EC:2.3.1.28 - FACTA Search

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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)

Testicular androgens suppress the synthesis and secretion of the pituitary gonadotropins, in particular, luteinizing hormone. This suppressive effect includes transcription of both the common alpha subunit gene and the unique beta subunit genes. Herein, we demonstrate that 1500 base pairs (bp) of proximal 5'-flanking region derived from the human alpha subunit gene and a shorter 315-bp segment of the bovine alpha subunit gene confer negative regulation by androgen to the gene encoding bacterial chloramphenicol acetyltransferase in transgenic mice. Cotransfection assays with human androgen receptor indicated that the 1500-bp promoter region of the human alpha subunit gene also confers androgen regulation (transcriptional suppression) to reporter genes in both pituitary and placental cell lines. This raises the possibility of a role for DNA binding in suppression of alpha subunit transcription by activated androgen receptor. Consistent with this possibility, we have used a gel-mobility shift assay to detect several high affinity binding sites for androgen receptor located in the proximal promoter of the human alpha subunit gene. The strongest androgen receptor binding site is located at approximately -101 in the proximal 5'-flanking region. This steroid receptor binding site overlaps another binding site that defines one of several contiguous cis-acting regulatory elements required for basal transcriptional activity. Thus, binding of activated androgen receptor to this region may block the binding of a requisite trans-acting factor and lead to an attenuation in transcription. We conclude that this interaction, which occurs directly at the level of the pituitary, represents one of several physiological avenues through which androgens regulate gonadotropin gene expression.
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PMID:Transcriptional repression of the glycoprotein hormone alpha subunit gene by androgen may involve direct binding of androgen receptor to the proximal promoter. 768 65

The human prostate-specific kallikreins, human glandular kallikrein-1 (hKLK2) and prostate-specific antigen (hKLK3), have been shown to be regulated by androgens. To determine whether the androgen induction of these genes is transcriptionally regulated via an androgen response element, an hKLK2 promoter DNA fragment was linked to a promoterless chloramphenicol acetyltransferase (CAT) reporter gene and cotransfected with an androgen receptor expression vector in an androgen receptor-less human prostate cell line, PC-3. Dose response and steroid specificity experiments showed that the hKLK2 promoter confers androgen receptor-mediated gene induction in a ligand-specific manner. Moreover, 5' deletion constructs of the hKLK2 promoter DNA and internal deletion constructs devoid of the 5' half-site of the putative androgen responsive element (ARE) were used to show that the putative ARE is indeed acting as a functional ARE in prostate cells. In addition, multiple AREs from both hKLK2 and hKLK3 were able to reconstitute androgenic induction, further strengthening the argument that the AREs are functional. Although previous studies have shown that hKLK3 mRNA is expressed at a higher level than that of hKLK2, our results suggest that the hKLK2 ARE may have higher androgenic inducibility than the hKLK3 ARE. These results suggest that other cis-acting elements may be involved in coordinating in vivo androgenic induction of hKLK2 and hKLK3 genes.
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PMID:Androgen induction of a human prostate-specific kallikrein, hKLK2: characterization of an androgen response element in the 5' promoter region of the gene. 768 46

The androgen receptor (AR) is a nuclear transcription factor that is essential for development of the male urogenital tract. In the current work, we have characterized the mouse androgen receptor suppressor (mARS). A single, 20-base pair, region (TCCCCCCACCCACCCCC-CCT) was sufficient for suppression in chloramphenicol acetyltransferase assays. Northern analysis indicated that translational regulation is not necessary for the suppression. Analysis of the AR mRNA half-life indicated that the mARS does not affect AR RNA degradation. Gel mobility assays showed that the mARS is bound by multiple proteins that can recognize single-stranded DNA and RNA. In addition, differing proteins are expressed in distinct tissues. Purification of some of these proteins has shown that a doublet of 33 and 35 kDa binds to the G-rich strand and that a 52-kDa protein binds to the C-rich strand. Southwestern blots have confirmed that these proteins are indeed recognized by the mARS. The results of these experiments indicate that the AR 5'-untranslated region contains a suppressor element that can be bound by multiple proteins. The mARS appears to be acting either by altering transcription initiation or blocking transcription elongation. Characterization of this suppressor may provide insight into the physiological means by which the AR is regulated.
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PMID:The androgen receptor is transcriptionally suppressed by proteins that bind single-stranded DNA. 773 38

Androgens and androgen receptor (AR) play important roles in sexual differentiation and prostatic cancer cell proliferation. To investigate the regulation of AR expression, a 2-kilobase pair 5'-flanking region of human AR gene including a 0.6-kilobase pair 5'-untranslated region (5'-UTR) was ligated to a chloramphenicol acetyltransferase (CAT) gene and characterized by CAT assay after transfection into HeLa cells. The results revealed that AR 5'-UTR was absolutely needed for the induction of CAT activity, but could not function as an enhancer for the AR transcription. A further study using a 180 base pairs (+21 to +202 including a stem-loop secondary structure at +109 to +129) within the AR 5'-UTR demonstrated that this region was sufficient to induce more CAT activity without changing the CAT mRNA expression. Taken together, these results strongly suggested that 5'-UTR of AR mRNA plays an essential role in the induction of AR translation, which may represent the first reported translational induction mechanism in the steroid receptor superfamily.
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PMID:Induction of translation by the 5'-untranslated region of human androgen receptor mRNA. 792 69

The androgen receptor (AR) is a developmental and tissue-specific transcription factor which is activated by binding testosterone or dihydrotestosterone. Several different methods of transcriptional regulation of the AR have been shown, including regulation by androgens, follicle-stimulating hormone, epidermal growth factor, and the cAMP pathway. In order to further characterize the transcriptional regulation of the AR, portions of the mouse androgen receptor (mAR) promoter were cloned into the promoterless pBLCAT3 vector and assayed for chloramphenicol acetyltransferase activity. The results indicate that in addition to the previously characterized promoter (+1) there is a second distinct promoter located 3' to the first promoter. Amplification of the 5'-end of the AR gene indicates that RNA originating from the second promoter is initiated from 162 and 170 bases downstream from the 5'-most previously characterized site. Northern blot analysis indicated that RNA initiated from the two promoters is differentially expressed in several cell lines and multiple tissues. Androgen ablation by castration showed that both promoters are controlled by androgens in the kidney. Sequence analysis revealed that the second promoter does not contain a TATA or CAAT box. Further characterization of this promoter may provide important insights into the transcriptional regulation of the androgen receptor since previous studies have often included only the first promoter.
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PMID:The mouse androgen receptor gene contains a second functional promoter which is regulated by dihydrotestosterone. 798 Dec 21

The androgen receptor (AR) mediates the biological functions of androgens and is essential for normal growth and differentiation of urogenital organs as well as initiation and maintenance of spermatogenesis. Withdrawal of androgens by castration or other methods has been shown to cause a marked, although often temporary, regression of many prostate cancers. In order to gain a better understanding of the transcriptional regulation of the AR, a series of truncation mutants derived from the 5'-region of the mouse AR (mAR) were inserted into the promoter-less plasmid pBLCAT3 and transiently expressed in the mouse alpha T3-1 and GT1-7 cell lines. The results of these experiments indicate the presence of a negative regulatory element in the 5'-untranslated region of the gene, which is able to reduce chloramphenicol acetyltransferase (CAT) activity by 77-89%. We have named this element the mAR suppressor (mARS). DNase-I protection assays of the 5'-untranslated region disclosed a protected domain. Gel mobility assays using the mARS revealed the presence of three protein-DNA complexes that could specifically bind to this protected domain. Insertion of the mARS into the thymidine kinase promoter containing pBLCAT2 vector resulted in a 2- to 10-fold decrease in CAT activity, but only if the insert was 3' to the start of transcription initiation. Finally, point mutations within the mARS were able to increase transcription of the AR promoter by 2.3-fold. The results of these experiments indicate that the mAR 5'-untranslated region contains a suppressor element.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The mouse androgen receptor is suppressed by the 5'-untranslated region of the gene. 805 66

Mouse vas deferens protein (MVDP), a member of the aldo-keto reductase superfamily, is exclusively produced in the epithelial cells of the deferent duct under androgenic regulation. To better understand androgenregulated MVDP gene expression, the location and sequences of androgen response elements (AREs) in the 5'-flanking DNA were determined. Sequence analysis revealed two putative AREs as follows: one between positions -1186 and -1171 (distal ARE) and the other between -111 and -97 (proximal ARE). To study hormonal regulation, fragments of the MVDP promoter region, extending from residue -1804 to +41, were linked to the chloramphenicol acetyltransferase (CAT) reporter gene and cotransfected with a human androgen receptor expression vector into T47D cells in a transient expression assay. A minimal region (-121 to +41) was identified as being sufficient for androgen-regulated gene expression. A mutation in proximal ARE almost completely abolished androgen induction of CAT. One copy of the sequence TGAAGT tcc TGTTCT, cloned in the opposite orientation in front of the thymidine kinase promoter, confers androgen responsiveness to the CAT reporter gene. Androgen transcriptional activity was not detected with the distal ARE. The data provide strong evidence that transcriptional regulation of the MVDP gene occurs via the sequence TGAAGT tcc TGTTCT.
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PMID:Identification of a functional androgen response element in the promoter of the gene for the androgen-regulated aldose reductase-like protein specific to the mouse vas deferens. 811 28

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

The androgen receptor (AR) from a patient with Reifenstein syndrome (incomplete androgen insensitivity syndrome) was characterized. The patient's pubic skin fibroblasts had normal androgen binding. However, when incubated at 41 C, fibroblasts from the patient had a marked decrease in androgen binding as compared with normal fibroblasts. Analysis of coding sequences of the androgen receptor gene revealed a single nucleotide substitution in exon E, resulting in an amino acid change from glycine (GGG) to valine (GTG) at amino acid 743 within the steroid binding domain of AR. Reconstruction of this mutation by site-directed mutagenesis into a human AR complementary DNA followed by expression in COS1 cells led to production of a mutant AR with no significant difference in androgen binding when cells were incubated with androgen at room temperature. However, in contrast to wild type AR expressed in COS1 cells, the mutant AR had markedly lower androgen-binding affinity at 41 C. The mutant receptor could still stimulate a reporter gene at 37 C but this transcriptional stimulation was also decreased when compared with wild type AR receptor in a chloramphenicol acetyltransferase assay. These results suggest that partial androgen resistance in this patient with Reifenstein syndrome is due to a single point mutation in the steroid binding domain of the androgen receptor.
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PMID:A single amino acid substitution (gly743 --> val) in the steroid-binding domain of the human androgen receptor leads to Reifenstein syndrome. 832 32

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