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)

Adrenodoxin reductase (AR; ferridoxin: NADP+ oxidoreductase, EC 1.18.1.2) is a flavoprotein that mediates electron transport from NADPH to all known mitochondrial forms of cytochrome P450. AR mRNA was found in all human adult and fetal tissues examined; however, it was vastly more abundant in tissues that synthesize steroid hormones. The ratio of the 18- form of mRNA lacking 18 alternately spliced bases to the 18+ form was approximately 100:1 and remained constant irrespective of the tissue or hormonal manipulation, indicating that the alternate splicing is a passive nonregulated event. AR protein was unchanged by forskolin treatment of human JEG-3 cytotrophoblast cells for 24 h, but the mRNA diminished. Phorbol 12-myristate 13-acetate and cycloheximide had no effect, even though these agents had the expected effects on P450scc and adrenodoxin mRNAs. cAMP decreased the abundance of AR mRNA expressed from both transfected plasmids and the endogenous gene, indicating the effect was post-transcriptional. AR gene transcription in JEG-3 cells and promoter-chloramphenicol acetyltransferase constructs transfected into JEG-3 cells were unresponsive to forskolin. Powerful basal transcription elements were identified between -46 and -214 bases from the principal transcriptional initiation site, a region containing six elements closely resembling the binding site for transcription factor SP1.
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PMID:cAMP post-transcriptionally diminishes the abundance of adrenodoxin reductase mRNA. 131 50

A hormone-inducible transcriptional system has been established, based on the stable transfection of the rat androgen receptor (rAR) and a reporter plasmid containing the mouse mammary tumour virus promoter linked to the chloramphenicol acetyltransferase gene (pMMTV-CAT) into steroid receptor-negative CV-1 cells. First, the rAR was stably introduced into CV-1 cells. Single clones were tested for stable expression of functionally active AR by analysing the effect of dihydrotestosterone on induction of transiently transfected pMMTV-CAT. Stable transfection and the expression of AR was confirmed by steroid-binding assays. In a second step, a clone expressing physiological amounts of AR protein (30 fmol/mg protein) was stably transfected with pMMTV-CAT to yield a permanent cell line that stably expresses functional AR and MMTV-CAT sequences. This cell line provides a powerful tool for the efficient and accurate determination and quantification of the effects of androgens and anti-androgens on reporter gene transcription. This was demonstrated by investigating the action of the three anti-androgens hydroxyflutamide, casodex and cyproterone acetate. The three compounds were shown to reverse the effects of the androgen R1881 on gene expression but were themselves devoid of agonistic activity.
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PMID:Stable transfection of androgen receptor and MMTV-CAT into mammalian cells: inhibition of cat expression by anti-androgens. 132 16

Although the androgen receptor (AR) has been detected by ligand-binding assays, there is little known about the expression and regulation of the AR gene in human breast-cancer cells. AR mRNA, measured by Northern analysis in 18 cell lines, was found to be expressed predominantly in oestrogen- and progesterone-receptor-positive (ER+, PR+) lines as a single species of approximately 10.5 kb but was also comparatively abundant in I ER- and PR-negative cell line, MDA-MB-453. Dexamethasone (Dex), Organon 2058 (Org 2058), dihydrotestosterone (DHT), and all-trans-retinoic acid (RA) down-regulated AR mRNA levels in T-47D (ER+, PR+) cells 6 hr after treatment, whereas oestradiol (E2) had no effect. In MDA-MB-453 (ER-, PR-) cells, regulation of AR mRNA by RA differed from the other cell lines: RA increased the level of AR mRNA. DHT-binding assays indicated a corresponding increase in AR protein. Transfection of the androgen-responsive mouse mammary tumour virus long-terminal repeat (MMTV LTR) linked to a chloramphenicol acetyltransferase (CAT) reporter gene was used to examine the effect of altered AR levels on androgen action. The increased level of AR following RA pre-treatment in MDA-MB-453 cells resulted in enhanced induction of CAT activity by DHT and, conversely, a decrease in the level of AR following RA pretreatment in T-47D cells resulted in reduced induction of CAT activity by DHT. These data demonstrate that AR is expressed predominantly in ER+ and PR+ cell lines and its expression is regulated by ligands also known to regulate ER or PR, including progestins and retinoids. Androgen responsiveness measured by a transfected reporter gene was altered according to the extent of up- or down-regulation of AR expression, demonstrating that responsiveness is dependent on receptor concentration.
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PMID:Regulation of androgen receptor gene expression by steroids and retinoic acid in human breast-cancer cells. 142 32

The androgen receptor (AR) is a signal-transducing protein required for sexual differentiation, development, and expression of the male phenotype. A series of human AR deletion mutants were created either by site-directed mutagenesis using restriction enzyme digestion, the polymerase chain reaction, or, for a series of unidirectional NH2-terminal deletions, exonuclease III digestion. Receptor mutants were expressed in monkey kidney COS cells as truncated AR proteins between 20 and 107 kDa as revealed on immunoblots, where wild type AR was a doublet of 114 and 108 kDa. Subcellular localization by immunocytochemical staining demonstrated androgen-dependent nuclear uptake of AR from a perinuclear region of the cytoplasm. A nuclear targeting signal similar in sequence and position to the glucocorticoid receptor and homologous to the SV40 large T antigen was required for androgen-induced nuclear uptake of wild type AR. AR mutants lacking the NH2-terminal and/or steroid binding domains were constitutively nuclear with reduced transcriptional activity. Transcriptional activation by wild type AR was androgen-dependent in cotransfection studies of CV1 cells using the chloramphenicol acetyltransferase reporter gene linked to the mouse mammary tumor virus promoter. Deletion mutagenesis revealed within the NH2-terminal region a domain required for full transcriptional activity and within the steroid binding domain, an inhibitory function, deletion of which yielded a constitutively active receptor. Inhibition of wild type AR by coexpression with an inactive NH2-terminal fragment suggested competition for nuclear factors required for transcriptional regulation. These studies demonstrate a concerted interplay among the domains of the AR protein in regulating gene transcription.
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PMID:Transcriptional activation and nuclear targeting signals of the human androgen receptor. 198 13

Full-length rat and human androgen receptor (AR) cDNA clones were expressed in COS-7 and CV1 monkey kidney cells to analyze the AR protein using immunological and cotransfection techniques. The studies were aided by the development of two rabbit polyclonal antibodies, designated AR32 and AR52, directed against epitopes within the N-terminal region of AR. Each antibody recognizes native AR by sucrose gradient analysis and detects a 114-kilodalton protein in COS cells transfected with human or rat AR cDNA. Covalent binding of the synthetic androgen [3H]methyltrienolone (R1881) to the 114-kDa protein was saturable. The endogenous native AR was similarly 114 kDa on immunoblots of a human prostate adenocarcinoma cell line, LNCaP, and rat sex accessory gland extracts. AR was localized in nuclei of transfected COS cells and in LNCaP cells by immunocytochemical staining. Androgen induction of CAT activity was dose dependent in CV1 cells cotransfected with the AR expression vector and a reporter plasmid containing the mouse mammary tumor virus promoter linked to the chloramphenicol acetyltransferase gene. It is concluded that antipeptide antibodies are useful reagents in characterizing both native and denatured forms of the AR protein. The 114-kDa protein expressed transiently in cultured cells represents the full-length AR protein, has a molecular size equivalent to that of endogenous AR, and mediates androgen-dependent transcriptional activation in CV1 cells.
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PMID:Expression of recombinant androgen receptor in cultured mammalian cells. 217 2

The complete form of androgen insensitivity is an inherited X-linked syndrome in which genetic males fail to undergo masculinization in utero due to defective functioning of the androgen receptor (AR). The molecular basis of androgen insensitivity was investigated in the testicular feminized (Tfm) rat with this syndrome. AR mRNA size and amount, as well as nuclear AR protein revealed by immunocytochemistry, suggested normal expression of the AR gene in the Tfm rat. Sequence analysis of the AR coding region from Tfm and wild-type littermate male rats revealed a single transition mutation, guanine to adenine, within exon E, changing arginine 734 to glutamine within the steroid-binding domain of the AR. This arginine is highly conserved among the family of nuclear receptors and may be part of a phosphorylation recognition site. A recreated mutant AR (Arg734----Gln) expressed in COS cells had only 10-15% of the androgen-binding capacity of wild-type AR; the reduced androgen-binding capacity was similar to that of AR in tissue extracts of the Tfm rat. Stimulation of transcriptional activity by the recreated mutant AR was reduced relative to wild-type AR in cotransfection assays in CV1 cells using as reporter plasmid the mouse mammary tumor virus promoter linked to the chloramphenicol acetyltransferase gene. Thus, arginine 734 appears essential for normal AR function both in androgen binding and transcriptional activation. Absence of these functions results in androgen insensitivity and lack of male sexual development.
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PMID:A single base mutation in the androgen receptor gene causes androgen insensitivity in the testicular feminized rat. 234 9

Human androgen receptor (hAR) is a ligand-dependent transcription factor that mediates androgen-induced actions on target tissues. Transfection studies in the human prostate cancer cell line LNCaP examine the ability of dihydrotestosterone (DHT), hydroxyflutamide (HO-FLU), cyproterone acetate (Cypro.A), and RU 23908-10 to stimulate or to inhibit the transcription activation of mouse mammary tumor virus-bacterial chloramphenicol acetyltransferase (MMTV-CAT). DHT stimulated transcription activation of MMTV-CAT gene in LNCaP cells in a dose-dependent manner. HO-FLU, Cypro.A, and RU 23908-10, though only partially, also stimulated the transcription activation of MMTV-CAT. Despite this, 100- to 1,000-fold molar excess of all antiandrogens inhibited the agonistic activity of 10 nM DHT in this system. Receptor binding assays confirmed that HO-FLU, Cypro.A, and RU 23908-10 competed with DHT for AR binding in LNCaP cells. Western blot analysis using AR antipeptide antibodies raised in rabbits revealed the presence of two AR protein bands in LNCaP cells, following treatment with antiandrogens. Increasing doses of HO-FLU stimulated the expression of the 114-kDa AR by 2.5-fold, but did not affect the 108-kDa AR. Increasing doses of Cypro.A and RU 23908-10 decreased the levels of both the 114-kDa and the 108-kDa AR. Although the exact nature of 108-kDa and 114-kDa AR in LNCaP cells is still unknown, these data suggest that the regulatory actions of each individual antiandrogen on AR expression in LNCaP cells may be different.
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PMID:Antiandrogens inhibit human androgen receptor-dependent gene transcription activation in the human prostate cancer cells LNCaP. 814 66

Human androgen receptor (hAR) is a ligand-dependent transcription factor that mediates androgen-induced actions on target tissues. Transfection studies in receptor deficient monkey kidney cells CV-1 in culture examine the ability of dihydrotestosterone (DHT) and of the antiandrogens hydroxylflutamide (HO-FLU), cyproterone acetate (Cypro.A) and RU 23908-10 to stimulate or to inhibit the transcription activation of mouse mammary tumor virus-bacterial chloramphenicol acetyltransferase (MMTV-CAT). CV-1 cells cotransfected with wild type hAR (hAR1-910) and MMTV-CAT, were treated with varying concentrations of DHT. DHT stimulated transcription activation of MMTV-CAT gene in a dose-dependent fashion. Cypro.A though only partially, also stimulated the transcription activation of MMTV-CAT. In the absence of steroids, HO-FLU induced the MMTV-CAT transcription in transfectants only 4% above the basal level. RU 23908-10 revealed the least agonistic activity at concentrations between 10 nM and 1 microM. Despite this, 100- to 1000-fold molar excess of all antiandrogens inhibited the agonistic activity of 10 nM DHT in this system. Receptor binding assays confirmed that HO-FLU, Cypro.A and RU 23908-10 competed with [3H]DHT for AR binding with hAR expressed in CV-1 cells. Western blot analysis using AR antipeptide antibodies raised in rabbits revealed the presence of two AR protein bands in extracts prepared from hAR1-910 transfected CV-1 cells. Incubation of labeled synthetic palindromic androgen responsive element (ARE) with the hAR containing CV-1 cell extracts followed by u.v. cross-linking demonstrated the specificity of AR-DNA interaction. Analysis by gel mobility shift assays showed that the interaction of AR-antiandrogen complexes with labeled ARE was specific.
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PMID:Interaction of antiandrogen-androgen receptor complexes with DNA and transcription activation. 827 4

In most cells and tissues containing androgen receptors (ARs), androgen regulates the levels of AR messenger RNA (mRNA). As the AR concentration is correlated with androgen responsiveness, this autoregulation of AR mRNA may affect cellular sensitivity to androgens. Androgens decrease levels of AR mRNA in many cell lines and tissues; however, in some tissues and possibly also at certain developmental stages, AR mRNA is up-regulated by androgens. Sequences within the 5'-flanking region and AR promoter do not appear to be sufficient for androgen regulation of AR mRNA. We have previously shown that both down- and up-regulation of AR mRNA by androgen can be reproduced in cell lines expressing a transfected human AR complementary DNA (cDNA). Sequences within the AR cDNA confer this autoregulation in transfected cells, suggesting that sequences within the transcribed region of the AR gene are sufficient for autoregulation. In this study we have determined the mechanism of androgenic up-regulation of AR mRNA encoded by the human AR cDNA in the prostate cancer cell line, PC3, and have identified the cis-acting sequences of the AR cDNA that are required. The observations that actinomycin D blocked androgenic up-regulation of AR mRNA but cycloheximide had no effect are consistent with a model in which AR is directly involved in transcriptional up-regulation of AR cDNA expression. Nuclear run-on assays showed that androgen treatment resulted in increased transcription of the AR cDNA. Furthermore, a 350-bp AR cDNA fragment inserted 5' of a thymidine kinase promoter-chloramphenicol acetyltransferase gene conferred androgen induction of chloramphenicol acetyltransferase activity in PC3 cells. This 350-bp fragment, which is located in the AR coding region, contains two putative androgen response elements (AREs) separated by 182 bp. The 5'-most ARE (ARE-1, 5'-TGTCCT-3') resembles a half-site of the palindromic consensus hormone response element, recognized by several steroid receptors, including AR, and the 3'-sequence (ARE-2, 5'-AGTACTCC-3') is identical to a portion of an androgen-responsive region found in the rat probasin gene promoter. Analysis of either ARE-1 or ARE-2 mutants revealed that these elements function synergistically. AR protein binds to the 350-bp fragment, as demonstrated by electrophoretic mobility shift assays using a glutathione-S-transferase-AR fusion protein containing the DNA- and steroid-binding domains of AR. These results indicate that the AR coding region contains an androgen-responsive region that is involved in cell line-specific up-regulation of AR mRNA.
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PMID:Two androgen response elements in the androgen receptor coding region are required for cell-specific up-regulation of receptor messenger RNA. 896 Dec 68