A novel human cytochrome P450 4F isoform (CYP4F11): cDNA cloning, expression, and genomic structural characterization

By a combination of cDNA library screening and rapid amplification of cDNA ends analysis, a novel human cytochrome P450 4F isoform has been cloned and sequenced. The new 4F isoform is designated CYP4F11 and contains 1765 nucleotides. The coding region encodes 524 amino acid residues, and the heme-binding region is highly conserved. The CYP4F11 amino acid sequence has 80.0, 82.3, and 79.2% identity to CYP4F2, CYP4F3, and CYP4F8 amino acid sequences, respectively. In vitro translation shows the molecular mass of CYP4F11 is approximately 57 kDa, consistent with the calculated molecular mass. CYP4F11 is expressed mainly in human liver, followed by kidney, heart, and skeletal muscle. The genomic structure of CYP4F11 was solved by database searching and computer analysis. The coding region of CYP4F11 has 12 exons. The CYP4F11 gene is located 16 kb upstream of the CYP4F2 gene on chromosome 19. This is consistent with the notion that the human cytochrome P450 4F genes form a cluster on chromosome 19.     

cDNA cloning and expression of a novel cytochrome p450 (cyp4f12) from human small intestine

A cDNA encoding a novel human CYP4F enzyme (designated CYP4F12) was cloned by PCR from a human small intestine cDNA library. RT-PCR analysis demonstrated that CYP4F12 is expressed in human small intestine and liver. This cDNA contains an entire coding region of a 524-amino-acid protein that is 81.7, 78.3, and 78.2% identical to CYP4F2, CYP4F3, and CYP4F8, respectively. When expressed in Saccharomyces cerevisiae, the P450 catalyzes leukotriene B(4) omega-hydroxylation and arachidonic acid omega-hydroxylation, typical reactions of CYP4F isoforms. Their activity levels are, however, much lower than those of CYP4F2. Interestingly, CYP4F12 catalyzes the hydroxylation of the antihistamine ebastine with significantly higher catalytic activity relative to CYP4F2 (385 vs 5 pmol/min/nmol P450). These results indicate that CYP4F12 has a different profile of substrate specificity from other CYP4F isoforms, enzymes responsible for metabolizing endogenous autacoids, therefore suggesting that it may play an important role in xenobiotic biotransformation in the human small intestine.     

Tumor-specific expression of the novel cytochrome P450 enzyme, CYP2W1

A novel human cytochrome P450, CYP2W1, was cloned and expressed heterologously. No or very low CYP2W1 mRNA levels were detected in fetal and adult human tissues, expression was however seen in 54% of human tumor samples investigated (n=37), in particular colon and adrenal tumors. Western blotting also revealed high expression of CYP2W1 in some human colon tumors. In rat tissues, CYP2W1 mRNA was expressed preferentially in fetal but also in adult colon. The CYP2W1 gene was shown to encompass one functional CpG island in the exon 1-intron 1 region which was methylated in cell lines lacking CYP2W1 expression, but unmethylated in cells expressing CYP2W1. Re-expression of CYP2W1 was seen following demethylation by 5-Aza-2'-deoxycytidine. Transfection of HEK293 cells with CYP2W1 caused the formation of a properly folded enzyme, which was catalytically active with arachidonic acid as a substrate. It is concluded that CYP2W1 represents a tumor-specific P450 isoform with potential importance as a drug target in cancer therapy.     

Identification of multiple cytochrome P450 genes belonging to the CYP4 family in Xenopus laevis: cDNA cloning of CYP4F42 and CYP4V4

In order to obtain cDNA clones coding for CYP4 proteins in frog Xenopus laevis, degenerate primers were designed utilizing the conserved sequences of known CYP4s and were used to amplify partial cDNA fragments from liver mRNA. Five new CYP genes were identified. Three of these genes, XL-1, -2 and -3, were assigned to the CYP4T subfamily found previously in fish and amphibians. The other two genes, XL-4 and XL-5, were quite similar to CYP4F and CYP4V subfamilies, respectively. Subsequently, two full-length cDNA clones corresponding to XL-4 and XL-5 were isolated and characterized. The resultant cDNAs, designated as CYP4F42 and CYP4V4, had open reading frames encoding proteins of 528 and 520 residues, respectively. RT-PCR analysis indicated that the expression of CYP4F42 was limited to the liver, kidney, intestine and brain. In contrast, CYP4V4 mRNA was expressed ubiquitously.     

Improved cloning and expression of cytochrome P450s and cytochrome P450 reductase in yeast

Combination of the pYeDP60 yeast expression system with a modified version of the improved uracil-excision (USER) cloning technique provides a new powerful tool for high-throughput expression of eukaryotic cytochrome P450s. The vector presented is designed to obtain an optimal 5' untranslated sequence region for yeast (Kozak consensus sequence), and has been tested to produce active P450s and NADPH-cytochrome P450 oxidoreductase (CPR) after 5' end silent codon optimization of the cDNA sequences. Expression of two plant cytochrome P450s, Sorghum bicolor CYP79A1 and CYP71E1, and S. bicolor CPR2 using the modified pYeDP60 vector in all three cases produced high amounts of active protein. High-throughput functional expression of cytochrome P450s have long been a troublesome task due to the workload involved in cloning of each individual P450 into a suitable expression vector. The redesigned yeast P450 expression vector (pYeDP60u) offers major improvements in cloning efficiency, speed, fidelity, and simplicity. The modified version of the USER cloning system provides great potential for further development of other yeast vectors, transforming these into powerful high-throughput expression vectors.     

Cloning and characterization of the rat cytochrome P450 4F5 (CYP4F5) gene

The analysis of a non-redundant set of human proteins, for which both the crystallographic structures and the corresponding gene sequences are available, show that bases at third codon position are non-uniformly distributed along the coding sequences. Significant compositional differences are found by comparing the gene regions corresponding to the different secondary structures of the proteins. Inter-and intra-structure differences were most pronounced in the GC-richest genes. These results are not compatible with any proposed hypotheses based on a neutral process of formation/maintenance of the high GC₃ levels of the genes localized in the GC-richest isochores of the human genome.     

Molecular cloning and expression of CYP6B8: a xanthotoxin-inducible cytochrome P450 cDNA from Helicoverpa zea

Xanthotoxin, a plant allelochemical, induces alpha-cypermethrin insecticide tolerance in Helicoverpa zea (corn earworm); inhibition of tolerance by piperonyl butoxide implicates cytochrome P450 monooxygenases (P450s) in the detoxification of this insecticide. To characterize the xanthotoxin-inducible P450 that might mediate alpha-cypermethrin tolerance in this species, a cDNA library prepared from xanthotoxin-induced H. zea fifth instar larvae was screened with cDNAs encoding furanocoumarin-metabolizing P450s from Papilio polyxenes (CYP6B1v2) and P. glaucus (CYP6B4v2) as well as a sequence-related P450 from Helicoverpa armigera (CYP6B2). One full-length cDNA isolated in this screening shares 51-99% amino acid identity with the CYP6B subfamily of P450s isolated from Papilio and Helicoverpa species and, thus, has been designated CYP6B8. All of these CYP6B subfamily members share a number of highly conserved domains, including substrate recognition site 1 (SRS 1) that is critical for xanthotoxin metabolism by CYP6B1v2 from Papilio polyxenes and coumarin metabolism by CYP2a5 from Mus musculus. Northern and RT-PCR analyses indicate that CYP6B8 expression is strongly induced by xanthotoxin and phenobarbital and negligibly induced by alpha-cypermethrin.     

Molecular cloning and expression analysis of a cytochrome P450 gene in tomato

A full-length cytochrome P450 cDNA, CYP71A2, was cloned from tomato (Lycopersicon esculentum Mill.) by RT-PCR and RACE. CYP71A2 (GenBank accession no. GQ370622) encoded a single polypeptide of 495 amino acid residues and shared 46–68% of identity with CYP71A1 which associated with avocado fruit ripening. The polypeptide, which held the conserved domains in all P450s, was classified as CYP71. CYP71A2-GFP fusion protein localised in the endoplasmic reticulum. The expression of CYP71A2 was detected in all the tissues (root, leaf, stem, bud, flower, immature green fruit, mature green fruit, breaker fruit, ripe fruit); however, the CYP71A2 expression was utmost in immature green fruit. During development of fruit, the expression of CYP71A2 reduced rapidly at mature green stage, then gradually increased at breaker and ripening stages. CYP71A2 was regulated by wounding, methyl jasmonate and ethylene. Promoter analysis indicated that CYP71A2 regulatory region had all the specific responding elements to these stresses. This suggested that the role of CYP71A2 is pleiotropic in tomato development and its adaptability to the environment.     

Finding homes for orphan cytochrome P450s: CYP4V2 and CYP4F22 in disease states

The cytochrome P450 (CYP) 4 family of enzymes contains several recently identified membersthat are referred to as “orphan P450s” because their endogenous substrates are unknown.Human CYP4V2 and CYP4F22 are two such orphan P450s that are strongly linked to ocular andskin disease, respectively. Genetic analyses have identified a wide spectrum of mutations in the CYP4V2gene from patients suffering from Bietti’s crystalline corneoretinal dystrophy, and mutations in theCYP4F22 gene have been linked to lamellar ichthyosis. The strong gene–disease associations provideunique opportunities for elucidating the substrate specificity of these orphan P450s and unraveling thebiochemical pathways that may be impacted in patients with CYP4V2 and CYP4F22 functional deficits.     

Covalent attachment of the heme prosthetic group in the CYP4F cytochrome P450 family

We demonstrated earlier that the heme in cytochrome P450 enzymes of the CYP4A family is covalently attached to the protein through an I-helix glutamic acid residue [Hoch, U., and Ortiz de Montellano, P. R. (2001) J. Biol. Chem. 276, 11339-11346]. As the critical glutamic acid residue is conserved in many members of the CYP4F class of cytochrome P450 enzymes, we investigated covalent heme binding in this family of enzymes. Chromatographic analysis indicates that the heme is covalently bound in CYP4F1 and CYP4F4, which have the required glutamic acid residue, but not in CYP4F5 and CYP4F6, which do not. Catalytic turnover of CYP4F4 with NADPH-cytochrome P450 reductase shows that the heme is covalently bound through an autocatalytic process. Analysis of the prosthetic group in the CYP4F5 G330E mutant, into which the glutamic acid has been reintroduced, shows that the heme is partially covalently bound and partially converted to noncovalently bound 5-hydroxymethylheme. The modified heme presumably arises by trapping of a 5-methyl carbocation intermediate by a water molecule. CYP4F proteins thus autocatalytically bind their heme groups covalently in a process that requires a glutamic acid both to generate a reactive (cationic) form of the heme methyl and to trap it to give the ester bond.     

Identification and expression of two novel cytochrome P450 genes, belonging to CYP4 and a new CYP331 family, in the polychaete Capitella capitata sp.I

The polychaete Capitella capitata sp.I has a high capacity to metabolize polycyclic aromatic hydrocarbons (PAHs) which are among the most hazardous environmental pollutants with significant biological effects. In the present study, two novel cytochrome P450 (CYP) genes were identified in this species. One was named CYP331A1, the first member of a new family of CYP331, and the other CYP4AT1 is the first member of a new subfamily CYP4AT. Both of these genes are constitutively expressed in the worms and detectable by RT-PCR. The expression of CYP331A1 mRNA was observed to be more sensitive to PAH exposure than CYP4AT1, which indicated that CYP331A1 should play a more important role than CYP4AT1 in PAH metabolism in this species. Considering the importance of C. capitata sp.I in taking up PAH and other organic pollutants from contaminated marine sediments with the potential for subsequent food-chain transfer, our results are important for understanding the molecular basis of biotransformation and detoxification in this invertebrate, and also have evolutionary significance for understanding the diversity and history of the CYP superfamily.     

Molecular cloning and recombinant expression of cytochrome P450 CYP6B6 from Helicoverpa armigera in Escherichia coli

The cytochrome P450 s play a significant role in the detoxification of plant allelochemicals and synthetic insecticides in Lepidoptera. In the cotton bollworm Helicoverpa armigera, 2-tridecanone and quercetin can induce P450-dependent monooxygenase activity increased, to further the characterization of P450, the CYP6B6 of cotton bollworm (H. armigera) was cloned, sequenced and expressed in pMAL-p2x vector and expressed in Escherichia coli. The deduced amino acid sequences of cytochrome P450 in the midgut and fat body of H. armigera showed 98.23 and 97.84 % similarity with CYP6B6, respectively. According to nomenclature of P450 s, the P450 genes we got belong to CYP6B. Purification of recombinant protein based on the affinity of MBP for maltose was achieved by Mal-Tag magnetic beads. The purified protein was used to raise polyclonal antibody according to classical procedure. SDS–PAGE and Western blot results indicated that MBP-CYP6B6 had been successfully expressed. The ethoxycoumarin-O-deethylase activity of the purified recombinant protein was 36.5 ± 8.12 pmol of 7-hydroxycoumarin/min/mg protein, which showed the fusion MBP-CYP6B6 had the ability to o-deethylase of 7-ethoxycoumarin.     

褐飞虱细胞色素P450单加氧酶基因CYP4CE1的克隆及表达谱

为了解P450基因在褐飞虱Nilaparvata lugens适应水稻品种过程中的重要作用,利用反转录聚合酶链式反应（RT-PCR）,快速扩增cDNA末端（RACE）和长距离聚合酶链式反应（LD-PCR）技术,克隆了褐飞虱4龄若虫的CYP4家族的一个P450单加氧酶基因,被命名为CYP4CE1。该基因的全长cDNA序列（2 160 bp）含有一个1 626 bp的开放阅读框（ORF）,编码541个氨基酸残基的蛋白质。通过GenBank数据库中的blastx搜索引擎进行同源性分析,结果表明CYP4CE1编码的蛋白与岸蟹 Carcinus maenas的CYP4C39（GenBank登录号：JC8026）的相似性最高,两者的氨基酸序列同源性达43％;其次与热带蟑螂 Blaberus discoidalis的CYP4C1（AAA27819）及黑腹果蝇Drosophila melanogaster的CYP4C3（NP_524598）的相似性也较高,氨基酸序列同源性分别达42％。氨基酸序列比对表明该蛋白含有CYP4家族成员的所有保守特征序列,如螺旋K（E--R--P）,氧结合结构域即螺旋I（AG--T）,血红素结合区（PF--G---C-G--F）以及CYP4成员的特有特征序列（EVDTFMFEGHDTT）等。使用Northern杂交检测CYP4CE1随时间的表达变化,结果表明：与饲养于感虫水稻台中1号（Taichung Native 1,TN1）上的若虫相比,在取食中度抗性水稻Minghui 63（MH63）秧苗12,24,48,72 h的各时间段的褐飞虱体内,该基因有2.1倍的过量表达且表达水平保持稳定。进一步通过Northern杂交检测该基因的组织表达特异性,结果显示：该基因在取食TN1秧苗的若虫脂肪体中表达量最高,在肠道组织及体壁中的表达水平较低;褐飞虱取食MH63秧苗24 h后,该基因在体壁及脂肪体中的表达量略有上升（各约1.2倍）,而在肠道组织中的表达量则大幅升高（约12倍）。肠道整体原位杂交表明,CYP4CE1在取食TN1秧苗的若虫的肠道组织及马氏管中均有本底水平的表达;若虫取食MH63秧苗后,该基因在上述肠道各区段表达水平明显增强。结果提示,在褐飞虱与水稻互作过程中CYP4CE1的重要功能之一可能是参与水稻有毒次生物质的代谢。     

桔小实蝇CYP4D46的克隆及其组织特异性表达研究

从桔小实蝇Bactrocera dorsalis(Hendel)成虫体内提取总RNA,利用RT-PCR和cDNA末端快速扩增技术获得了一个新的细胞色素P450基因cDNA序列全长.该基因经细胞色素P450基因命名委员会命名为CYP4D46(Gen-Bank登录号:GU292422),其cDNA全长为1717 bp,包含1530 bp的完整开放阅读框(ORF),编码510个氨基酸,理论分子量约为58.40 kD,等电点为8.82.系统发育分析表明该基因与昆虫第4家族P450基因具有较高的同源性.实时定量PCR分析发现,CYP4D46基因在脂肪体中的相对表达量较高,分别是马氏管和中肠内的756倍和60倍,说明CYP4D46可能与脂肪体的重要生理功能相关.