EC:2.3.1.28 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The biosynthesis in Leydig cells of the C19 steroid testosterone from the C21 precursor progesterone requires the activities of the enzyme cytochrome P450 17 alpha-hydroxylase/C17-20 lyase (P450(17 alpha)). Previous studies from this laboratory demonstrated that the de novo synthesis of the P450(17 alpha) protein and the accumulation of P450(17 alpha) mRNA in mouse Leydig cell cultures is absolutely dependent on cAMP stimulation. To investigate further the cAMP regulation of P450(17 alpha) expression in Leydig cells, the structural gene encoding P450(17 alpha) (Cyp17) was isolated from a mouse genomic library using a full-length mouse P450(17 alpha) cDNA. Two overlapping genomic clones were isolated and characterized by restriction mapping and partial sequencing. The two clones together contain the entire coding region and approximately 10 kilobases of 5'-flanking sequences of Cyp17. To identify regions necessary for cAMP-induced transcription, 5'-flanking regions of Cyp17 were fused with the chloramphenicol acetyltransferase (CAT) reporter gene and transiently transfected into MA-10 tumor Leydig cells. Studies localized the cAMP-responsive region of the gene to a region between -346 and -245 basepairs relative to the transcription initiation site. Transient transfections of MA-10 cells with a construct consisting of the -346/-245 sequences fused to a heterologous promoter, thymidine kinase, and the CAT reporter gene demonstrated a marked increase in cAMP stimulation of CAT expression, providing additional evidence that the -346/-245 sequences of the Cyp17 5'-flanking region confer cAMP-induced expression of Cyp17. This cAMP-responsive region of mouse Cyp17 bears no apparent homology to the cAMP-responsive regions identified in the human and bovine Cyp17 genes.
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PMID:Isolation and characterization of the mouse P450 17 alpha-hydroxylase/C17-20-lyase gene (Cyp17): transcriptional regulation of the gene by cyclic adenosine 3',5'-monophosphate in MA-10 Leydig cells. 132 57

In the present report we describe a heretofore unrecognized role for a Jak/STAT signaling pathway, namely the stimulation of expression of the aromatase P450 (CYP19) gene, and hence of estrogen biosynthesis, in human adipose tissue. Expression of this gene in adipose tissue as well as in adipose stromal cells maintained in the presence of serum and glucocorticoids is regulated by a distal TATA-less promoter, I.4, which contains a glucocorticoid response element, an Sp1 binding site, and an interferon-gamma activation site (GAS) element. The stimulatory action of serum (in the presence of dexamethasone) can be replaced by interleukin (IL)-11, leukemia inhibitory factor, and oncostatin-M, as well as by IL-6, providing the IL-6 soluble receptor is also present. Stimulation of the cells by these factors led to rapid phosphorylation of Jak1, but not Jak2 or Jak3, on tyrosine residues. STAT3 but not STAT1 was also phosphorylated and bound to the GAS element in the I.4 promoter region. When regions of this promoter were fused upstream of the chloramphenicol acetyltransferase reporter gene and transfected into the cells, mutagenesis or deletion of the GAS element led to complete loss of reporter gene expression. Since adipose tissue is the major site of estrogen biosynthesis in men and in postmenopausal women, this pathway involving a Jak/STAT signaling mechanism acting together with glucocorticoids and Sp1 appears to be the principal means whereby estrogen biosynthesis is regulated in the elderly.
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PMID:Aromatase P450 gene expression in human adipose tissue. Role of a Jak/STAT pathway in regulation of the adipose-specific promoter. 760 17

The biosynthesis of estrogens is catalyzed by aromatase P450 (P450arom), the product of the CYP19 gene. The tissue-specific expression of the CYP19 gene is regulated by means of tissue-specific promoters through the use of alternative splicing mechanisms. Thus, transcripts containing various 5'-untranslated termini are present in human placenta and other fetal tissues, ovary, brain, and adipose stromal cells. Sequence corresponding to untranslated exon 1.4 is present in 5'-termini of transcripts expressed in adipose tissue and fetal liver, as well as adipose stromal cells in primary culture in the presence of dexamethasone and fetal calf serum (FCS). Identification of hormone-responsive, tissue-specific promoter regions, as well as growth factor-response elements upstream of exon 1.4, may provide insight into the regulation of estrogen biosynthesis in adipose tissue, which is implicated in the development of breast and endometrial cancer. The goals of the present study were to define the 1.4 promoter region with respect to the start of transcription and to characterize the region(s) responsible for conferring glucocorticoid responsiveness on aromatase expression. The transcription initiation site was identified by means of primer extension and S1 nuclease protection analyses. No TATA-like sequence was evident upstream of this site. Various deletion mutations of the upstream flanking region of exon 1.4 and including part of exon 1.4 were made using polymerase chain reaction or restriction enzyme digestion. The genomic fragments were fused upstream of the chloramphenicol acetyltransferase (CAT) reporter gene. These constructs were transfected into adipose stromal cells and fetal hepatocytes in primary culture in medium containing FCS with or without dexamethasone. The -560/+10 base pair (bp) construct expressed CAT activity after a putative silencer element was deleted, and expression was induced by dexamethasone about 3-fold. Transfection of the -330/+170 bp construct, which contains an upstream glucocorticoid response element (GRE) as well as an Sp1-like sequence in untranslated exon 1.4, resulted in an 8-fold stimulation of expression of CAT activity by dexamethasone. The upstream GRE as well as the Sp1-like sequence in untranslated exon 1.4 were mutated separately, and together, to further confirm whether the GRE or Sp1 binding site play a role in the regulation of promoter 1.4-driven transcription. Mutation of either the GRE or Sp1 binding site, or both, in the -330/+170 bp construct, resulted in loss of dexamethasone-induced CAT reporter gene expression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of the sequences of the human CYP19 (aromatase) gene that mediate regulation by glucocorticoids in adipose stromal cells and fetal hepatocytes. 777 80

Cytochrome P4502D6 (CYP2D6) catalyzes the oxidative metabolism of several clinically important classes of drugs. Many of these have lower metabolic clearance rates among Chinese, compared with Caucasians, and are prescribed at lower doses for Asian patients. We have now evaluated the molecular genetic basis for this interethnic difference in drug metabolism. The CYP2D loci from two Chinese subjects, one homozygous for the XbaI 44-kilobase haplotype and one homozygous for the XbaI 29-kilobase haplotype, were cloned and characterized. Sequence analysis revealed two variant CYP2D6 genes, CYP2D6Ch1 and CYP2D6Ch2, having mutations yielding two and eight amino acid substitutions, respectively. Exon 9 of the CYP2D6Ch2 gene contained a sequence of 49 bases originating from the pseudogene CYP2D7P. In addition, mutations in the 5' flanking region common to both CYP2D6Ch genes were found. To evaluate the origin of the detrimental mutation in the genes, parts of the 5' flanking regions were introduced into a Hep G2/simian virus 40 expression system with chloramphenicol acetyltransferase as a reporter gene, and transfected cells were analyzed for activity. The ability of the upstream regions to bind nuclear factors was also evaluated using gel-shift analysis. Furthermore, several chimeric constructs of the CYP2D6wt and CYP2D6Ch genes were made, inserted into pCMV2 vectors, and expressed in COS-1 cells. A part of the upstream region of base pairs -1407 to -1068 was found to constitute an enhancer element, but the CYP2D6Ch-specific mutations did not influence the chloramphenicol acetyltransferase activity in the expression system. In contrast, expression of the chimeric genes revealed that the detrimental mutation of the CYP2D6Ch genes was C188-->T, causing a Pro34-->Ser amino acid substitution in a region that is a highly conserved in cytochromes P450 belonging to gene families 1 and 2. This substitution caused expression of a more unstable gene product, as evident from comparison of the relative levels of CYP2D6 mRNA, CYP2D6 protein, and bufuralol 1'-hydroxylase activities in pCMV2-CYP2D6-transfected COS-1 cells. Allele-specific polymerase chain reaction analysis of genomic DNA from 90 Chinese individuals revealed that the CYP2D6Ch1 allele was the most common one and its distribution correlated well with a higher metabolic ratio for debrisoquine. These data demonstrate that important interethnic differences exist in the structure of the CYP2D locus, and they suggest that the frequent distribution of the C188-->T mutation among the CYP2D6Ch genes explains the lower capacity among Chinese to metabolize drugs that are substrates of CYP2D6, such as antidepressants and neuroleptic agents.
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PMID:Genetic analysis of the Chinese cytochrome P4502D locus: characterization of variant CYP2D6 genes present in subjects with diminished capacity for debrisoquine hydroxylation. 793 25

The human liver cytochromes P450 3A (CYP3As), orthologous to the rat glucocorticoid inducible forms, are composed of at least four differentially expressed members. To begin the study of the molecular events in the glucocorticoid regulation of CYP3A5, we fused 5' sequences of CYP3A5 to the chloramphenicol acetyltransferase gene in a vector that contains the herpes simplex virus thymidine kinase promoter. In HepG2 cells, the largest 5' CYP3A5 gene fragment (1.4 kb) suppressed the TK promoter. However, suppression was overcome by addition of 10 microM dexamethasone. A series of unidirectional deletions revealed a unique 219-bp fragment (-891 to -1109 bp upstream from the transcriptional start site) that conferred dexamethasone responsiveness on the TK promoter regardless of either the distance or orientation from the promoter and thus appears to be an enhancer. Nucleotide sequence analysis of this CYP3A5 enhancer revealed no consensus 15-bp glucocorticoid responsive element (GRE) (GGTACANNNTGTTCT); however, two GRE "half-sites" (TGTTCT) were found separated by 160 bp. Although dexamethasone stimulated the CYP3A5 enhancer only 3-4-fold in HepG2 cells, the CYP3A5 enhancer was stimulated 7- and 12-fold in immortalized primary human hepatocytes and primary rat hepatocyte cultures, respectively. The glucocorticoid receptor (GCR) seems to be indispensable to this process because 1) dexamethasone induction can be blocked by the antiglucocorticoid RU-486, 2) dexamethasone-dependent transcriptional activation of the CYP3A5 enhancer in HepG2 cells required cotransfection of an expression vector containing the intact GCR, yet 3) cotransfection with a plasmid that contains a mutation in the ligand binding domain of the GCR does not activate the CYP3A5 enhancer in the presence of dexamethasone. To further localize the dexamethasone responsive region of the 219-bp CYP3A5 enhancer, it was subdivided and fused to the TKCAT expression vector. Transfection analysis in HepG2 cells demonstrated that neither GRE half-site can independently confer dexamethasone responsiveness on the TK promoter. Block mutations of either of the two GRE half-sites or point mutations at specific GCR binding sites eliminates dexamethasone inducibility, demonstrating the half-sites need to interact. Electromobility shift assays indicate that the CYP3A5 5'-GRE half-site 1) specifically binds purified GCR, 2) can displace binding of the GCR to a consensus GRE, and 3) shifts a protein in HepG2 nuclear extracts that is supershifted by GCR antibody, demonstrating that this enhancer is an authentic GRE. This is the first study to demonstrate that a member of the human CYP3A gene family contains an enhancer that binds the GCR and that this binding is critical to transcriptional activation by dexamethasone.
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PMID:Identification of a novel dexamethasone responsive enhancer in the human CYP3A5 gene and its activation in human and rat liver cells. 856 13

NMR spectroscopy has proved to be a valuable tool in the study of the interactions between enzymes and their substrates. The kinds of structural and dynamic information which can be obtained are illustrated by studies of three enzymes involved in drug metabolism. Cytochromes P450 play a crucial role in metabolism of a wide range of exogenous chemicals. NMR has been used to measure distances from the haem iron of the cytochrome to protons of the bound substrate, leading to detailed structural models for the enzyme-substrate complexes. The other two enzymes, chloramphenicol acetyltransferase and beta-lactamase, are responsible for bacterial resistance to specific antibiotics. In chloramphenicol acetyltransferase, NMR has been used to determine the conformation of coenzyme A bound to the enzyme, while in the case of beta-lactamase the pK of a specific lysine residue at the active site has been determined, providing valuable information on the catalytic mechanism.
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PMID:The other kind of biological NMR--studies of enzyme-substrate interactions. 889 75

In primary cultures of mouse Leydig cells, testosterone represses the cAMP-induced de novo synthesis of P450 17 alpha-hydroxylase/C17-20 lyase (P450c17) protein and the accumulation of P450c17 mRNA, via an androgen receptor (AR)-mediated mechanism. To examine the mechanism by which androgens repress the cAMP-induced expression of the mouse Cyp17 gene, constructs containing 5'-flanking sequences of the mouse Cyp17 linked to the chloramphenicol acetyltransferase (CAT) reporter gene were cotransfected into MA-10 tumor Leydig cells with a mouse AR expression plasmid. In the presence of dihydrotestosterone, the cAMP-induced expression of a reporter construct containing -1021 bp of Cyp17 promoter sequences was repressed. In contrast, no repression by dihydrotestosterone was observed when the -1021 bp Cyp17-CAT construct was cotransfected with a human AR expression plasmid missing the second zinc finger of the DNA-binding domain, indicating that DNA binding is involved in AR-mediated repression of Cyp17 expression. Analysis of deletions -346 bp of 5'-flanking region of the mouse Cyp17 promoter are sufficient to confer androgen repression of the cAMP-induced expression of Cyp17. Deoxyribonuclease I footprinting analysis indicated that the AR interacts with sequences between -330. and -278 bp of the Cyp17 promoter. This region overlaps with the previously identified cAMP-responsive region located between -346 and -245 bp of the Cyp17 promoter. These results suggest that AR-mediated repression involves binding of the AR to sequences in the cAMP-responsive region of the Cyp17 promoter, possibly interfering with the binding of the protein(s) that mediate cAMP induction of Cyp17.
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PMID:Repression of cAMP-induced expression of the mouse P450 17 alpha-hydroxylase/C17-20 lyase gene (Cyp17) by androgens. 899 91

Steroidogenic factor-1/adrenal 4-binding protein (SF-1/Ad4BP) is an orphan nuclear receptor/transcription factor known to regulate the P450 steroid hydroxylases; however, mechanisms that regulate the activity of SF-1/Ad4BP are not well defined. In addition, little is known about the mechanisms that regulate the human steroidogenic enzyme, type II 3beta-hydroxysteroid dehydrogenase (3beta-HSD II), the major gonadal and adrenal isoform. Regulation of the 3beta-HSD II promoter was examined using human adrenal cortical (H295R; steroidogenic) and cervical (HeLa; non-steroidogenic) carcinoma cells. H295R cells were transfected with a series of 5' deletions of 1251 base pairs (bp) of the 3beta-HSD II 5'-flanking region fused to a chloramphenicol acetyltransferase (CAT) reporter gene followed by treatment with or without phorbol ester (phorbol 12-myristate 13-acetate; PMA). CAT assay data indicated that the region from -101 to -52 bp of the promoter was required for PMA-induced expression. A putative SF-1/Ad4BP regulatory element, TCAAGGTAA, was identified by sequence homology at -64 to -56 bp of the promoter. Cotransfection of HeLa cells with the -101 3beta-HSD-CAT construct and an expression vector for SF-1/Ad4BP increased CAT activity 49-fold. Subsequent treatment with PMA induced an unexpected synergistic increase in transcriptional activity 540-fold over basal. Mutation of the putative response element (TCAAGGTAA to TCAATTTAA) abolished SF-1-induced CAT activity and the synergistic response to PMA. Gel mobility shift assays confirmed that SF-1/Ad4BP interacts with the putative element and transcripts for SF-1/Ad4BP were detected in H295R cells by Northern analysis. These data are the first to demonstrate 1) regulation of a non-cytochrome P450 steroidogenic enzyme promoter by SF-1/Ad4BP, 2) a powerful synergistic effect of PMA on SF-1/Ad4BP-induced transcription, and 3) the importance of the SF-1/Ad4BP regulatory element in the regulation of the 3beta-HSD II promoter.
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PMID:Synergistic activation of the human type II 3beta-hydroxysteroid dehydrogenase/delta5-delta4 isomerase promoter by the transcription factor steroidogenic factor-1/adrenal 4-binding protein and phorbol ester. 906 66