Cloning and tissue distribution of a novel human cytochrome p450 of the CYP3A subfamily, CYP3A43

On the basis of the detection of an expressed sequence tag ('EST') similar to the human cytochrome P450 3A4 cDNA, we have identified a novel member of the human cytochrome P450 3A subfamily. The coding region is 1512-bp long and shares 84, 83, and 82% sequence identity on the cDNA level with CYP3A4, 3A5, and 3A7, respectively, with a corresponding amino acid identity of 76, 76, and 71%. Quantitative real time based mRNA analysis revealed CYP3A43 expression levels at about 0.1% of CYP3A4 and 2% of CYP3A5 in the liver, with significant expression in 70% of the livers examined. Gene specific PCR of cDNA from extrahepatic tissues showed, with the exception of the testis, only low levels of CYP3A43 expression. The CYP3A43 cDNA was heterologously expressed in yeast, COS-1 cells, mouse hepatic H2.35 cells and in human embryonic kidney (HEK) 293 cells, but in contrast to CYP3A4 which was formed in all cell types, no detectable CYP3A43 protein was produced. This indicates a nonfunctional protein or specific conditions required for proper folding. It is concluded that CYP3A43 mRNA is expressed mainly in liver and testis and that the protein would not contribute significantly to human drug metabolism.     

cytochrome p450 superfamily in Arabidopsis thaliana: isolation of cDNAs,Differential Expression,and RFLP mapping of multiple cytochromes P450

We have isolated multiple cDNAs encoding cytochromes P450 (P450s) from Arabidopsis thaliana employing a PCR strategy. Degenerate oligonucleotide primers were designed from amino acid sequences conserved between two plant P450s, CYP71A1 and CYP73A2, including the heme-binding site and the proline-rich motif found in the N-terminal region, and 11 putative P450 fragments were amplified from first-strand cDNA from 7-day-old Arabidopsis as a template. With these PCR fragments as hybridization probes, 13 full-length and 3 partial cDNAs encoding different P450s have been isolated from an Arabidopsis cDNA library. These P450s have been assigned to either one of the established subfamilies: CYP71B, CYP73A, and CYP83A; or novel subfamilies: CYP76C, CYP83B, and CYP91A. The primary protein structures predicted from the cDNA sequences revealed that the regions around both the heme-binding site and the proline-rich motif were highly conserved among all these P450s. The N-terminal structures of the predicted P450 proteins suggested that these Arabidopsis P450s were located at the endoplasmic reticulum membrane. The loci of four P450 genes were determined by RFLP mapping. One of the clones, CYP71B2, was located at a position very close to the ga4 and gai mutations. RNA blot analysis showed expression patterns unique to each of the P450s in terms of tissue specificity and responsiveness to wounding and light/dark cycle, implicating involvement of these P450s in diverse metabolic processes.     

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.     

Characterization and tissue distribution of a novel human cytochrome P450-CYP2U1

A novel human cytochrome P450 cDNA designated CYP2U1 was identified using homology searches, and the corresponding gene is located on chromosome 4. The deduced 544 amino acid sequence displays up to 39% identity to other CYP2 family members, with closest resemblance to CYP2R1 and is highly conserved between species. CYP2U1 shows some structural differences compared to other CYP2 family members. The gene has only five exons and the enzyme harbors two insertions in the N-terminal region. Northern blot analysis revealed high mRNA expression in human thymus, with weaker expression in heart and brain, whereas in the rat similar mRNA levels were detected in thymus and brain. Western blot analysis revealed much higher CYP2U1 protein expression in rat brain than in thymus, particularly in limbic structures and in cortex. The physiological and toxicological role of this novel P450 is still unknown, but the selective tissue distribution suggests an important endogenous function.     

Expression and regulation of CYP6D3 in the house fly, Musca domestica (L.).

Recently, a new cytochrome P450 gene, CYP6D3, was identified from house fly. CYP6D3 was found upstream of a related gene (CYP6D1) on autosome 1. CYP6D3 cDNA sequences were obtained and compared from insecticide resistant (LPR) and susceptible (CS and Edinburgh) strains. Although each strain had a different CYP6D3 allele, the deduced amino acid sequences revealed no consistent differences between the susceptible and resistant strains. There was approximately 12-fold more CYP6D3 mRNA detected in adult LPR flies compared to CS, and the elevated level of expression in LPR was not due to gene amplification. Northern blots indicate expression of CYP6D3 mRNA is developmentally regulated with no expression in eggs, yet it is readily detectable in larvae as well as male and female adults. Phenobarbital is a well studied inducer of P450s in insects and it induced expression of CYP6D3 mRNA in both the CS (16-fold) and LPR (1.6 fold) strains. The CYP6D3 5' flanking regions were sequenced from the resistant and susceptible strains. Possible regulatory sequences within this region are discussed.     

A novel cytochrome P450 3A isoenzyme in rat intestinal microsomes

PCR with several pairs of primers facilitates screening for new isoenzymes among highly homologous cytochrome P450s (CYPs). Combinations of two pairs of primers, which amplify N- and C-terminal coding sequences of either CYP3A1/CYP3A23 or CYP3A2 detected the presence of a previously unrecognized CYP3A in enterocyte microsomes isolated from rats. PCR, Northern blot, and immunoblotting with specific antibodies indicated that this isoenzyme is clearly distinguishable from CYP3A1, 3A23 or 3A2. Sequencing of a 285 bp coding fragment of this gene revealed 97% similarity with rat olfactory CYP3A9 (P450olf3).     

Spatially distinct expression of two new cytochrome P450s in leaves of Nepeta racemosa/: identification of a trichome-specific isoform

Using a PCR-based approach, two novel cytochrome P450 cDNAs were isolated from a catmint (Nepeta racemosa) leaf cDNA library. The cDNAs (pBSK3C7 and pBSK4C3) were 76.9% identical in their nucleotide sequences, indicating that they are the products of two closely-related genes. A comparison of the sequence of these cDNAs with database sequences indicated that they represent new members of the CYP71 gene family of plant cytochrome P450s. Clone pBSK3C7 contains the full-length coding sequence of a cytochrome P450, whilst pBSK4C3 lacks ca. 6 codons at the 5' end. The cytochromes P450 encoded by these clones were designated CYP71A5 and CYP71A6 (pBSK3C7 and pBSK4C3, respectively). Southern blot analysis indicated that the corresponding genes were present as single copies in the genome of N. racemosa. Northern blot analysis showed that a gene homologous with CYP71A5 was expressed in the related species N. cataria, but no homologue of CYP71A6 was detected in this species. Expression of CYP71A5 in N. racemosa was maximal in flowers, tissues within the apical bud, and young expanded leaves. That of CYP71A6 was maximal in older leaves. Expression of CYP71A5 occurred exclusively in trichomes present on the leaf surfaces, in contrast to that of CYP71A6, which occurred predominantly within the leaf blade tissues.     

Characterization of multiple <Emphasis Type="Italic">CYP9A</Emphasis> genes in the silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis>

Based on the advances in the silkworm genome project, a new genome-wide analysis of cytochrome P450 genes was performed, focusing mainly on gene duplication. All four CYP9A subfamily members from the silkworm, Bombyx mori, were cloned by RT-PCR and designated CYP9A19–CYP9A22 by the P450 Nomenclature Committee. They each contain an open reading frame of 1,593 bp in length and encode a putative polypeptide of 531 amino acids. Both nucleic acid and amino acid sequences share very high identities with one another. The typical motifs of insect cytochrome P450, including the heme-binding region, helix-C, helix-I, helix-K, and PERF, show high sequence conservation among the multiple proteins. Alignment with their cDNA sequences revealed that these paralogues share identical gene structures, each comprising ten exons and nine introns of variable sizes. The locations of their introns (all nine introns follow the GT–AG rule) are absolutely conserved. CYP9A19, CYP9A20, and CYP9A21 form a tandem cluster on chromosome 17, whereas CYP9A22 is separated from the cluster by four tandem alcohol-dehydrogenase-like genes. Their phylogenetic relationships and structural comparisons indicated that these paralogues arose as the results of gene duplication events. RT-PCR detected their mRNAs in different “first line of defense” tissues, as well as in several other organs, suggesting diverse functions. Tissue-selective expression also indicates their functional divergence. The identified CYP9A genes have not yet been found outside the Lepidoptera, and are probably unique to the Lepidoptera. They show high sequence and structural similarities to each other, indicating that the Lepidoptera-specific P450s may be of functional importance. This analysis constitutes the first report of the clustering, spatial organization, and functional divergence of P450 in the silkworm.     

白纹伊蚊细胞色素P450 CYP6家族基因多样性的研究(英文)

根据已获得的白纹伊蚊CYP6家族某成员cDNA序列片段AEDR ,设计基因特异性引物 ,以白纹伊蚊总RNA为模板 ,进行cDNA末端快速扩增 ,扩增产物经T -A克隆、测序。结果显示 :通过 5’ RACE获得 1个非全长cDNA序列 (GZS331 ) ,其与CYP6N1、CYP6N2的同源性分别为 59 8%和 59 1 % ,与CYP6N3v1 -v3同源性最高 ,达 83 9% - 84 3% ;通过 3’ RACE获得 6个非全长cDNA序列 ,其中来自抗性株的GZG0 33序列与CYP6N3v1 -v3的同源性达 98 2 % - 99 1 % ,而其余 3’ RACE克隆与CYP6N3v1 -v3的同源性则达 84 3% - 85 6%。上述所有非全长cDNA序列均与哺乳动物CYP3A1以及夜蛾CYP9A1有较高的同源性 ,分别为 2 3% - 36 1 %和 2 7 6% - 34 1 %。用PC/GENE软件所绘制的系统树显示出与同源性分析相一致的结果。所得非全长cDNA序列上报国际P450命名委员会进行统一的命名 ,并对蚊虫中细胞色素P450基因多样性及其形成原因进行了分析     

Functional characterization of medaka CYP3A38 and CYP3A40: kinetics and catalysis by expression in a recombinant baculovirus system

Phylogenic analysis of the teleost genomic lineages has demonstrated the precedent for multiple genome duplications. Among many of the genes duplicated, cytochrome P450 genes have undergone independent diversification, which can be traced to a single ancestral gene. In teleosts, cytochrome P450s, from all major families, have been identified. Among these, the CYP3A family has been cloned in several teleost species and demonstrated to contain multiple paralogs differing in gene expression patterns and tissue distribution. Herein we characterized the catalytic and kinetic activities of two medaka CYP3A paralogs (CYP3A38 and CYP3A40) with benzyloxyresorufin (BFC), a fluorescent 3A-selective substrate, and testosterone, a known metabolic substrate for CYP3A enzymes. Recombinant CYP3A was produced using the baculovirus expression vector system in Spodoptera frugiperda (Sf9) and Trichoplusia ni (Tn5) insect cells and accounted for up to 24% of total cellular protein. Following addition of a heme-albumin conjugate to log phase cells, spectral P450 content reached a maximum of 560 and 2350 pmol/mg microsomal protein for CYP3A38 and CYP3A40, respectively. Incubations containing recombinant CYP3A, human NADPH-cytochrome P-450 oxidoreductase reductase, human cytochrome b5, and a NADPH generation system catalyzed the dealkylation of BFC and hydroxylation of testosterone with a high degree of stereoselectivity. However, efficiencies and specificities were significantly different between the two isoforms. Km and Vmax activities based on BFC-catalysis were 0.116 and 0.363 muM, and 7.95 and 7.77 nmol/min/nmol P450 for CYP3A38 and CYP3A40, respectively. CYP3A38 preferentially catalyzed testosterone hydroxylation at the 6beta-, 2beta- and 16beta-positions with minor hydroxylation at other positions within the steroid nucleus. Testosterone catalysis with CYP3A40 was limited predominantly to the 6beta- and 2beta-positions. Putative identification of CYP3A substrate recognition sites (SRS) 1-6 indicates that 12 of the 49 amino acid differences between CYP3A38 and CYP3A40 OFRs occur in SRS regions previously known to be associated with steroid hydroxylation. We suggest that differences in kinetics and catalytic activities are a result of amino acid substitutions in SRS regions 1, 3 and 5 within the CYP3A38 and CYP3A40 protein sequence.