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)

Human mesangial cells in culture synthesize and secrete plasminogen activator inhibitor 1 (PAI-1) and tissue-type plasminogen activator (t-PA). Phorbol myristate acetate (PMA), a known activator of protein kinase C, induces a three to four-fold increase in t-PA and PAI-1 release over a period of 24 h, whereas cell-associated t-PA and PAI-1 levels remain relatively stable. A similar effect is obtained with oleylacetyl glycerol, a more physiologic protein kinase C activator. The effect of PMA is suppressed in the presence of H7, an inhibitor of cellular protein kinases, and by cycloheximide and actinomycin D, indicating a requirement for de novo protein and RNA synthesis, respectively. Northern blot analysis of PMA-treated cells reveals a rapid and transient increase in PAI-1 mRNA reaching a maximum after 4-8 h, whereas increase in t-PA mRNA levels requires 24 h. Activation of protein kinase A by addition of 8-bromocyclic AMP (8-bromo cAMP) has no significant effect on PAI-1 release but inhibits the PMA-mediated increases in PAI-1 antigen and mRNA. Addition of 8-bromo cAMP alone does not affect t-PA release. When added to PMA-stimulated cells, 8-bromo cAMP inhibits t-PA release in a dose-dependent manner, but causes a superinduction of t-PA mRNA. 8-bromo cAMP also induces a decrease in PMA-stimulated intracellular t-PA release. Similar inhibition is observed after stimulation of endogenous adenylate cyclase with prostaglandin E1 or isoproterenol. This indicates that protein kinase A activation may inhibit PMA-stimulated t-PA release via a post-transcriptional effect, e.g. inhibition of protein synthesis or activation of protein degradation. In conclusion, hormones or mediators which activate protein kinase C can stimulate t-PA and PAI-1 synthesis in human mesangial cells. Protein kinase A activation has no effect on the basal release of PAI-1 and t-PA by human mesangial cells, and, in contrast to endothelial cells, it inhibits both PMA-stimulated PAI-1 and t-PA releases. This cell-specific regulation of t-PA and PAI-1 seems to be mediated by differential transcriptional and post transcriptional mechanisms.
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PMID:Cell-specific regulation of plasminogen activator inhibitor 1 and tissue type plasminogen activator release by human kidney mesangial cells. 155 43

Fibroblasts represent one of the in vivo sites of insulin-like growth factor-I (IGF-I) production. In this study rat dermal fibroblasts in culture were used as a model system to assess the effect of activation of protein kinase-C on the levels of the mRNAs encoding IGF-I and another growth factor, basic fibroblast growth factor (bFGF). IGF-I and bFGF mRNA levels were determined using a solution hybridization/RNase protection assay. Treatment of cells in serum-free medium containing 0.25% BSA (MEM + BSA) with the tumor-promoting phorbol ester phorbol 12-myristate 13-acetate (PMA) decreased IGF-I and increased bFGF mRNA levels in a time- and dose-dependent fashion. The peak effect of 100 nM PMA on IGF-I mRNA levels occurred at 9 h, whereas the peak effect on bFGF mRNA levels occurred after 3 h of incubation. In dose-response studies, half-maximal inhibition of IGF-I mRNA levels was achieved with approximately 0.08 nM PMA, while half-maximal stimulation of bFGF mRNA levels was achieved with approximately 3 nM PMA. Inhibition of protein synthesis with cycloheximide abrogated the effect of PMA on bFGF mRNA levels, but only partially inhibited the effect of PMA on IGF-I mRNA levels. Studies employing sphingosine or staurosporine to inhibit protein kinase-C or preincubation in high doses of PMA to down-regulate protein kinase-C suggested that the effect of PMA on IGF-I and bFGF mRNA levels was mediated by activation of protein kinase-C, although both staurosporine and sphingosine had independent effects on the levels of these mRNAs and down-regulation of protein kinase-C had a sustained effect on IGF-I mRNA levels. Ligands known to activate protein kinase-C were then tested. Treatment of cells with 100 micrograms/ml of the synthetic diacylglycerol 1-oleoyl-2-acetyl-sn-glycerol decreased IGF-I mRNA levels to 25% and increased bFGF mRNA levels to 520% of the level present in cells maintained in MEM + BSA. Treatment of cells with thrombin or bradykinin also decreased IGF-I mRNA levels and increased bFGF mRNA levels, but whereas the effect of thrombin on IGF-I mRNA levels was marked, the effect of bradykinin was minimal, and whereas the effect of thrombin on bFGF mRNA levels was sustained, the effect of bradykinin was transient.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activation of protein kinase-C differentially regulates insulin-like growth factor-I and basic fibroblast growth factor messenger RNA levels. 160 84

The concentration of fructose 2,6-bisphosphate in the brain remained stable during starvation and early stages of ischaemia, but decreased in diabetes or after lengthened ischaemia. 6-Phosphofructo-1-kinase activity was also decreased in diabetic and ischaemic animals, whereas 6-phosphofructo-2-kinase was not modified. The concentration of the bisphosphorylated metabolite seems to be remarkably constant under a wide variety of experimental conditions, suggesting that it plays an essential role in the basal activation of 6-phosphofructo-1-kinase. Purified 6-phosphofructo-2-kinase also showed fructose-2,6-bisphosphatase activity with an activity ratio similar to that of the purified heart isoenzyme. The brain enzyme also has a net charge similar to that of the heart isoenzyme. Its activity is not modified by sn-glycerol 3-phosphate, and it is more sensitive to citrate than the liver or muscle isoenzyme. Moreover, the enzyme from brain, similarly to that from heart and muscle, is not modified by the cyclic AMP-dependent protein kinase or protein kinase C. A near-full-length cDNA probe from liver hybridized with RNA from brain and heart. In both cases, a major band of 6.8 kb of RNA and a minor one of 4 kb of RNA were detected. All these properties support the hypothesis that brain contains a different isoenzymic form from that of liver and muscle, and it is probably related to the heart isoform.
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PMID:6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase in rat brain. 164 1

The abundance of 1,25-dihydroxyvitamin D3 receptors (VDR) in cultured cells has been shown to vary in direct relation to the rate of cell proliferation. This study examines the question of whether the growth-factor mediated up-regulation of VDR is due to direct modulation of VDR gene expression or is secondary to the stimulation of cell cycle events. Mitogenic agents, such as basic fibroblast growth factor and phorbol esters, were found to cause significant decreases in VDR abundance, while substantially stimulating proliferation of NIH-3T3 cells. Potent phorbol esters, such as phorbol myristate acetate (PMA) and phorbol-12,13-dibutyrate, whose biological actions have been shown to be mediated through the activation of protein kinase-C, down-regulated VDR in a time- and dose-dependent manner. An inactive phorbol ester, 4 alpha-phorbol-12,13-didecanoate, which does not activate protein kinase-C, did not alter VDR levels. Desensitization of protein kinase-C by prolonged exposure of cells to phorbol esters eliminated the PMA-mediated down-regulation of VDR. Staurosporine, an inhibitor of protein kinase-C, blocked the actions of PMA. Oleoyl acetyl glycerol, a synthetic diacyl glycerol, and A23187, a calcium ionophore, were both able to suppress VDR abundance alone and were additive in combination. The results suggest that activation of the protein kinase-C pathway and elevation of intracellular Ca2+ lead to significant down-regulation of VDR. The inhibitory effect of PMA appears to be exerted at the level of VDR mRNA expression. Northern blot analysis revealed significant decreases in steady state levels of VDR mRNA species that qualitatively corresponded to the decrease in VDR protein concentration seen on a Western blot.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of protein kinase-C inhibits vitamin D receptor gene expression. 165 39

GH-releasing factor (GRF)-stimulated GH release is dependent on a biphasic increase in free intracellular Ca2+ concentration [( Ca2+]i), resulting from an influx of Ca2+ into somatotrophs, while the inhibitory action of somatostatin (SRIF) on basal and GRF-induced GH release results from its ability to lower [Ca2+]i by inhibiting Ca2+ influx. This study was carried out to investigate the mechanism by which GRF and SRIF regulate [Ca2+]i to control GH release. The roles of ion channels, cAMP-dependent processes, and protein kinase-C (PKC) were investigated by measuring changes in [Ca2+]i, 45Ca influx, and GH release when purified rat somatotrophs were exposed to high K+, cAMP analogs, prostaglandin E2, as well as the PKC activators 1,2-dioctanoyl-glycerol and phorbol 12-myristate 13-acetate. High K+ depolarization produced a rapid and transient increase in [Ca2+]i, while cAMP and prostaglandin E2 led to a sustained elevated [Ca2+]i. PKC activators produced a transient increase in [Ca2+]i, followed by a decrease to below baseline. All secretagogues tested raised [Ca2+]i by stimulating Ca2+ influx through L-type voltage-sensitive Ca2+ channels (VSCC), since the increases in [Ca2+]i were blocked by incubation in Ca2(+)-free medium and by the dihydropyridine Ca2+ antagonist nifedipine. SRIF lowered [Ca2+]i by blocking the Ca2+ influx stimulated by all of these GH secretagogues except high K+. These results are consistent with the model in which GRF initiates its action by increasing Na+ conductance to depolarize the somatotroph via cAMP. This depolarization would stimulate Ca2+ influx through VSCC, which would result in the first phase of the GRF-dependent increase in [Ca2+]i. This increase in [Ca2+]i would stimulate Ca2+ removal from the cytosol by activating Ca-ATPase via Ca-calmodulin and/or PKC. This would result in the lowering of [Ca2+]i to the plateau level of the second phase of the GRF response. SRIF prevents the GRF-induced increase in [Ca2+]i by increasing K+ conductance and, thus, hyperpolarizing the cell. Hyperpolarization would close VSCC, leading to a decrease in Ca2+ influx, with a subsequent drop in [Ca2+]i.
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PMID:Free intracellular Ca2+ concentration and growth hormone (GH) release from purified rat somatotrophs. III. Mechanism of action of GH-releasing factor and somatostatin. 167 Sep 26

A wide range of different stimuli is perceived by the intestinal epithelium. They include luminal factors, especially bacterial toxins, and agonists such as inflammatory mediators and neuro peptides, acting from the interstitial fluid surrounding the epithelial cells. It is likely that in any individual patient with diarrhoea there is a range of stimuli acting upon the epithelium. Specific receptors on the apical and basolateral membrane, activated by these stimuli, transduce the perceived signals to stimulate a series of membrane-bound enzyme systems. They in turn generate second messengers which are liberated into the cytoplasm. These include cyclic adenosine monophosphate, cyclic guanosine monophosphate, inositol triphosphate (which goes on to liberate free calcium), and diacyl glycerol. Each of these second messengers activates a different protein kinase, each of which then induces the phosphorylation of a series of cytoplasmic and membrane-bound proteins. Each of the protein kinases is likely to influence the activity of the others so that their effects are closely integrated. The final common pathways through which intestinal secretory stimuli pass involve the opening of an anion channel in the apical membrane, together with the stimulated uptake of chloride at the basolateral membrane. Anions, especially chloride and possibly bicarbonate, are then secreted into the lumen, and sodium and water passing between the cells accompany them. The net result is secretion of salt and water, which lies at the centre of a number of diarrhoeal diseases.
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PMID:Cellular basis of diarrhoea. The Croonian lecture 1989. 170 25

Somatostatin (SRIF) reduces growth hormone releasing hormone (GRF)-stimulated growth hormone (GH) release from avian and mammalian adenohypophyseal cells. The present studies examined the intracellular mechanisms mediating SRIF inhibition of GRF-stimulated GH release from chicken pituitary cells. Increases (P less than 0.05) in GH release were observed in the presence of (1) GRF; (2) the adenylyl cyclase stimulator, forskolin; (3) a cAMP analog, 8-bromo-cAMP; (4) the phosphodiesterase inhibitor 3-isobutyl-l-methyl-xanthine (IBMX) combined with GRF; (5) a tumor-promoting phorbol ester and protein kinase C activator, phorbol 12-myristate, 13-acetate (PMA); (6) a diacylglycerol analog, 1,2-dioctanoyl-glycerol (DiC8); and (7) a calcium ionophore, A23187, alone and in combination with PMA. Somatostatin (10 ng/ml) reduced the release of GH stimulated by GRF, forskolin, and 8-bromo cAMP and the GRF-provoked release of GH in the presence of IBMX (P less than 0.05). Somatostatin, however, did not influence GH release in the presence of the protein kinase C activators, PMA or DiC8, or the calcium ionophore A23187. These data suggest that SRIF inhibits GRF-provoked GH release by reducing the ability of the cAMP-protein kinase A but not of the calcium or protein kinase C intracellular message pathways to stimulate GH release.
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PMID:Possible involvement of adenylyl cyclase-cAMP-protein kinase a pathway in somatostatin inhibition of growth hormone release from chicken pituitary cells. 170 26

Multivalent antigen that is capable of binding to and crosslinking the IgE receptors on rat basophilic leukemia (RBL) cells, induces a rapid and sustained rise in the content of filamentous actin. This reorganization of the actin may be responsible for changes in cellular morphology during the degranulation process. The antigen-stimulated polymerization of actin can be blocked in a dose-dependent manner by protein kinase inhibitors which also block degranulation. Conversely, reagents such as PMA, 1,2-dioctanoyl-sn-glycerol (diC8), and 1-oleoyl-2-acetyl-glycerol (OAG) which stimulate protein kinase C (PKC) also activate the rise in F-actin, although they have no effect on degranulation by themselves. The actin response which can be stimulated by the PKC activators can also be blocked by protein kinase inhibitors indicating that the PMA- and OAG-induced response is probably through activation of a protein kinase. Depletion of PKC activity through long term (20 h) exposure of RBL cells to PMA, also inhibited the F-actin response when the cells were stimulated with either multivalent antigen or OAG. External Ca++, which is an absolute requirement for degranulation, is not necessary for the rise in F-actin, but may modulate the response. Furthermore, ionomycin, which induces a large Ca++ influx, does not stimulate the F-actin increase even at doses that cause degranulation. These results suggest that activation of a protein kinase, such as PKC, may be responsible for signaling the polymerization of actin in RBL cells and that a rise in intracellular Ca++ is neither necessary nor sufficient for this response.
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PMID:Regulation of the antigen-induced F-actin response in rat basophilic leukemia cells by protein kinase C. 182 60

Addition of IL-1 (interleukin-1) to human synovial fibroblasts radiolabelled with [3H]arachidonic acid caused a linear dose-dependent increase in arachidonic acid release and a transient rise in labelled diacylglycerol. Protein kinase C activators PMA 4-phorbol 12-myristate 13-acetate and DiC8 (1,2-dioctanoyl-sn-glycerol) also increased arachidonic acid release, but the time course observed with PMA was different from that of IL-1. When cultures were treated with PMA for 16-24 h to down regulate protein kinase C, the ability of IL-1 to increase arachidonic acid release persisted to the same extent as in nontreated cultures. In contrast, PMA pretreatment prevented the eight-fold stimulation of arachidonic acid release in response to PMA observed in cultures not previously exposed to PMA. To examine the role of other kinases in IL-1 stimulated arachidonic acid release, cultures were treated with H-7 (1-(5-isoquinolinesulphonyl)-2-methylpiperazine dichloride), H-8 (N-[2-(methylamino) ethyl]-5-isoquinolinesulphonamide dichloride), HA1004 (N-(2-guanidoinoethyl)-5-isoquinolinesulphonamide hydrochloride), and staurosporine. IL-1 stimulation of arachidonic acid release was blocked by H-7, H-8 and staurosporine. H-7 was a more potent inhibitor than H-8, suggesting that cAMP dependent kinase did not mediate IL-1 action. Addition of H-7 at various times following IL-1 decreased IL-1 stimulated arachidonic acid release, suggesting that continued protein kinase activity was necessary for IL-1 action. Cycloheximide and actinomycin D inhibited the stimulation of arachidonic acid release by IL-1, PMA or DiC8. The addition of cycloheximide or actinomycin D 15-45 min after IL-1 also inhibited IL-1 stimulated arachidonic acid release, indicating that continued protein synthesis was required for IL-1 action. These results suggest that IL-1 stimulation of acylhydrolyase activity in human synovial cells occurs by a mechanism requiring continued protein synthesis and protein kinase activity and that neither protein kinase C nor cAMP dependent protein kinase is involved.
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PMID:Interleukin-1 stimulation of arachidonic acid release from human synovial fibroblasts; blockade by inhibitors of protein kinases and protein synthesis. 189 33

An in vitro established microglial cell line, BV-2, constitutively exhibits high levels of anti-Candida activity. To elucidate the cascade of events leading to the accomplishment of such activity, we studied its dependence on temperature and ion availability. The role of protein kinases has also been studied by the specific inhibitors, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H7) and N-(2-guanidinoethyl)-5-isoquinoline sulfonamide hydrochloride (HA 1004). We found that (a) the BV-2 cell/Candida conjugate formation is a discrete step, temperature-, ion- and protein kinase-independent; (b) the phagocytic event, which is protein kinase-independent, is significantly impaired by temperature decrease and ion deprivation; (c) the fulfillment of anti-Candida effects is strictly dependent upon temperature, ion availability and functional protein kinase. Functional protein kinase C, but not other kinases, is required for the accomplishment of anti-Candida activity, which, in fact, is selectively abrogated by H7 but not HA. Furthermore, protein kinase C activators, such as 12-O-tetradecanoylphorbol 13-acetate (TPA) or 1-oleoyl-2-acetyl glycerol (OAG), consistently potentiate BV-2 cell-mediated anti-Candida activity, the phenomena being dose-dependent. These results indicate that the multistep events leading a microglial cell to express anti-Candida activity can be dissected and differentiated for biochemical and biological demands, the latest along the cascade being the most demanding steps.
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PMID:Microglial cell-mediated anti-Candida activity: temperature, ions, protein kinase C as crucial elements. 189 34


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