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)

To analyze the regulation of PRL gene expression by thyroid hormone (T3), fusion gene constructs containing various lengths of the rat PRL gene 5'-flanking sequence linked to the bacterial chloramphenicol acetyltransferase (CAT) gene were transfected into the GH3 cell line. Thyroid hormone had no effect on basal or cAMP-stimulated CAT expression in constructs containing more than 1.7 kilobasepairs of the 5'-sequence. However, deletion to 1.5 or 0.6 kilobasepairs resulted in an inhibition of both basal and cAMP-stimulated expression by T3. A construct containing the proximal enhancer region (positions -292 to -38 basepairs) linked to the herpes simplex thymidine kinase promoter (TK) and the CAT reporter gene also responded to T3 with inhibition of basal and cAMP-induced CAT expression. The distal enhancer region (positions -1714 to -1495) linked to thymidine kinase promoter CAT responded to T3 with a stimulation of CAT expression, and the response was additive with the stimulatory response to cAMP. Deletion analysis of the distal enhancer region revealed that the sequence between positions -1530 and -1565 was required for the stimulatory response to T3. The stimulatory response to T3 was additive with the response to estradiol, suggesting distinct elements, but deletion to position -1565 abolished the response to estradiol and permitted an inhibitory response to T3. Mutation of the estrogen response element prevents the response to estradiol, but only blunted the response to T3. Mutation of the sequence GGTCA at positions -1555 to -1551 resulted in an inhibitory response to T3, implicating this sequence in the stimulatory response.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thyroid hormone-responsive elements of the prolactin gene: evidence for both positive and negative regulation. 273 56

In order to identify DNA sequences responsible for the regulation beta-casein gene expression, lines of transgenic mice bearing the entire rat beta-casein gene and two rat beta-casein promoter chloramphenicol acetyltransferase (CAT) fusion genes have been established. All three transgenes have been shown previously to be regulated in a tissue- and stage specific manner. To investigate the relative contribution of promoter and intragenic sequences in the hormonal regulation of the beta-casein gene, mammary explant cultures derived from these lines of mice have now been performed, and the effects of PRL and glucocorticoids on transgene as compared with endogenous beta-casein gene expression have been quantified. After the addition of PRL to cultures performed in the presence of insulin and glucocorticoids, a 25- to 40-fold induction of endogenous mouse beta-casein mRNA was observed after 48 hr. A comparable greater than 25-fold induction of transgene expression after PRL addition was observed in explant cultures derived from a line of mice expressing the entire rat beta-casein gene. In contrast, PRL addition elicited only a 1- to 4.5-fold increase in CAT activity in cultures derived from two lines of mice bearing casein-CAT fusion genes with either 524 or 2300 base pairs of 5'-flanking DNA. In the presence of insulin, glucocorticoid or PRL addition alone increased endogenous beta-casein gene expression 2- to 2.5-fold and 5- to 10-fold, respectively, but only a 1.2- to 2.5-fold induction of CAT activity was observed for each hormone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relative contribution of promoter and intragenic sequences in the hormonal regulation of rat beta-casein transgenes. 274 52

Previous studies have shown that transferred hybrid constructs containing the PRL promoter are expressed specifically in rat pituitary (GH) cell lines. However, it is not yet clear which DNA region(s) is primarily responsible for expression directed by this promoter in pituitary cells. In the present studies we have examined the DNA sequences required for cell type-specific transcription of the rat PRL (rPRL) promoter either during transient expression in intact cells or in nuclear chromatin extracts. RNase protection and nuclear run-on transcription assays showed directly that a PRL-chloramphenicol acetyltransferase (CAT) construct containing about two kilobase-pairs of the rPRL promoter region (pPRL-CAT) is transcribed specifically in pituitary (GH3) cells. Analysis by transient expression in GH3 cells of pPRL-CAT and its 5' deletions showed that 1) deletion of sequences between positions -1957 and -958 did not significantly affect CAT activity; 2) the first 187 basepairs (bp) of the rPRL promoter directs full CAT activity; and 3) 98% of this activity is accounted for by rPRL DNA sequences between positions -187 and -113, containing two GH3 chromatin footprinting sites. Analysis in GH3 cell nuclear extracts showed that transcription of PRL-CAT constructs is unaffected by successive 5' deletions from position -1957 to -187, and that further deletion to -75 yielded only a moderate (approximately 2-fold) decrease in transcription.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Proximal rat prolactin promoter sequences direct optimal, pituitary cell-specific transcription. 274 60

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

In the rabbit, alpha s1-casein is the major casein secreted in the milk. Transcription of the alpha s1-casein gene is induced by PRL. To define the positions of the cis-sequences involved in the control of rabbit alpha s1-casein gene expression by PRL, chimeric genes containing upstream regions of alpha s1-casein gene linked to the chloramphenicol acetyltransferase gene were cotransfected into Chinese hamster ovary cells with the plasmid expressing the rabbit mammary PRL receptor. It was observed that a distal fragment -3442/-3118 was responsible for a high induction of PRL sensitivity when linked in the 5'-position to a chimeric construct (-391/1774)-chloramphenicol acetyltransferase. A cooperation between distal and proximal regions of the alpha s1-casein gene is responsible for the PRL-dependent enhancer activity of the distal fragment. The mammary gland-specific nuclear factor-like binding sequence found around position -90 in the proximal promoter of the alpha s1-casein gene is involved in this cooperation. The distal fragment was further studied to determine the position of regulatory regions. A -3442/-3385 fragment was sufficient to induce a PRL sensitivity similar to that conferred by the larger -3442/-3118 distal fragment, but multiple interactions are likely to exist between other regulatory regions included in this distal fragment. Four DNA-binding regions (I-IV) have been identified within the reduced -3442/-3385 fragment by footprint experiments using rabbit mammary gland or liver nuclear extracts (NE). Protected area III is observed using both NE. Protected areas I, II, and IV are specific for lactating mammary gland NE. The sequences of areas I and IV share several homologies with the sequence of the mammary gland-specific nuclear factor-binding site.
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PMID:A combination of distal and proximal regions is required for efficient prolactin regulation of transfected rabbit alpha s1-casein chloramphenicol acetyltransferase constructs. 767 33

Milk protein gene expression is regulated by the synergistic interactions of several lactogenic hormones, including insulin, PRL, and glucocorticoids. Whey acidic protein (WAP) gene expression is highly dependent on glucocorticoids, and to a lesser extent than casein gene expression, on the presence of PRL. Previous studies have demonstrated that a distal DNase I hypersensitive site in the rat WAP gene 5'-flanking region containing several binding sites for nuclear factor I is required for high level WAP gene expression in transgenic mice. In this study several specific glucocorticoid receptor (GR) binding sites were identified flanking these nuclear factor I sites using an in vitro DNase I footprinting assay with baculovirus-expressed GR. These sites were able to confer dexamethasone inducibility to a heterologous thymidine kinase-chloramphenicol acetyltransferase reporter gene construct in transient cotransfection experiments with GR in CV1 cells. Administration of dexamethasone to adrenal-ectomized mice carrying the +2020 rat WAP transgene during lactation demonstrated that glucocorticoids are required to maintain transgene expression in the mammary gland. Furthermore, glucocorticoid-induced changes in transgene expression were correlated with the appearance of DNase I hypersensitive sites. These results indicate that at least part of glucocorticoid regulation of WAP gene expression is mediated through the direct interaction of GR with glucocorticoid response elements in the distal promoter region resulting in steroid hormone-dependent alterations in chromatin structure.
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PMID:Glucocorticoid regulation of rat whey acidic protein gene expression involves hormone-induced alterations of chromatin structure in the distal promoter region. 785 50

Human PRL (hPRL) gene expression is controlled by cAMP and Ca2+. This control is mediated by two cis-elements: a Pit-1 binding site (-62 to -35) and sequence A (-110 to -85), present in the hPRL promoter. We have investigated whether protein phosphatases could be involved in this regulation. GC-type rat pituitary tumor cells were transfected with sequence -138 to -35 of the hPRL gene promoter, upstream from a thymidine kinase promoter and a chloramphenicol acetyltransferase (CAT) reporter gene. Addition of okadaic acid (OA), a specific inhibitor of protein phosphatases 1 and 2A, stimulates transient expression of the CAT gene. The dose-response curve shows a maximal effect at 25 nM OA (2.2-fold stimulation above controls). The OA effect is also observed with a natural 4500-base pair hPRL promoter. A single copy of the hPRL promoter sequence -115 to -85 (sequence A) confers to a thymidine kinase-CAT construct an identical response to OA, whereas a single copy of the proximal Pit-1 binding site does not. Synergism is observed between cAMP and OA in activating PRL gene transcription. This synergism is also observed with a single copy of sequence A. The effect of cAMP is not mediated by an L-type Ca2+ channel, since addition of the Ca2+ channel antagonist verapamil does not decrease it, nor does complexing extracellular Ca2+ significantly reduce it. Furthermore, OA and the Ca2+ channel opener BAY K8644 exert additive effects.
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PMID:Okadaic acid, a protein phosphatase inhibitor, enhances transcription of a receptor gene containing sequence A of the human prolactin promoter. 823 16

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

The precursor peptide of TRH (prepro-TRH) contains five copes of pro-TRH linked by other peptide sequences. These peptides are coprocessed with TRH in the median eminence of the hypothalamus and released into the portal circulation, rendering this family of peptides available to act at the level of the anterior pituitary. Therefore, we tested the potential bioactivity of one cryptic peptide, prepro-TRH amino acids 160-169 [prepro-TRH-(160-169)], in a TRH-responsive pituitary cell line (GH3). In a heterologous TSH expression assay, we found that prepro-TRH-(160-169) stimulated TSH beta gene promoter activity in a time- and dose-dependent manner; moreover, the effect of prepro-TRH-(160-169) was more rapid and of greater magnitude than that of TRH on TSH beta-directed chloramphenicol acetyltransferase synthesis. In the same cells, we found that prepro-TRH-(160-169) stimulated PRL synthesis and secretion, but the effect was similar in magnitude and duration to that of TRH. The effect of prepro-TRH-(160-169) appears to be additive to that of TRH, suggesting that prepro-TRH-(160-169) may act through a mechanism separate from that of TRH. Thus, prepro-TRH-(160-169) has potent endocrinological effects at the level of the genome.
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PMID:A cryptic peptide from the preprothyrotropin-releasing hormone precursor stimulates thyrotropin gene expression. 834 17

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