虫剂处理下赤拟谷盗P450基因诱导表达特性的研究较少。本研究首先通过序列比对选取了来自不同家族的8个赤拟谷盗P450基因CYP4G7、CYP4Q4、CYP4BR3、CYP12H1、CYP6BK11、CYP9D4、CYP9Z5和CYP345A1,然后采用四种不同杀虫剂氯氰菊酯、氟氯氰菊酯、氯菊酯和吡虫啉对赤拟谷盗20 d幼虫进行生物测定,再根据生测结果以四个药剂亚致死剂量分别处理幼虫,并采用荧光定量PCR分析8个P450基因的表达特性。结果表明,CYP4G7和CYP345A1可以分别被氯氰菊酯(分别上调1.97倍和2.06倍)、氟氯氰菊酯(2.00倍和2.03倍)和氯菊酯(1.73倍和1.81倍)显著诱导,而CYP4BR3和CYP345A1可以被吡虫啉(分别上调1.99倍和1.93倍)显著诱导。本研究结果表明赤拟谷盗P450基因的显著诱导与基因家族类型以及农药品种有关。     

细胞色素P450基因多态性与药物代谢研究进展

细胞色素P450（cytochrome P450,CYP450）在人体药物代谢过程中起着非常重要的作用并参与代谢80%以上的临床药物。由于CYP450在不同种族和不同人群中存在基因多态性,从而造成药物反应的个体差异,一度成为药物基因组学研究的热点。通过查阅国外相关文献,综述了近年来关于CYP1A2、CYP2C9、CYP2C19、CYP2D6和CYP3A4五种主要的药物代谢酶的基因多态性和药物代谢的研究进展,为临床指导个体化用药、避免药物不良反应和新药研发提供科学参考依据。     

Cytochrome P450 52A3: Modelling of 3D Structure and Surface Mutations

Abstract

Earlier W.-H. Schunck et al. [1] have prepared a water soluble enzymatically active fragment of cytochrome P450 52A3 (CYP52A3) which is lack of 66 amino acid residues, existed as a dimer in aqueous solution. Now we propose 3D structure of the fragment, which is based on multiple sequence alignment of the CYP52A3 with its homologues proteins of known 3D structure: CYP101, 102, 107A1 and 108. The structural model have been optimised and used as a prototype for computer simulation of point mutations. These mutations should bring some changes in the surface properties, interfering dimer formation. For this aim the point of 22 hydrophobic amino acid residues have been sequentially replaced with that of charged amino acids (GLU, ASP, ARG and LYS). The scoring of “mutants” was conducted based on the changes of protein surface hydrophobicity and protein-solvent interaction energy. An analysis of the surface hydrophobicity and protein-solvent interactions permit to select most sensitive three sites (171, 352 and particularly 164 amino acid residues). The dimerization of the following “mutant” fragments must be investigated experimentally.     

Cytochrome P450 systems—biological variations of electron transport chains

Cytochromes P450 (P450) are hemoproteins encoded by a superfamily of genes nearly ubiquitously distributed in different organisms from all biological kingdoms. The reactions carried out by P450s are extremely diverse and contribute to the biotransformation of drugs, the bioconversion of xenobiotics, the bioactivation of chemical carcinogens, the biosynthesis of physiologically important compounds such as steroids, fatty acids, eicosanoids, fat-soluble vitamins and bile acids, the conversion of alkanes, terpenes and aromatic compounds as well as the degradation of herbicides and insecticides. Cytochromes P450 belong to the group of external monooxygenases and thus receive the necessary electrons for oxygen cleavage and substrate hydroxylation from different redox partners. The classical as well as the recently discovered P450 redox systems are compiled in this paper and classified according to their composition.     

细胞色素P450调节肝脏药物代谢的途径

大量研究认为细胞色素P450与药物性肝损伤的病理生理过程密切相关,对其在肝损伤的作用已成为当前研究的一个热点.主要介绍细胞色素P450与药物性肝损伤的相关研究进展.     

Phenomenon of Activation of Cytochrome P450 by Nonionic Detergents

Mechanism of substitution of nonionic detergent Emulgen 913 for phospholipid as an activator of N-demethylase activity of cytochrome P450 form 2B4 (LM₂) has been studied. It is shown that such an activation takes place at the detergent concentrations below values critical for micelle formation. Under these conditions, Emulgen does not affect the hexameric state of the cytochrome. The stimulating effect proved to be similar in reconstituted monooxygenase systems containing (a) cytochrome P450 2B4 and NADPH-cytochrome P-450 reductase and (b) cytochrome 2B4 and organic hydroperoxides. These results indicate that the activation is due to an effect of the detergent upon P450 2B4 per se rather than upon P450/flavoprotein complex formation. The above conclusion is supported by the sedimentation data and measurement of the CD spectra of cytochrome P450 2B4 at 380–450 nm.     

细胞色素P450的多样性与介导抗性的研究

细胞色素单加氧酶是一类广泛分布在生物体内的重要酶系,在生物体内广泛分布,CYP450参与多种外源性化合物的代谢,内源性物质的合成,在生物体起到十分重要的作用,对P450的研究已从最开始的功能与定位深入到了它的分子机制和多样性等的研究,就P450的多样性、介导抗性的机制和分离方法作一综述。     

Cytochrome P450 binding studies of novel tacrine derivatives: Predicting the risk of hepatotoxicity

The 1,2,3,4-tetrahydroacridine derivative tacrine was the first drug approved to treat Alzheimer’s disease (AD). It is known to act as a potent cholinesterase inhibitor. However, tacrine was removed from the market due to its hepatotoxicity concerns as it undergoes metabolism to toxic quinonemethide species through the cytochrome P450 enzyme CYP1A2. Despite these challenges, tacrine serves as a useful template in the development of novel multi-targeting anti-AD agents. In this regard, we sought to evaluate the risk of hepatotoxicity in a series of C9 substituted tacrine derivatives that exhibit cholinesterase inhibition properties. The hepatotoxic potential of tacrine derivatives was evaluated using recombinant cytochrome (CYP) P450 CYP1A2 and CYP3A4 enzymes. Molecular docking studies were conducted to predict their binding modes and potential risk of forming hepatotoxic metabolites. Tacrine derivatives compound 1 (N-(3,4-dimethoxybenzyl)-1,2,3,4-tetrahydroacridin-9-amine) and 2 (6-chloro-N-(3,4-dimethoxybenzyl)-1,2,3,4-tetrahydroacridin-9-amine) which possess a C9 3,4-dimethoxybenzylamino substituent exhibited weak binding to CYP1A2 enzyme (1, IC₅₀ = 33.0 µM; 2, IC₅₀ = 8.5 µM) compared to tacrine (CYP1A2 IC₅₀ = 1.5 µM). Modeling studies show that the presence of a bulky 3,4-dimethoxybenzylamino C9 substituent prevents the orientation of the 1,2,3,4-tetrahydroacridine ring close to the heme-iron center of CYP1A2 thereby reducing the risk of forming hepatotoxic species.