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)

Viruses that establish persistent infections may show selective and unique effects on the host's transcriptional machinery. Lymphocytic choriomeningitis virus (LCMV), a noncytolytic virus, can persistently infect a rat pituitary cell line. Although the infected cells remain free of structural damage, virus markedly interferes with growth hormone (GH) but only minimally interferes with prolactin transcription. The study of GH promoter-chloramphenicol acetyltransferase-transfected cells and GH promoter deletion mutants demonstrates that the viral effect is at the level of GH promoter and is due to interference with GH transactivator factor GHF1 (Pit1). Treatment of LCMV-infected cells with the antiviral agent ribavirin cures the infection and restores normal GH mRNA levels. These results illustrate a molecular mechanism by which a virus infection can disrupt synthesis of a cell's differentiated product without perturbing vital cellular functions.
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PMID:Selective disruption of growth hormone transcription machinery by viral infection. 140 23

Activin A is a potent growth and differentiation factor related to transforming growth factor beta. In somatotrophs, activin suppresses the biosynthesis and secretion of growth hormone (GH) and cellular proliferation. We report here that, in MtTW15 somatotrophic tumor cells, activin decreased GH mRNA levels and inhibited expression of transfected GH promoter--chloramphenicol acetyltransferase fusion genes. Deletion mapping of nucleotide sequences mediating this inhibition led to the identification of a region that has previously been characterized as binding the pituitary-specific transcription factor Pit-1/GHF-1. Characterization of nuclear factor binding to this region demonstrated that binding of Pit-1 to the GH promoter is lost on activin treatment. These results indicate that activin-induced repression of GH biosynthesis is mediated by the loss of tissue-specific transcription factor binding to the GH promoter and suggest a possible general mechanism for other activin responses, whereby activin regulates the function of other POU- or homeodomain-containing transcription factors.
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PMID:Activin inhibits binding of transcription factor Pit-1 to the growth hormone promoter. 145 33

Mediation by Ca2+ of TRH action on the PRL promoter was investigated by both additivity and pharmacological studies and by techniques that probe more gene-proximal events. TRH required the presence of Ca2+ in the medium for stimulation of transient expression in GH3 cells of a PRL-chloramphenicol acetyltransferase (PRL-CAT) construct containing proximal PRL promoter sequences [(-187)PRL-CAT]. Chronic 12-O-tetradecanoyl phorbol-13-acetate down-regulation of cellular protein kinase C did not block induction of expression of (-187)PRL-CAT by either Ca2+ or TRH. In studies with Ca2+ blockers, the Ca2+ flux inhibitors cobalt ion and nimodipine blocked induction of (-187)PRL-CAT expression by either Ca2+ or TRH. On the other hand, the Ca2+ immobilizers 1,2-bis(O-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid acetoxymethyltetraester and 8-(N,N-diethylamino)octyl 3,4,5-trimethoxybenzoate blocked induction of expression of this construct by Ca2+ but not by TRH, suggesting that TRH regulation of the PRL promoter may be dependent on Ca2+ fluxes but insensitive to Ca2+ immobilization. We have shown previously that the PRL promoter pit-1 binding site 1P is a TRH response element. In the present studies, Ca2+ regulation studies with 5'-deletion mutants of (-204)PRL-CAT showed that (-75)PRL-CAT, containing the single pit-1 binding site 1P, also contains a Ca2+ response element. The observation that two copies of a site 1P oligomer transferred a Ca2+ response to either of the two minimal constructs (-39)PRL-CAT or (-39)mouse metallothionein-CAT showed that site 1P is an independent Ca2+ response element. Analysis of site 1P mutants yielded a strong correlation between the ability to bind pit-1 and to transfer a Ca2+ response. In addition, coexpression of a mutant pit-1 possessing reduced trans-activational activity strongly inhibited TRH regulation of (-187)PRL-CAT and partially blocked Ca2+ regulation of this construct. We conclude that Ca2+ mediates TRH action on the PRL promoter, and that pit-1 represents a gene-proximal mediator in this signalling pathway.
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PMID:Mediation by calcium of thyrotropin--releasing hormone action on the prolactin promoter via transcription factor pit-1. 177 32

Regulation of human thyrotropin beta subunit gene (TSHB) expression by thyrotropin-releasing hormone (TRH) was examined in a clonal rat pituitary-cell line (GH3). Transient expression studies were done with various 5'-flanking DNA sequences of TSHB coupled to reporter gene chloramphenicol acetyltransferase. Deletion analysis defined two discrete regions (-128 to -92 base pairs and -28 to +8 base pairs) that each mediated an approximately 2-fold TRH induction. The upstream site contains a DNA sequence with close homology to the DNA-binding site for a pituitary-specific transcriptional factor Pit-1/GHF-1. DNase I footprinting analysis of mouse thyrotropic tumor extract as well as DNA-transfection studies using an expression vector containing an N-terminal deletion of Pit-1/GHF-1 cDNA suggest that Pit-1/GHF-1 or a closely related protein in the thyrotroph mediates TRH responsiveness of this gene. In addition, the downstream site overlaps with the recently characterized thyroid hormone-inhibitory element of TSHB. In fact, deletion of DNA sequences important in thyroid hormone-receptor binding (c-erbAB/c-ERBA2) from +3 to +8 base pairs, significantly reduced (30%) TRH responsiveness. The location of a TRH-stimulatory element near a thyroid hormone-inhibitory element may allow for fine control of TSHB expression in vivo.
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PMID:Thyrotropin-releasing hormone regulation of human TSHB expression: role of a pituitary-specific transcription factor (Pit-1/GHF-1) and potential interaction with a thyroid hormone-inhibitory element. 190 56

TRH is known to regulate transcription of the PRL gene in pituitary cells, but little is known about the mechanism involved. We have characterized TRH response elements (TRHREs) in the promoter region of the rat PRL gene and the gene-proximal protein that transmits the TRH signal to these elements. Exposure of GH3 rat pituitary cells to TRH yielded a large specific stimulation of transient expression of a PRL-chloramphenicol acetyltransferase (PRL-CAT) construct containing the PRL promoter region [(-204)PRL-CAT]. Analysis of 5' deletions of this construct implied that regions -174/-113 and -75/+38 each contain a TRHRE. GH3 cell nuclear extracts are known to footprint four sites, termed, respectively, 1P-4P, on the PRL promoter region. The TRHRE between positions -75/+38 was identified as element 1P, residing at -63/-39, since two copies of a 1P oligodeoxynucleotide transferred a TRH response to either (-39)PRL-CAT or mouse metallothionein-CAT construct (-39)mMT-CAT. Similarly, the more proximal TRHRE may be element 3P, residing at -167/-144, since two copies of this element also transferred a TRH response to (-39)PRL-CAT. Binding of pit-1 to site 1P is known to be capable of activating pituitary cell-specific PRL gene expression. To investigate whether pit-1 can also transduce a TRH signal to this site, oligodeoxynucleotides were prepared corresponding to mutations in either or both of two consensus sequences in site 1P.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thyrotropin-releasing hormone action on the prolactin promoter is mediated by the POU protein pit-1. 192 85

We have investigated the ability of a constitutively active Gq-alpha mutant, Q209L-alpha q, to regulate target gene expression. Transient expression in GH3 pituitary cells of a rat proximal prolactin promoter-chloramphenicol acetyltransferase construct (-187)PRL-CAT, was stimulated by co-expression of Q209L alpha q, but not by wild-type alpha q. Q209L-alpha q stimulated expression of constructs driven by promoters for either rat prolactin or growth hormone, but not of a control construct driven by the thymidine kinase promoter. Thus, transcriptional effects of alpha q are specific both for the activated state of this G-alpha subunit and the promoter examined. Since both the prolactin and growth hormone promoters are activated by the pituitary cell-specific transcription factor Pit-1, we examined whether a Pit-1 binding site could direct a response to Q209L-alpha q. Two copies of prolactin promoter Pit-1 binding site 1P conferred upon a heterologous metallothionein promoter a response to Q209L-alpha q, implying an involvement of this site in the transcriptional action of Q209L-alpha q on the prolactin promoter. The phorbol ester activator of protein kinase C, 12-O-tetradecanoylphorbol-13-acetate, stimulated (-187)PRL-CAT activity, but opposed the action of Q209L-alpha q on activity of this PRL-CAT construct. Q209L-alpha q stimulation of (-187)PRL-CAT activity was inhibited by co-expression of a dominant negative Raf mutant, Raf-C4, but not by a point mutant of Raf-C4 with reduced inhibitory properties. These results imply that activated alpha q subunits can stimulate prolactin promoter activity via a pathway that involves a Pit-1 DNA binding site(s), is opposed by protein kinase C, and is mediated by a pathway in which Raf-1 kinase plays a role.
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PMID:Constitutively active Gq-alpha stimulates prolactin promoter activity via a pathway involving Raf activity. 748 29

Pituitary adenylate cyclase-activating polypeptide (PACAP) has been shown to activate adenylate cyclase and stimulate PRL secretion in dispersed pituitary cells. We have employed the GH3 rat pituitary cell line to investigate whether PACAP can regulate expression of the PRL gene. PACAP increased cellular levels of cAMP in a concentration-dependent fashion (EC50, approximately 6 x 10(-9) M). PACAP also increased PRL mRNA levels in GH3 cells, implying that this peptide stimulates a step in expression of the PRL gene. In addition, PACAP strongly stimulated chloramphenicol acetyltransferase (CAT) activity in GH3 cells transiently transfected with a plasmid containing the first 187 basepairs of the rat PRL promoter cloned up-stream of the CAT gene, implying that PACAP stimulates transcription directed by the PRL promoter. The PACAP stimulation of CAT activity was observed at concentrations as low as 10(-11) M. We examined the action of PACAP on expression of a 5'-deletion series of PRL-CAT constructs. The PACAP response is completely lost when PRL promoter sequences between positions -187 and -113 are removed, implying that neither a previously described sequence resembling a cAMP response element nor the most proximal pit-1-binding site 1P plays a major role in the actions of PACAP on PRL gene transcription. This observation together with the ability of low concentrations of PACAP to stimulate PRL promoter activity without detectably increasing cellular cAMP levels suggest that the action of PACAP on PRL gene transcription might involve a cAMP-independent pathway.
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PMID:Pituitary adenylate cyclase-activating polypeptide stimulates prolactin gene expression in a rat pituitary cell line. 824 97

Although G protein alpha subunits are known to regulate such cellular functions as growth and enzymatic activity, the ability of these proteins to regulate target gene expression has not yet been directly investigated. Transient expression in GH3 pituitary cells of a target rat prolactin promoter-chloramphenicol acetyltransferase construct, (-1957)PRL-CAT, was increased by coexpressed constitutively active alpha s mutant Q227L-alpha s but not by wild-type alpha s. Thus activated alpha s but not basal state alpha s can stimulate prolactin promoter activity. Q227L-alpha s also stimulated expression of construct (-187)PRL-CAT, showing that only the proximal prolactin promoter region is required for a response to activated alpha s. The promoter specificity of the transcriptional influence of activated alpha s was demonstrated by the inability of either Q227L-alpha s or wild-type alpha s to stimulate expression of control target constructs containing either the rat growth hormone promoter or the thymidine kinase promoter. Previous studies have shown that the most proximal prolactin promoter binding site for the pituitary-specific transcription factor pit-1, site 1P, can act as an independent response element for either thyrotropin-releasing hormone or Ca2+. Two copies of site 1P conferred upon a heterologous metallothionein promoter a response to Q227L-alpha s. This implies that site 1P can also serve as an independent response element for alpha s and suggests that pit-1 may be a mediator of the cellular regulation by alpha s of the prolactin promoter.
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PMID:Expression of constitutively active Gs alpha-subunits in GH3 pituitary cells stimulates prolactin promoter activity. 827 15

We established the cis-acting elements which mediate cAMP responsiveness of the human growth hormone (hGH) gene in transiently transfected rat anterior pituitary tumor GC cells. Analysis of the intact hGH gene or hGH 5'-flanking DNA (5'-FR) coupled to the hGh cDNA or chloramphenicol acetyltransferase or luciferase genes, indicated that cAMP primarily stimulated hGH promoter activity. Cotransfection of a protein kinase A inhibitory protein cDNA demonstrated that the cAMP response was mediated by protein kinase A. Mutational analysis of the hGH promoter identified two core cAMP response element motifs (CGTCA) located at nucleotides -187/-183 (distal cAMP response element; dCRE) and -99/-95 (proximal cAMP response element; pCRE) and a pituitary-specific transcription factor (GHF1/Pit1) binding site at nucleotides -123/-112 (dGHF1) which were required for cAMP responsiveness. GHF1 was not a limiting factor, since overexpression of GHF1 in cotransfections increased basal but not forskolin induction levels. Gel shift analyses indicated that similar, ubiquitous, thermostable protein(s) specifically bound the pCRE and dCRE motifs. The CGTCA motif-binding factors were cAMP response element binding protein (CREB)/activating transcription factor-1 (ATF-1)-related, since the DNA-protein complex was competed by unlabeled CREB consensus oligonucleotide, specifically supershifted by antisera to CREB and ATF-1 but not ATF-2, and was bound by purified CREB with the same relative binding affinity (pCRE < dCRE < CREB) and mobility as the GC nuclear extract. UV cross-linking and Southwestern blot analyses revealed multiple DNA-protein interactions of which approximately 100- and approximately 45-kDa proteins were predominant; the approximately 45-kDa protein may represent CREB. These results indicate that CREB/ATF-1-related factors act coordinately with the cell-specific factor GHF1 to mediate cAMP-dependent regulation of hGH-1 gene transcription in anterior pituitary somatotrophs.
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PMID:Two CGTCA motifs and a GHF1/Pit1 binding site mediate cAMP-dependent protein kinase A regulation of human growth hormone gene expression in rat anterior pituitary GC cells. 829 29

In this study, the functional role of two cAMP-response elements (CRE) in the promoter of the chinook salmon GH gene and their interactions with the transcription factor Pit-1 in regulating GH gene expression were examined. A chimeric construct of the chloramphenicol acetyltransferase (CAT) reporter gene with the CRE-containing GH promoter (pGH.CAT) was transiently transfected into primary cultures of rainbow trout pituitary cells. The expression of CAT activity was stimulated by an adenylate cyclase activator forskolin as well as a membrane-permeant cAMP analog 8-bromo-cAMP. Furthermore, these stimulatory responses were inhibited by a protein kinase A inhibitor H89, suggesting that these CREs are functionally coupled to the adenylate cyclase-cAMP-protein kinase A cascade. This hypothesis is supported by parallel studies using GH4ZR7 cells, a rat pituitary cell line stably transfected with dopamine D2 receptors. In this cell line, D2 receptor activation is known to inhibit adenylate cyclase activity and cAMP synthesis. Stimulation with a nonselective dopamine agonist, apomorphine, or a D2-specific agonist, Ly171555, suppressed the expression of pGH.CAT in GH4ZR7 cells, and this inhibition was blocked by simultaneous treatment with forskolin. These results indicate that inhibition of the cAMP-dependent pathway reduces the basal promoter activity of the CRE-containing pGH.CAT. The functionality of these CREs was further confirmed by deletion analysis and site-specific mutagenesis. In trout pituitary cells, the cAMP inducibility of pGH.CAT was inhibited after deleting the CRE-containing sequence from the GH promoter. When the CRE-containing sequence was cloned into a CAT construct with a viral thymidine kinase promoter, a significant elevation of cAMP inducibility was observed. This stimulatory response, however, was abolished by mutating the core sequence, CGTCA, in these CREs, suggesting that these cis-acting elements confer cAMP inducibility to the salmon GH gene. The interactions between CREs and the transcription factor Pit-1 in mediating GH gene expression were also examined. In HeLa cells, a human cervical cancer cell line deficient in Pit-1, both basal and cAMP-induced expression of pGH.CAT were apparent only with the cotransfection of a Pit-1 expression vector. These results taken together indicate that the two CREs in the chinook salmon GH gene are functionally associated with the cAMP-dependent pathway and that their promoter activity is dependent on the presence of Pit-1
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PMID:Induction of chinook salmon growth hormone promoter activity by the adenosine 3',5'-monophosphate (cAMP)-dependent pathway involves two cAMP-response elements with the CGTCA motif and the pituitary-specific transcription factor Pit-1. 861 14

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