Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Rapid effects of steroid hormones have been observed in neuronal cells for many years. We show here, that in the human neuroblastoma cell line SK-N-SH, the membrane impermeable conjugated 17beta-estradiol (E2BSA) activates mitogen activated protein kinase kinase (MAPKK or MEK) and induces the phosphorylation and activation of both ERK-1 and ERK-2 (mitogen activated protein kinase or MAPK). Additionally, E2BSA induces the transcription of a reporter gene construct driven by the promoter of the mouse c-fos proto-oncogene. The effects of this membrane impermeable estrogen on c-fos transcription are not inhibited by the estrogen receptor antagonists Tamoxifen or ICI 182,780, further excluding the involvement of the intracellular estrogen receptor. This is also illustrated by the observation that E2BSA does not activate estrogen response element (ERE) mediated transcription. This is the first report of rapid membrane effects of 17beta-estradiol on growth factor related signalling pathways in neuronal cells, and indicates a potential mechanism by which 17beta-estradiol might affect the expression of genes whose promoters do not contain EREs but are responsive to factors acting through other response elements such as AP-1 and SRE sites.
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PMID:Rapid membrane effects of steroids in neuroblastoma cells: effects of estrogen on mitogen activated protein kinase signalling cascade and c-fos immediate early gene transcription. 927 96

The whole-cell patch-clamp and intracellular perfusion techniques were used for studying the effects of a beta-2 adrenergic receptor activation on the L-type Ca current (ICa) in frog ventricular myocytes. The beta-2 adrenergic agonist zinterol increased ICa in a concentration-dependent manner with an EC50 (i.e., the concentration of zinterol at which the response was 50% of the maximum) of 2.2 nM. The effect of zinterol was essentially independent of the membrane potential. The stimulatory effect of zinterol was competitively antagonized by ICI 118,551, a beta-2 adrenergic antagonist. The maximal stimulatory effect of zinterol was comparable in amplitude to the effect of a saturating concentration (1 or 10 microM) of isoprenaline, a nonselective beta adrenergic agonist. Moreover, 3-isobutyl-1-methylxanthine (100 microM), a nonselective phosphodiesterase inhibitor, or forskolin (10 microM), a direct activator of adenylyl cyclase, had no additive effects in the presence of 0.1 microM zinterol. Zinterol had a long lasting action on frog ICa because after washout of the drug, ICa returned to basal level with a time constant of 17 min. An application of acetylcholine (1 microM) during this recovery phase promptly reduced ICa back to its basal level suggesting a persistent activation of adenylyl cyclase due to a slow dissociation rate constant of zinterol from its receptor. Zinterol also increased ICa in rat ventricular and human atrial myocytes, and the maximal effect was obtained at 10 and 1 microM, respectively. In all three preparations, intracellular perfusion with 20 microM PKI(15-22), a highly selective peptide inhibitor of cAMP-dependent protein kinase, completely antagonized the stimulatory effect of zinterol on ICa. We conclude that beta-2 adrenergic receptor activation produces a strong increase in ICa in frog, rat and human cardiac myocytes which is due to stimulation of adenylyl cyclase and activation of cAMP-dependent phosphorylation.
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PMID:Beta-2 adrenergic activation of L-type Ca++ current in cardiac myocytes. 935 57

Estrogen receptor (ER)-negative MDA-MB-468 human breast cancer cells were stably transfected with wild-type human ER and utilized as a model for investigating estrogen- and aryl hydrocarbon (Ah)-responsiveness. Treatment of the stably transfected cells with 10 nM 17 beta-estradiol (E2) resulted in a significant inhibition (> 60%) of cell proliferation and DNA synthesis, which was blocked by 10(-7) M ICI 182 780. Analysis by flow cytometry indicated that treatment with E2 increased the percentage of cells in G0/G1 (from 68.8 to 89.4) and decreased cells in S (from 18.4 to 3.4) and G2/M (from 12.8 to 7.2) phases of the cell cycle. The effects of E2 on the major cyclins, cyclin-dependent kinases and cyclin-dependent kinase inhibitors, retinoblastoma protein (RB), E2F-1, and cyclin-dependent kinase activities were also investigated in the stably transfected MDA-MB-468 cells. The results demonstrated that the growth inhibitory effects of 10(-8) M E2 in ER stably transfected MDA-MB-468 cells were associated with modulation of several factors required for cell cycle progression and DNA synthesis, including significant induction of the cyclin-dependent kinase inhibitor p21cip-1 ( > 4-fold increase after 12 h) and decreased E2F1 and PCNA protein levels. These results show that the growth-inhibitory effects of E2 in the stably transfected cells were due to multiple factors which result in growth arrest in G0/G1 and inhibition of DNA synthesis.
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PMID:17 beta-Estradiol-mediated growth inhibition of MDA-MB-468 cells stably transfected with the estrogen receptor: cell cycle effects. 935 72

Formoterol, a beta2-adrenergic agonist has been shown in ovariectomized rat models to have anabolic effects on bone. However, those studies did not determine whether the effect of formoterol was by a direct action on bone cells themselves or indirectly via anabolic action on muscle. To address the question of whether formoterol could directly affect osteoblast function we investigated the expression patterns of beta3-adrenergic receptors (betaARs) in human osteoblast-like cells and functional coupling to gene expression. Northern blot analysis showed that betaAR subtypes are expressed at different levels in the osteoblast-like cell lines TE-85, SaOS-2, MG-63, and OHS-4. beta1AR expression was found in SaOS-2, OHS-4, and TE-85, but not MG-63 cells. beta2ARs are expressed at higher levels in MG-63 cells than in TE-85 and SaOS-2 cells, but were not detected in OHS-4 cells. PCR analysis paralleled the northern blot analysis except that beta3AR expression was found in one of three human primary osteoblast cDNAs tested. beta3AR expression was not found in any of the osteoblast-like cell lines. The nonspecific betaAR agonist, isoproterenol, and the beta2AR-specific agonist, formoterol, induced c-fos gene expression in cultured SaOS-2 cells in an immediate early fashion. This effect was inhibited by the beta2AR-specific antagonist, ICI 118551, but not by the beta1AR-specific antagonist, CGP 20712, indicating that induction of c-fos gene expression is specifically mediated by beta2ARs. c-fos gene expression was induced by both isoproterenol and formoterol via increases in cAMP, which in turn activated the cAMP/PKA pathway; the PKA inhibitor, H89, inhibited c-fos gene expression. Thus, betaARs are expressed in osteoblast-like cells and are coupled to c-fos gene expression via the beta2AR, increases in cAMP levels and activation of a PKA-dependent pathway.
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PMID:Formoterol and isoproterenol induce c-fos gene expression in osteoblast-like cells by activating beta2-adrenergic receptors. 960 Jul 80

Expression of progesterone receptor (PR) mRNA in granulosa cells of ovarian preovulatory follicles is induced by LH (1, 2) and is essential for ovulation (3). Although 17beta-estradiol (E) can induce PR mRNA and activate PR promoter-reporter constructs in other cell types, the effects of E in granulosa cells appear to be indirect. We show herein that E alone does not induce the expression of PR mRNA in preovulatory granulosa cells. Rather, induction of PR mRNA depends on the differentiation of granulosa cells in response to E and a physiological amount of FSH followed by exposure to agonists (elevated levels of LH, FSH, and forskolin) that markedly increase cAMP. Induction of PR mRNA by forskolin is blocked by the A-kinase inhibitor H89 and cycloheximide but not by the E antagonist, ICI 164,384. These results indicate that phosphorylation and synthesis of some regulatory factor(s) other than or in addition to the estrogen receptor (ER) are essential for transactivation of the PR gene. When distal and proximal PR promoter-reporter constructs that are responsive to E in other cell types were transiently transfected into differentiated granulosa cells, forskolin, but not E, induced activity. Likewise, when a vector containing the consensus vitellogenin B1 gene estrogen response element (ERE) was transfected into differentiated granulosa cells, forskolin, but not E, induced activity. Using electrophoretic mobility shift assays, the consensus ERE was shown to bind ERbeta, the predominant subtype present in rat granulosa cells, and ERalpha, the predominant subtype present in luteal cells, whereas the putative ERE-like region (ERE3) of the proximal PR promoter did not bind either ER subtype. Although the identity of the specific factors binding to the ERE3 site remain to be determined, mutation of this region abolished forskolin-induced activity of ERE3-PR-CAT constructs. The GC-rich region of the distal PR promoter bound Sp1 and Sp3 but not C/EBPalpha/beta, indicating that factors binding to ERE3 interact synergistically with Sp1/Sp3 to confer increased responsiveness of the distal promoter to forskolin. Taken together, these results indicate that activation of the A-kinase pathway leads to the phosphorylation of some transcription factor(s) other than or in addition to ER that is (are) critical for the transactivation of the PR gene and that this mechanism is selectively activated in differentiated granulosa cells possessing a preovulatory phenotype.
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PMID:Hormone induction of progesterone receptor (PR) messenger ribonucleic acid and activation of PR promoter regions in ovarian granulosa cells: evidence for a role of cyclic adenosine 3',5'-monophosphate but not estradiol. 971 46

Phosphorylation provides an important mechanism by which transcription factor activity is regulated. Estrogen receptor alpha (ERalpha) is phosphorylated on multiple sites, and stimulation of a number of growth factor receptors and/or protein kinases leads to ligand-independent and/or synergistic increase in transcriptional activation by ERalpha in the presence of estrogen. Here we show that ERalpha is phosphorylated by protein kinase A (PKA) on serine-236 within the DNA binding domain. Mutation of serine-236 to glutamic acid prevents DNA binding by inhibiting dimerization by ERalpha, whereas mutation to alanine has little effect on DNA binding or dimerization. Furthermore, PKA overexpression or activation of endogenous PKA inhibits dimerization in the absence of ligand. This inhibition is overcome by the addition of 17beta-estradiol or the partial agonist 4-hydroxy tamoxifen. Interestingly, treatment with the complete antagonist ICI 182,780 does not overcome the inhibitory effect of PKA activation. Our results indicate that in the absence of ligand ERalpha forms dimers through interaction between DNA binding domains and that dimerization mediated by the ligand binding domain only occurs upon ligand binding but that the complete antagonist ICI 182,780 prevents dimerization through the ligand-binding domain. Heterodimer formation between ERalpha and ERbeta is similarly affected by PKA phosphorylation of serine 236 of ERalpha. However, 4-hydroxytamoxifen is unable to overcome inhibition of dimerization by PKA. Thus, phosphorylation of ERalpha in the DNA binding domain provides a mechanism by which dimerization and thereby DNA binding by the estrogen receptor is regulated.
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PMID:Phosphorylation of human estrogen receptor alpha by protein kinase A regulates dimerization. 989 Oct 36

17Beta-estradiol can potentiate kainate-induced currents in isolated hippocampal CA1 neurons. The action of estrogen was rapid in onset, steroid and stereospecific, and reversible. The potentiation could be mimicked by 8-bromo-cAMP, an activator of protein kinase A. As the hippocampus expresses both isoforms of the intracellular estrogen receptor (ER alpha and ER beta), the role of ERs in the rapid action of 17beta-estradiol remains elusive. Here we report that the rapid action of 17beta-estradiol is independent from the classical ER activation in the modulation of membrane excitability. Under whole cell voltage clamp recording configuration, 17beta-estradiol-induced potentiation was observed in both wild-type and the ER alpha gene knockout mice. The perfusion or incubation of ICI 182,780, which blocks both ER alpha and ER beta, did not affect estrogen potentiation in either group. Further study showed that adenosine 3',5'-cyclic-monophosphothioate Rp-isomer, a specific inhibitor of protein kinase A, completely blocked the potentiation observed with the application of 17beta-estradiol in ER alpha gene knockout mice. Our results provide evidence that a distinct estrogen-binding site exists, which appears to be coupled to alpha-amino-3-hydroxyl-5-methyl-4-isoxazole proprionic acid/kainate receptors by a cAMP-dependent phosphorylation process.
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PMID:Rapid action of 17beta-estradiol on kainate-induced currents in hippocampal neurons lacking intracellular estrogen receptors. 992 91

We have shown that estrogen elicits a selective enhancement of the growth and differentiation of axons and dendrites (neurites) in the developing CNS. We subsequently demonstrated widespread colocalization of estrogen and neurotrophin receptors (trk) within developing forebrain neurons and reciprocal transcriptional regulation of these receptors by their ligands. Using organotypic explants of the cerebral cortex, we tested the hypothesis that estrogen/neurotrophin receptor coexpression also may result in convergence or cross-coupling of their signaling pathways. Estradiol elicited rapid (within 5-15 min) tyrosine phosphorylation/activation of the mitogen-activated protein (MAP) kinases, ERK1 and ERK2, that persisted for at least 2 hr. This extracellular signal-regulated protein kinase (ERK) activation was inhibited successfully by the MEK1 inhibitor PD98059, but not by the estrogen receptor (ER) antagonist ICI 182,780, and did not appear to result from estradiol-induced activation of trk. Furthermore, we also found that estradiol elicited an increase in B-Raf kinase activity. The latter and subsequent downstream events leading to ERK activation may be a consequence of our documentation of a multimeric complex consisting of, at least, the ER, hsp90, and B-Raf. These novel findings provide an alternative mechanism for some of the estrogen actions in the developing CNS and could explain not only some of the very rapid effects of estrogen but also the ability of estrogen and neurotrophins to regulate the same broad array of cytoskeletal and growth-associated genes involved in neurite growth and differentiation.
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PMID:Estrogen-induced activation of mitogen-activated protein kinase in cerebral cortical explants: convergence of estrogen and neurotrophin signaling pathways. 995 96

17Beta-estradiol (E2) rapidly (<20 min) attenuates the ability of mu-opioids to hyperpolarize guinea pig hypothalamic neurons. We have used intracellular recordings from female guinea pig hypothalamic slices to characterize the receptor and intracellular pathway(s) mediating E2's rapid effects. E2 acts stereospecifically with physiologically relevant concentration-dependence (EC50 = 8 nM) to cause a fourfold reduction in the potency of the mu-opioid agonist (D-Ala2-N-Me-Phe4-Gly5-ol)-enkephalin and the GABA(B) agonist baclofen to activate an inwardly rectifying K+ conductance in hypothalamic neurons. Both the nonsteroidal estrogen diethylstilbestrol and the anti-estrogen ICI 164,384 blocked E2 actions to uncouple mu-opioid receptors. Using a pharmacological Schild analysis, we found that ICI 164,384 competed for this E2 receptor with a Ke of approximately 0.3 nM. The protein synthesis inhibitor cycloheximide did not block the estrogenic uncoupling of the mu-opioid receptor from its K+ channel, implying a rapid, nongenomic mechanism of E2 action. The effects of E2 were mimicked by the bath application of the protein kinase A (PKA) activators, forskolin and Sp-cAMP, and the protein kinase C (PKC) activator phorbol-12,13-dibutyrate. Furthermore, the selective PKA antagonists Rp-cAMP and KT5720, which have different chemical structures and modes of action, both blocked the effects of E2. In addition, the actions of E2 were blocked by the selective PKC inhibitor Calphostin C. Therefore, it appears that E2 can activate both PKA and PKC to cause a heterologous desensitization of both mu-opioid and GABA(B) receptors, which has the potential to alter synaptic transmission in many regions of the CNS.
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PMID:Rapid effects of estrogen to modulate G protein-coupled receptors via activation of protein kinase A and protein kinase C pathways. 1032 74

To better understand the actions of estrogens and antiestrogens in estrogen target cells, we have searched for estrogen-regulated genes in human breast cancer cells, in which the number of genes known to be directly activated by estrogen is quite small. Using differential display RNA methods, we have identified the human homolog of the Na+ -H+ exchanger regulatory factor (NHE-RF), an approximately 50-kDa protein that is also an ezrin-radixin-moesin-binding phosphoprotein, as being under rapid and direct regulation by estrogen in estrogen receptor (ER)-containing breast cancer cells. Stimulation by estrogen of NHE-RF RNA is rapid, being near maximal (approximately 6-fold) by 1 h, and is not blocked by cycloheximide, indicating that it is a primary response. Stimulation is selective for estrogen ligands, with no stimulation by other classes of steroid hormones, and stimulation by estrogen is suppressed by the antiestrogens tamoxifen and ICI 182,780. Induction is shown to require an active ER through several approaches, including the use of ER-negative breast cancer cells containing a stably integrated ER. NHE-RF protein levels, monitored using antibodies specific for this protein, increase after estrogen and reach maximal levels at 24-48 h. Interestingly, NHE-RF is a PDZ domain-containing protein that is enriched in polarized epithelia, where it is known to be localized in microvilli. Among various human tissues we have examined, we found that NHE-RF is expressed at a fairly high level in mammary tissue. NHE-RF regulates protein kinase A inhibition of the Na+ -H+ exchanger and may serve as a scaffold adaptor protein that contributes to the specificity of signal transduction events. Our findings suggest that the early, known effects of estrogen on cell cytoarchitecture (e.g. increasing microvilli on breast cancer cells) and on some cell signaling pathways (e.g. those involving cAMP) may involve rapid estrogen-mediated changes in the production of NHE-RF.
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PMID:Estrogen receptor regulation of the Na+/H+ exchange regulatory factor. 1038 89


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