Jasmonate and salicylate induce expression of herbivore cytochrome P450 genes

Jasmonate and salicylate are plant-produced signals that activate plant defence genes after herbivory or pathogen attack. Amplification of these signals, evoked by either enemy attack or experimental manipulation, leads to an increase in the synthesis of toxic compounds (allelochemicals) and defence proteins in the plants. Although the jasmonate and salicylate signal cascades activate different sets of plant defence genes, or even act antagonistically, there is substantial communication between the pathways. Jasmonate and salicylate also contribute to protecting plants against herbivores by causing plants that experience insect damage to increase their production of volatile molecules that attract natural enemies of herbivorous insects. In response to plant defences, herbivores increase their production of enzymes that detoxify allelochemicals, including cytochrome P450s (refs 15, 16). But herbivores are potentially vulnerable to toxic allelochemicals in the duration between ingesting toxins and induction of detoxification systems. Here we show that the corn earworm Helicoverpa zea uses jasmonate and salicylate to activate four of its cytochrome P450 genes that are associated with detoxification either before or concomitantly with the biosynthesis of allelochemicals. This ability to 'eavesdrop' on plant defence signals protects H. zea against toxins produced by host plants.     

重组真菌细胞色素P450nor2在酵母细胞中的表达

酿酒酵母（Saccharomyces cerevisiae）是一种理想的真核蛋白表达系统．将真菌细胞色素P450nor2基因亚克隆到酵母表达载体pAUR123中,构建重组表达质粒pAUR-P450nor2并转化酿酒酵母AH22,经Aureobasidin A筛选和菌落PCR鉴定得到阳性克隆．SDS-PAGE分析证实：重组的真菌细胞色素P450nor2在酵母细胞中实现了高表达．     

褐飞虱细胞色素P450基因cDNA片段的克隆、测序及表达分析

利用反转录多聚酶链式反应(RT-PCR)技术克隆了褐飞虱细胞色素P450基因编码区的cDNA片段,并进行了序列测定.结果表明,所克隆到的cDNA片段长度为237bp,经BLAST查找比对发现,该片段所编码的氨基酸序列与来自烟草天蛾、棉铃虫、埃及伊蚊、家蝇、黑腹果蝇和线虫的CYP6家族的P450的氨基酸序列存在同源性.Northern杂交分析显示,在褐飞虱取食抗性水稻后,P450基因的表达水平明显升高.以上结果表明,P450基因的表达受抗性水稻的诱导,该基因在褐飞虱对抗性水稻的耐受性和解毒方面可能起着重要作用.     

Crystal structure of human cytochrome P450 2C9 with bound warfarin

Cytochrome P450 proteins (CYP450s) are membrane-associated haem proteins that metabolize physiologically important compounds in many species of microorganisms, plants and animals. Mammalian CYP450s recognize and metabolize diverse xenobiotics such as drug molecules, environmental compounds and pollutants. Human CYP450 proteins CYP1A2, CYP2C9, CYP2C19, CYP2D6 and CYP3A4 are the major drug-metabolizing isoforms, and contribute to the oxidative metabolism of more than 90% of the drugs in current clinical use. Polymorphic variants have also been reported for some CYP450 isoforms, which has implications for the efficacy of drugs in individuals, and for the co-administration of drugs. The molecular basis of drug recognition by human CYP450s, however, has remained elusive. Here we describe the crystal structure of a human CYP450, CYP2C9, both unliganded and in complex with the anti-coagulant drug warfarin. The structure defines unanticipated interactions between CYP2C9 and warfarin, and reveals a new binding pocket. The binding mode of warfarin suggests that CYP2C9 may undergo an allosteric mechanism during its function. The newly discovered binding pocket also suggests that CYP2C9 may simultaneously accommodate multiple ligands during its biological function, and provides a possible molecular basis for understanding complex drug-drug interactions.     

细胞色素P450与农药相互作用及其机理研究

综述了细胞色素P450的种类和功能多样性,介绍了细胞色素P450参与除草剂代谢及其作用机理．同时,简述了细胞色素P450 14DM与杀菌剂特异性作用的机制．报道了我们从抗除草剂的瑞士黑麦草中克隆CYP8181同源基因及其功能的研究,以及柑橘绿霉菌细胞色素P450 14DM基因的克隆表达．为深入研究杀菌剂作用细胞色素P450 14DM的机理从而设计以P450 14DM为特异性靶标的新型农药、以及进一步研究细胞色素P450酶系与除草剂代谢的关系打下了良好的基础．     

Identification of the primary gene defect at the cytochrome P450 CYP2D locus

The mammalian cytochrome P450-dependent monooxygenase system is involved in the metabolism of drugs and chemical carcinogens. The role of these enzymes in toxicological response is exemplified by an autosomal recessive polymorphism at the cytochrome P450 CYP2D6 debrisoquine hydroxylase locus which results in the severely compromised metabolism of at least 25 drugs, and which in some cases can lead to life-threatening side-effects. In addition, this polymorphism, which affects 8-10% of the caucasian population, has been associated with altered susceptibility to lung and bladder cancer. Here we report the identification of the primary mutation responsible for this metabolic defect and the development of a simple DNA-based genetic assay to allow both the identification of most individuals at risk of drug side-effects and clarification of the conflicting reports on the association of this polymorphism with cancer susceptibility.     

诺氟沙星对水生生物细胞色素P450作用机制研究进展

环境中的抗生素主要来源于生活污水、医疗废水以及水产养殖废水等.2013年中国抗生素总使用量约为1.62×10⁵ t,其中48%为人用抗生素,其余为兽用抗生素.大量具有活性的抗生素经地表径流和城市排污管道最终积聚到河流湖泊中.这些活性物质会对水生生物产生危害,尤其是在较长的时间跨度上,这种危害会进一步扩大.文章概述了近几年基于细胞色素P450(cytochrome P450,CYP450)作为检测指标,诺氟沙星(norfloxacin,NFLX)对一些水生生物的生态毒理效应.同时介绍了NFLX对于选取的指标CYP450的影响机制,以及检测这些指标的可行性方法.     

Alteration of mouse cytochrome P450coh substrate specificity by mutation of a single amino-acid residue

As a family of structurally-related enzymes, cytochrome P450 (P450) monooxygenases exhibit paradoxical characteristics: although collectively the enzymes display a broad range of substrate specificities, individually they are characterized by a high degree of substrate and product selectivity. Mouse P45015 alpha and P450coh, for example, which are expressed in female liver and male kidney cells, catalyse 15 alpha-hydroxylation of delta 4 3-ketone steroids, such as testosterone and 7-hydroxylation of coumarin, respectively. In spite of their divergent catalytic activities, however, these enzymes differ by only 11 amino acids within their 494 residues. To determine the structural basis of the different substrate specificities of P45015 alpha and P450coh we therefore altered each of these 11 residues by site-directed mutagenesis, expressing the mutant cytochromes in COS-1 cells. We report that the activities of both cytochromes depend critically on the identities of the amino acids at positions 117, 209 and 365 and, moreover, that a single mutation in which Phe 209 is substituted by Leu is sufficient to convert the specificity of P450coh from coumarin to steroid hydroxylation.     

Renal cytochrome P450-related arachidonate metabolite inhibits (Na+ + K+)ATPase

The function of the nephron, the anatomical unit of the kidney, is segmented; at least 12 segments have been identified that differ in their morphology, transport properties and hormonal responsiveness. The medullary portion of the thick ascending limb of the loop of Henle (mTALH) has one of the highest concentrations of (Na+ + K+)ATPase found in mammalian tissues, reflecting the importance of this nephron segment in the regulation of extracellular fluid volume, as active sodium transport is driven by (Na+ + K+)ATPase. Here, in cells derived primarily from the mTALH of the outer medulla of rabbit kidney, we have identified a cytochrome P450-dependent monooxygenase system which metabolizes arachidonic acid to two biologically active oxygenated products; one of the products inhibits (Na+ + K+)ATPase and the other relaxes blood vessels. We report that formation of these oxygenated arachidonate metabolites is stimulated by arginine vasopressin (AVP) and salmon calcitonin (SCT).     

Metabolism of fibrates by cytochrome P450s and UDP-glycosyltransferases in rat and human liver microsomes

Fibrates are widely used for the treatment of dyslipidemia.However,the contributions of the phase I and phase II metabolic pathways to the clearance of fibrates are unclear.In this study,we investigated the metabolism of gemfibrozil(Gem) ,clofibric acid(CA) ,fenofibric acid(FA) and bezafibrate(Beza) by cytochrome P450s(P450s) and UDP-glycosyltransferases(UGTs) using a substrate depletion approach.We also compared the metabolic characteristics of rat liver microsomes(RLM) and human liver microsomes(HLM) .The intrinsic clearance rates mediated by P450s,UGTs and both were 172 ± 22,643 ± 26,798 ± 103 μL min-1 mg-1,respectively,for Gem and 43 ± 11,88 ± 12,119 ± 15 μL min-1 mg-1,respectively,for CA in RLM.The fractions metabolized by P450s and UGTs in RLM were 22% and 81% for Gem,36% and 74% for CA.The P450-and UGT-mediated depletion rates for Gem were 303 and 1607 nmol min-1 mg-1 in RLM versus 86 and 243 nmol min-1 mg-1 in HLM.The corre-sponding rates for CA were 1.1 and 1.7 nmol min-1 mg-1 in RLM versus 0.025 and 0.038 nmol min-1 mg-1 in HLM.Accordingly,both P450s and UGTs substantially contribute to the clearance of Gem and CA,with UGTs playing a greater role.To avoid un-der-estimating the impact of these pathways,it is necessary to measure NADPH-and UDPGA-dependent metabolism.Although the fractions of these two pathways in RLM and HLM were similar,the depletion rate of Gem and CA in RLM was higher than that in HLM.The metabolism of FA and Beza by P450s and UGTs was too low to calculate intrinsic clearance in both RLM and HLM.These results indicate that fibrates are metabolized via similar pathways in rats and humans,and it is applicable to use RLM to predict the clearance of fibrates in human.     

3个白桦细胞色素P450基因生物信息学及表达分析

【目的】研究白桦细胞色素P450基因表达的组织特异性,以及在茉莉酸甲酯(MeJA)、水杨酸(SA)、赤霉素(GA₃)、脱落酸(ABA)、乙烯利和伤害处理下的基因表达模式。【方法】筛选白桦转录组,获得3个BpCYP450 基因,分别命名为BpCYP4、BpCYP5、 BpCYP14,利用生物信息学分析BpCYP450蛋白的分子结构特征及其与其他物种CYP450蛋白的亲缘关系。采用QRT-PCR技术,对白桦BpCYP450组织特异性、激素信号及伤害诱导下的表达特征进行分析。【结果】生物信息学结果表明BpCYP4、BpCYP5、BpCYP14 cDNA序列长度分别为1 569、1 584和1 530 bp,具有完整的开放阅读框(ORF),分别编码522、527和509个氨基酸,均为亲水性跨膜蛋白,主要定位于叶绿体。白桦BpCYP450与百脉根、扁豆及豌豆等豆科植物CYP450蛋白亲缘性较高。组织特异性分析结果显示,3个BpCYP450 基因在叶和根中表达较高,茎中较低。激素信号及伤害诱导结果表明,3个BpCYP450基因不同程度地响应MeJA、SA、GA₃、ABA、乙烯利激素信号及伤害诱导。【结论】3个BpCYP450基因均为CYP450基因家族的新成员,具有组织特异性及激素诱导表达特性,可能在白桦生长发育、抵御胁迫及代谢物合成中发挥重要作用。     

Structures of cytochrome P450 17A1 with prostate cancer drugs abiraterone and TOK-001

Cytochrome P450 17A1 (also known as CYP17A1 and cytochrome P450c17) catalyses the biosynthesis of androgens in humans. As prostate cancer cells proliferate in response to androgen steroids, CYP17A1 inhibition is a new strategy to prevent androgen synthesis and treat lethal metastatic castration-resistant prostate cancer, but drug development has been hampered by lack of information regarding the structure of CYP17A1. Here we report X-ray crystal structures of CYP17A1, which were obtained in the presence of either abiraterone, a first-in-class steroidal inhibitor recently approved by the US Food and Drug Administration for late-stage prostate cancer, or TOK-001, an inhibitor that is currently undergoing clinical trials. Both of these inhibitors bind the haem iron, forming a 60° angle above the haem plane and packing against the central I helix with the 3β-OH interacting with aspargine 202 in the F helix. Notably, this binding mode differs substantially from those that are predicted by homology models and from steroids in other cytochrome P450 enzymes with known structures, and some features of this binding mode are more similar to steroid receptors. Whereas the overall structure of CYP17A1 provides a rationale for understanding many mutations that are found in patients with steroidogenic diseases, the active site reveals multiple steric and hydrogen bonding features that will facilitate a better understanding of the enzyme's dual hydroxylase and lyase catalytic capabilities and assist in rational drug design. Specifically, structure-based design is expected to aid development of inhibitors that bind only CYP17A1 and solely inhibit its androgen-generating lyase activity to improve treatment of prostate and other hormone-responsive cancers.     

Up-regulation of endothelial nitric oxide synthase by cytochrome P450 arachidonic acid epoxygenase BM3F87V

Cytochrome P450 (CYP)-dependent metabolites of arachidonic acid, epoxyeicosatrienoic acids (EETs), have been suggested to be an endothelium-derived hyperpolarizing factor (EDHF). However, the interaction or relation between EDHF and endothelial nitric oxide synthase (eNOS) is still to be elucidated. In the present study, the regulation of eNOS by endogenous EDHF is examined. The cytochrome P450 epoxygenase BM3F87V is cloned into the mammalian expression vector pCB6. Cultured bovine aortic endothelial cells (BAECs) less than 4 passages are used and transfected with BM3F87V. The effects of endogenous EETs result from BM3F87V transfection on eNOS are assessed in the endothelial cells by Western blot and Northern blot, and eNOS activity is also measured by the conversion of L-arginine to L-citrulline. Compared to transfection with the empty pCB6 vector, transfection of BAECs with BM3F87V significantly elevates the levels of eNOS protein expression, which is markedly inhibited by treatment with CYP inhibitor 17-ODYA. BM3F87V transfection also elevates the eNOS mRNA level and increases the eNOS activity. This study suggests that EDHF up-regulates eNOS gene expression.     

Cloned and expressed nitric oxide synthase structurally resembles cytochrome P-450 reductase.

Nitric oxide is a messenger molecule, mediating the effect of endothelium-derived relaxing factor in blood vessels and the cytotoxic actions of macrophages, and playing a part in neuronal communication in the brain. Cloning of a complementary DNA for brain nitric oxide synthase reveals recognition sites for NADPH, FAD, flavin mononucleotide and calmodulin as well as phosphorylation sites, indicating that the synthase is regulated by many different factors. The only known mammalian enzyme with close homology is cytochrome P-450 reductase.     

论新时期体育院校的实验室建设

在经济、科技飞速发展的新时期,体育院校的实验室建设关系着我国体育事业的全面发展.本文分析了当前的形势,提出搞好实验室建设的途径.     

川丁特罗对大鼠细胞色素P450酶的影响

研究新型抗哮喘药川丁特罗（trantinterol）对大鼠细胞色素P450酶的影响. 大鼠连续7 d灌胃给予川丁特罗后, 测定肝微粒体中CYP450的质量摩
尔浓度和主要3种亚型CYP1A2,CYP2D6和CYP3A4活性的变化. 实验结果表明, 与对照组相比,  川丁特罗给药组的大鼠肝微粒体中CYP450的总质量摩尔浓度未受影响(P>0.05), 对主要亚型CYP1A2,CYP2D6和CYP3A4的活性也无影响(P>0.05), 表明该药物对肝微粒体中的主要代谢酶无抑制或诱导作用.     

Clustered spikelets 4, encoding a putative cytochrome P450 protein CYP724B1, is essential for rice panicle development

Rice （Oryza sativa L.） inflorescence （panicle） architecture is an important agronomic trait, serving as one of the determinants of rice yield. A number of genes related to panicle development have been cloned and functionally characterized so far. However, more information is needed for fully understanding of the mechanism underlying the panicle development. In the present study, we identified a clustered spikelets 4 （cl4） mutant in the 93-11 genetic background. Compared to its wild-type 93-11, cl4 mutant has a typical clustered spikelets phenotype with all primary branches clustered on the base of the main rachis and 2-3 abnormal spikelets clustered on the primary branches. Moreover, cl4 mutant also shows shorter plant height than that of the wild type. Map-based cloning strategy is per- formed to clone the CL4 gene. As a result, CL4 is demonstrated to encode a putative cytochrome P450 protein CYP724B1, which is involved in brassinosteroid biosynthesis. To confirm our mapping result, the CL4 RNAi transgenic plants are generated. And the transgenic plants also show similar phenotype as the cl4 mutant. These results provide strong evidence that CL4 plays an important role in rice panicle development as well as plant height regulation.     

西昌学院体育专业实验室的建设与思考

实验室建设与实验教学在体育专业教学中具有十分重要的地位和作用。通过对学院体育专业实验室的现状分析与研究,提出了初步的建议和方案,以此推动专业实验教学的改革与发展。