EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pituitary lactotroph cell function and PRL gene expression are highly regulated by the cAMP-protein kinase-A (PKA) pathway. To further our understanding of the molecular mechanisms by which cAMP/PKA regulates rat (r) PRL promoter activity and to determine whether cAMP regulation is cell type specific, we 1) transected intact (-425), internal and 5'-deletion, and site-specific mutants of the rPRL promoter ligated to the firefly luciferase reporter gene into both pituitary and nonpituitary cell lines; and 2) assessed the role of the cAMP-cAMP response element-binding protein (CREB) pathway in GH4 rat pituitary cells. The data show that deleting the rPRL promoter from -425 to -116 did not abolish cAMP regulation, implying that proximal elements, such as the basal transcription element (-112/-80) or the pituitary-specific footprint (FP) I (-67/-45), mediate the cAMP response. However, nucleotide changes within FP I or FP II (-130/-120) did not alter the rPRL promoter response to 1 microM forskolin (FSK), despite the 77% and 26% reductions in basal rPRL promoter activity caused by these mutations, respectively. Furthermore, internal deletion of either the basal transcription element of FP I element also failed to affect cAMP regulation of the rPRL promoter, again despite the 90% and 93% reductions in basal promoter activity by these deletions, respectively. Since these internal deletion constructs otherwise contain rPRL promoter sequences from -425 to +73, including the up-stream pituitary-specific FPs III and IV, the data suggest that any one of these cell-specific elements is capable of imparting cAMP regulation to the proximal rPRL promoter. To directly test the implication that the cAMP response of the rPRL promoter is restricted to the pituitary-specific cell type, we took advantage of a 5'-deletion mutant truncated at position -116 and a FP II site-specific mutant, since constructs containing these rPRL promoters are active in nonpituitary cells. Despite the 6.6- and 18.5-fold stimulations over wild-type rPRL promoter activity in nonpituitary cells, respectively, these mutations remained completely unresponsive to FSK treatment. To document that the cAMP-CREB pathway was functional in GC/GH4 rat pituitary cells, CREB was affinity purified from GC rat pituitary cells, and DNase-I protection studies showed that it does not bind to the proximal rPRL promoter. Also, the human glycoprotein alpha-subunit promoter was induced 10-fold by FSK in GH4 rat pituitary cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cyclic adenosine 3',5'-monophosphate activation of the rat prolactin promoter is restricted to the pituitary-specific cell type. 133 42

Cultures of cerebellar granule neurons have been utilized to examine morphological and biochemical consequences of methyl mercury (MeHg). Exposure to MeHg for 24 h was found to exert toxic effects at concentrations below 1 microM characterized by neuron degeneration and neuritic varicosities. Dose-response and time course profiles for cell death were established using the 51Cr release assay, which revealed that 1 microM MeHg produced 15% cell death at 24 h, progressing to 50% at 48 h. Labeling of cultures with [32P]orthophosphate following 24-h exposure to 1 microM MeHg disclosed abnormalities in both protein and lipid phosphorylation. After 24-h exposure to 5 microM MeHg, phospholabeling of protein and lipid increased 174 and 128%, respectively, compared with controls. This stimulation of phosphorylation appeared to be neuron specific since cultures enriched in cerebellar glial cells and devoid of granule neurons displayed dose-dependent inhibition of total phosphorylation. Measurement of 32P labeling of ATP using a cyclic AMP-dependent protein kinase assay in conjunction with the firefly luciferase assay for ATP indicated no significant change in either total ATP levels or [32P]ATP specific activity at 1 or 4 h as a function of [MeHg]. Studies measuring 32P-phosphoprotein turnover indicated that MeHg had no effect on intracellular protein phosphatase activity. We conclude that one of the manifestations associated with in vitro cerebellar granule cell neurotoxicity is an abnormality in protein phosphorylation that is independent of [32P]ATP specific activity and protein phosphatase activity.
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PMID:Methyl mercury stimulates protein 32P phospholabeling in cerebellar granule cell culture. 216 77

Mouse Leydig MA-10 tumor cells are a good model of testicular steroidogenesis. The endogenous murine P450scc mRNA in these cells accumulated in response to 8-bromo-cAMP, forskolin, cholera toxin, and 1-methyl-3-isobutylxanthine, but not in response to 1,9-dideoxyforskolin, indicating that this accumulation was stimulated by the protein kinase-A pathway. Inhibiting transcription with actinomycin-D showed that the half-life of cytochrome P450scc mRNA in these cells was not altered by cAMP, consistent with earlier nuclear run-on data showing that the effect of cAMP on P450scc is at the transcriptional level. A series of 17 fragments of 5'-flanking DNA from the human P450scc gene were fused to the gene for firefly luciferase and transiently transfected into MA-10 cells. The longest construct, containing 2327 basepairs of 5'-flanking DNA, responded 4-fold to forskolin and, hence, was used to optimize the forskolin dose response, showing that 30 microM forskolin elicited a 90% maximal effect. Examination of the activity of the deletion constructs located basal and cAMP-responsive sequences. Constructions containing 79 basepairs of 5'-flanking DNA had basal activity; adding sequences between -79 and -110 had minimal effect, but adding sequences between -110 and -127 increased basal activity 3-fold. Adding sequences beyond -127 did not increase basal transcription further, indicating the presence of a basal transcription element between -110 and -127. These serial deletion mutants were used similarly to locate cAMP responsiveness between -1620 and -1676, indicating the presence of a cAMP response element in this region. The locations of these basal and cAMP-responsive sequences correspond well with those previously identified when human P450scc promoter/reporter constructions were transfected into mouse adrenocortical Y-1 cells, but differ from those identified when such constructions were transfected into human JEG-3 choriocarcinoma cells.
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PMID:Basal transcriptional activity and cyclic adenosine 3',5'-monophosphate responsiveness of the human cytochrome P450scc promoter transfected into MA-10 Leydig cells. 767 94

At micromolar (pharmacological) concentrations, the action of tamoxifen on the proliferation of estrogen-dependent cells can be mediated not only by the estrogen receptor (ER), but also by other target molecules, such as protein kinase-C (PKC), which are easily inhibited by antiestrogens in cell-free experiments. By developing MTLN and MDT cell lines, in which any modulation of PKC activity is reflected by a variation of the expression of an activating protein-1 (AP-1)-controlled firefly luciferase gene, we investigated whether such antiestrogen inhibitory effects on PKC occurred in intact breast cancer cells. Firstly, in short term (4-h) treatment of both cell lines, antiestrogens only inhibited the 12-O-tetradecanoyl-phorbol-13-acetate-induced luciferase activity at very high concentrations (30 microM). A cytolytic effect was also observed. Secondly, in prolonged (4-day) treatments of MTLN (ER-positive) cells, low antiestrogen concentrations (nanomolar) decreased the basal AP-1 response by about 2 and increased the 12-O-tetradecanoyl-phorbol-13-acetate-stimulated AP-1 response by about 3-4. This stimulation was mediated by ER, because 1) dose-response curves established with tamoxifen and hydroxytamoxifen were in agreement with their affinity for ER; 2) when present with antiestrogens, estradiol abolished this phenomenon; and 3) this effect was not observed in MDT (ER-negative) cells. Such a latent activation of AP-1 pathway could appear in the course of breast cancer antiestrogen treatment, in conditions where natural PKC activators are abnormally produced with unexpected consequences on the results of a long term antiestrogen treatment.
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PMID:Prolonged treatment of breast cancer cells with antiestrogens increases the activating protein-1-mediated response: involvement of the estrogen receptor. 786 90

In an attempt to understand the influence of the intracellular environment on protein stability, the thermal denaturation of various reporter proteins was examined within cultured mammalian cells. Loss of solubility and of enzymatic activities were taken as indicators of thermal denaturation. Photinus pyralis luciferase, Escherichia coli beta-galactosidase, the 70-kDa constitutive heat-shock proteins and the 68-kDa dsRNA-dependent protein kinase are found mostly in the supernatant fractions of centrifuged lysates from control unshocked mammalian cells. However, when cells are lysed after heat shock, a proportion of the reporter molecules is found to be aggregated to the nuclear pellets. This insolubilization does not affect all cellular proteins; many of them remain unaffected by heat shock. The heat-induced insolubilization of all four reporter proteins is markedly enhanced when the intracellular ATP concentration is drastically decreased after inhibition of both oxidative phosphorylation and glycolysis. Although ATP molecules bind to luciferase and protect it from thermal inactivation in vitro, the consequences of strong ATP depletion on luciferase thermal stability within the cells are found to be much greater than expected from in vitro data. The 70-kDa constitutive heat-shock proteins and the 68-kDa protein kinase are ATP-binding proteins but ATP depletion also considerably increases the aggregation of beta-galactosidase to the nuclear pellets, although this enzyme is not known to be an ATP-binding molecule. Insolubilization of all four reporter proteins occurs in ATP-depleted cells even at normal growing temperatures (37 degrees C). Protein denaturation may be enhanced either by the aggregation and disappearance of the intracellular 'free' chaperones or by the trapping of unfolded protein molecules on chaperones; the chaperone/unfolded protein complexes could not dissociate in the absence of ATP. Enhanced protein denaturation due to ATP depletion is proposed to account for the greater heat sensitivity of ATP-depleted cells and for the ability of mitochondrial uncouplers to trigger a heat-shock response in some cells.
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PMID:Increased thermal aggregation of proteins in ATP-depleted mammalian cells. 790 18

The protein kinase inhibitor 2-aminopurine (2-AP) greatly stimulated expression in human promonocytes-macrophages of plasmid constructs carrying various reporter genes (chloramphenicol acetyltransferase, lacZ, firefly luciferase [luc], and Salmonella typhimurium histidinol dehydrogenase [his]) driven by the human immunodeficiency virus type 1 (HIV-1) long terminal repeat. Adenine, adenosine, and caffeine were also effective inducers, but other purine or pyrimidine derivatives were ineffective. Experiments with mutant derivatives of the HIV-1 long terminal repeat revealed no specific eukaryotic promoter elements necessary for 2-AP induction but indicated the need for some minimum combination of such elements. Induction of HIV-1-directed gene expression appeared not to require action of the transcription factor NF-kappa B. The mechanism of induction was investigated by using the luc and his genes linked to the HIV-1 long terminal repeat. 2-AP induced marked, steady rises in mRNA accumulation from both transfected and chromosomally integrated HIV-1 constructs but no increases from an endogenous gene encoding gamma-actin or glucose 6-phosphate dehydrogenase. Thus, induction is selective and not an artifact induced by transfecting DNA into cells. In run-on transcription experiments, the rates of transcription initiation of both transfected and integrated copies of the his gene increased about sixfold in cells treated with 2-AP. Thus, while increased initiation accounted for a portion of 2-AP induction, it could not cause the far greater increase in steady-state mRNA levels. 2-AP induction did not change mRNA decay rates and differed from the phorbol ester (phorbol myristate acetate)-induced activation of the protein kinase C-NF-kappa B pathway in its time course and in its requirement for new protein synthesis. Gel retardation assays showed that unlike phorbol myristate acetate induction, 2-AP induction is enhancer independent. Whereas many previous studies have implicated the activation of various protein kinases in gene induction, we here describe a mechanism of gene activation that appears to involve protein kinase inhibition as a component of the induction response.
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PMID:Inducible transcriptional activation of the human immunodeficiency virus long terminal repeat by protein kinase inhibitors. 835 80

Protein kinase recognition sequences and proteinase sites were engineered into the cDNA encoding firefly luciferase from Photinus pyralis in order to establish whether these modified proteins could be developed as bioluminescent indicators of covalent modification of proteins. Two key domains of the luciferase were modified in order to identify regions of the protein in which peptide sequences may be engineered whilst retaining bioluminescent activity; one between amino acids 209 and 227 and the other at the C-terminus, between amino acids 537 and 550. Mutation of amino acids between residues 209 and 227 reduced bioluminescent activity to less than 1% of wild-type recombinant. In contrast engineering peptide sequences at the C-terminus resulted in specific activities ranging from 0.06-120% of the wild-type recombinant. Addition of cyclic AMP dependent protein kinase catalytic subunit, to a variant luciferase incorporating the kinase recognition sequence, LRRASLG, with a serine at amino-acid position 543 resulted in a 30% reduction in activity. Alkaline phosphatase treatment restored activity. The bioluminescent activity of a variant luciferase containing a thrombin recognition sequence, LVPRES, with the cleavage site positioned between amino acid 542 and 543, decreased by 50% when incubated in the presence of thrombin. The results indicate regions within luciferase where peptide sequences may be engineered while retaining bioluminescent activity and have shown changes in bioluminescent activity when these sites are subjected to covalent modification. Changes in secondary structure, charge and length at the C-terminus of luciferase disrupt the microenvironment of the active site, leading to alterations in light emission. This has important implications both in understanding the evolution of beetle bioluminescence and also in development of bioluminescent indicators of the covalent modification of proteins.
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PMID:Engineering the C-terminus of firefly luciferase as an indicator of covalent modification of proteins. 854 53

The role of the abundant stress protein Hsp90 in protecting cells against stress-induced damage is not well understood. The recent discovery that a class of ansamycin antibiotics bind specifically to Hsp90 allowed us to address this problem from a new angle. We find that mammalian Hsp90, in cooperation with Hsp70, p60, and other factors, mediates the ATP-dependent refolding of heat-denatured proteins, such as firefly luciferase. Failure to refold results in proteolysis. The ansamycins inhibit refolding, both in vivo and in a cell extract, by preventing normal dissociation of Hsp90 from luciferase, causing its enhanced degradation. This mechanism also explains the ansamycin-induced proteolysis of several protooncogenic protein kinases, such as Raf-1, which interact with Hsp90. We propose that Hsp90 is part of a quality control system that facilitates protein refolding or degradation during recovery from stress. This function is used by a limited set of signal transduction molecules for their folding and regulation under nonstress conditions. The ansamycins shift the mode of Hsp90 from refolding to degradation, and this effect is probably amplified for specific Hsp90 substrates.
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PMID:Pharmacologic shifting of a balance between protein refolding and degradation mediated by Hsp90. 896 87

In PC12 cells, it has been previously reported that nerve growth factor stimulates neuropeptide Y (NPY) gene expression. In the current study we examined the signalling pathways involved in this effect by transiently expressing in PC12 cells the receptor (TrkB) for the related neurotrophin, brain-derived neurotrophic factor (BDNF). BDNF caused a 3-fold induction of luciferase expression from a transiently co-transfected plasmid possessing the firefly luciferase gene under the control of the NPY promoter. This effect of BDNF was completely blocked by either a Y484F mutation in TrkB (which blocks high-affinity Shc binding to TrkB) or by a Y785F substitution [which blocks the binding, phosphorylation and activation of phospholipase Cgamma (PLCgamma)]. Activation of the NPY promoter by neurotrophin-3 in PC12 cells overexpressing TrkC was also completely blocked by a naturally occurring kinase insert which prevents the high-affinity binding of Shc and PLCgamma. NPY promoter activation by BDNF was blocked by PD98059, suggesting a role for mitogen-activated protein kinase (MAP kinase). Stimulation of NPY gene expression by PMA, but not by BDNF, was blocked by Ro-31-8220, a protein kinase C inhibitor, excluding a role for this serine/threonine protein kinase in the effect of BDNF. In addition, BDNF did not cause an elevation in cytosolic Ca2+ concentration. Taken together, our results suggest that stimulation of the NPY promoter by BDNF requires the simultaneous activation of two distinct pathways; one involves Shc and MAP kinase, and the other appears to be PLCgamma-independent but requires an intact tyrosine-785 on TrkB and so may involve an effector of TrkB signalling that remains to be identified.
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PMID:Stimulation of neuropeptide Y gene expression by brain-derived neurotrophic factor requires both the phospholipase Cgamma and Shc binding sites on its receptor, TrkB. 967 6

Four NPY receptor subtypes have been cloned, and shown to be coupled to both Ca2+ and cAMP. However, very little is known about the downstream elements mediating NPY actions. It has recently been demonstrated in our laboratory that intrahypothalamic (i.h.t.) administration of NPY induces hypothalamic CaM kinase activity, cyclic AMP response element binding protein (CREB) phosphorylation and cyclic AMP response element (CRE) binding activity in rat hypothalamic nuclear proteins. In the present study, we have investigated whether these changes in CRE binding transcriptional factors activated by NPY results in gene regulation using a human neuroblastoma cell line (SK-N-BE2). This cell line which expresses the Y2 subtype of NPY receptors was transfected with a fusion gene containing 1.305 kb of human CRF 5' flanking region with a perfect palindromic CRE site linked to firefly luciferase gene. NPY treatment increased CaM kinase II activity, CREB phosphorylation and CRE binding in these cells. In transfected cells, luciferase activity was also increased by NPY (1.8-4-fold) within 4 h of treatment. Moreover, forskolin (7-30-fold), which stimulates cAMP production, and thapsigargin (6-8-fold), which mobilizes intracellular calcium, also increased luciferase activity within 4 h of treatment. PMA (phorbol-12-myristate-13-acetate), an activator of protein kinase-C, induced luciferase activity by 1.8-fold. NPY augmented forskolin-stimulated luciferase activity from 11- to 15-fold, but had no significant effect on thapsigargin-induced luciferase activity. These findings suggest that activation of protein kinase A (PKA) or CaM kinase leads to the induction of fusion gene. NPY treatment upregulated fusion gene expression through Ca2+ pathway in SK-N-BE2 cell line. Pretreatment with CREB antisense, but not the sense oligodeoxynucleotides, inhibited forskolin-, thapsigargin- and NPY-stimulated luciferase activity. However, CREB sense or antisense oligodeoxynucleotide treatment had no effect on PMA-stimulated luciferase activity. Furthermore, NPY induced CRE binding activity and the expression of CRE containing Y1 receptor gene in SK-N-MC cell line. These findings suggest that NPY can upregulate CRE containing reporter gene including Y1 receptor gene and NPY-induced reporter gene regulation in SK-N-BE2 cells is mediated by intracellular Ca2+ and CREB protein.
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PMID:NPY upregulates genes containing cyclic AMP response element in human neuroblastoma cell lines bearing Y1 and Y2 receptors: involvement of CREB. 980 24

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