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)

Synchronized Ca2+ transients in cultured hippocampal neurons reflect the pattern of underlying electrical activity. Here we demonstrate a similar synchronization of cerebral cortical neurons in culture, and show that this functional coupling is correlated to the appearance of morphologically identified synapses using electron microscopy. During screening of a series of drugs for inhibition of in vitro synaptogenesis, the continuous presence of a protein kinase inhibitor (K-252b) in the culture medium was found to block the synchronous firing and to decrease significantly the number of morphologically identifiable synapses. Since K-252b does not permeate the cell membrane, the results strongly suggest that phosphorylation of cell surface protein(s) by a K-252b sensitive-protein kinase is an essential process in synapse formation.
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PMID:Block of synapse formation between cerebral cortical neurons by a protein kinase inhibitor. 162 5

K-252b, a protein kinase inhibitor, has been shown earlier to inhibit nerve growth factor actions on cholinergic neurons of the basal forebrain. In the present study, K-252b was found to prevent trophic actions of two other neurotrophins, brain-derived neurotrophic factor, and neurotrophin-3, on central cholinergic and dopaminergic neurons, peripheral sensory neurons, and PC12 pheochromocytoma cells, when used at greater than 2 microM concentration. Comparable actions of nonneurotrophin growth factors were not affected. Surprisingly, at 0.1-100 nM, K-252b selectively enhanced the trophic action of neurotrophin-3 on central cholinergic neurons, peripheral sensory neurons, and PC12 cells. In PC12 cells, K-252b potentiated the neurotrophin-3-induced tyrosine phosphorylation of trk, a protein kinase responsible for transmitting neurotrophin signals. Of the three structurally related nerve growth factor inhibitors, K-252a, K-252b, and staurosporine, only the first two also mediated neurotrophin-3 potentiation. These findings indicate that K-252b generally and selectively potentiates the neurotrophic action of neurotrophin-3 and suggest that this action involves trk-type neurotrophin receptors.
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PMID:K-252b selectively potentiates cellular actions and trk tyrosine phosphorylation mediated by neurotrophin-3. 162 41

5-Hydroxytryptamine (5-HT) has been shown to activate the hypothalamo-pituitary-adrenal axis, possibly by a direct action on hypothalamic CRF synthesis and release. In order to study the mechanisms involved in this effect, foetal hypothalamic cells were cultured and corticotropin-releasing factor-41 (CRF) release was measured by radioimmunoassay. 5-HT induced CRF release in a dose-dependent manner. Further studies were performed with a specific protein kinase C inhibitor, H-7 (1-(5-isoquinolinesulfonyl)-2-methyl-piperazine) and a specific cyclic adenosine monophosphate-dependent protein kinase inhibitor, IP-20. Basal release of CRF-41 from the cultured hypothalamic cells was unaffected by IP-20 and was only diminished at a high (50 microM) concentration of H-7. 5-HT stimulated-CRF release, however, was blocked by both H-7 and IP-20. Dexamethasone and aldosterone both caused a dose-dependent inhibition of 5-HT induced CRF release. These results demonstrate that CRF can be released from hypothalamic neurons in response to 5-HT through a protein kinase C and protein kinase A dependent mechanism and that 5-HT stimulated CRF release can be inhibited by dexamethasone and aldosterone.
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PMID:5-Hydroxytryptamine stimulates corticosteroid-sensitive CRF release from cultured foetal hypothalamic cells. Role of protein kinases. 163

Chicken splenic cells, stimulated by concanavalin A, secreted a factor or factors into the culture medium which supported the survival of neurons from sympathetic ganglia of chick embryos. The effect of this conditioned medium (CM) was similar to the effect of nerve growth factor (NGF). However, the enhanced survival effect of CM was unaffected by K-252a, a protein kinase inhibitor which completely abolished the effect of NGF. 6-Thioguanine, an inhibitor of NGF-activated protein kinase N, blocked the survival effects of both NGF and CM on sympathetic neurons, but a dose required for the half-maximal inhibition for the survival effect of CM was 10 times higher than that for NGF. H-7, an inhibitor of protein kinase C, did not block the effect of either CM or NGF. On the other hand, the survival effect of both CM and NGF was blocked to the same extent by 5'-deoxy-5'-methylthioadenosine and LiCl. These results suggest that activated splenic cells secreted neuronal survival-promoting factor(s) into CM and that the cellular mechanisms promoting neuronal survival by CM are different from those promoting neuronal survival induced by NGF.
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PMID:Chick sympathetic neurons in culture respond differentially to nerve growth factor and conditioned medium from activated splenic lymphocytes. 164 62

The effect of Ca2+/calmodulin-dependent protein phosphorylation on K+ channels was examined in snail neurons, using several pharmacological agents, the voltage clamp method and the pressure injection technique. H-7, a general protein kinase inhibitor, reduced the delayed outward K+ current (IKD) which was suppressed by tetraethylammonium. Ca2+/calmodulin-dependent protein kinase II, when injected into neurons which had been treated with H-7, transiently restored the reduced IKD nearly to the pre-H-7 level. However, this restoration was blocked by W-7, a calmodulin inhibitor. In contrast, the catalytic subunit of cAMP-dependent protein kinase or protein kinase C injected into the H-7-treated neurons had little effect on the current. These findings suggest that Ca2+/calmodulin-dependent protein phosphorylation is involved in the opening process of K+ channels.
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PMID:Evidence that Ca2+/calmodulin-dependent protein phosphorylation is involved in the opening process of potassium channels in identified snail neurons. 164 80

The purposes of this study were to examine the biologic effects of the engagement of the interleukin-7 receptor (IL-7R) with recombinant human interleukin-7 (rhIL-7) in immunophenotypically distinct T-lineage acute lymphoblastic leukemia (ALL) blasts and to elucidate the biochemical nature of the IL-7R-linked transmembrane signal in rhIL-7-responsive T-lineage ALL blast populations. In the absence of costimulants, rhIL-7 stimulated the in vitro proliferation and colony formation of freshly isolated leukemic blasts from six to eight T-lineage ALL patients with a mean plating efficiency of 196 +/- 53 (background subtracted) colonies/10(5) blasts plated. Stimulation of T-lineage ALL blasts with rhIL-7 resulted in markedly enhanced tyrosine phosphorylation of six distinct phosphoproteins with molecular weights of 57, 72, 98, 123, 150, and 190 Kd, and induced a rapid increase in the production of inositol-1,4,5-trisphosphate (Ins-1,4,5-P3), which was inhibitable by the tyrosine-specific protein kinase inhibitor genistein, but not by the serine/threonine-specific protein kinase C inhibitor H7. Similarly, rhIL-7 stimulated Ins-1,4,5-P3 production in CEM-1.3 T-lineage ALL cells and this stimulation was inhibitable by the tyrosine-specific protein kinase inhibitors genistein and herbimycin A, but not by H-7. Thus, the transmembrane signal triggered by engagement of the IL-7R is intimately linked to a functional tyrosine-specific protein kinase pathway and stimulates the phosphoinositide (PI) turnover and proliferation of T-lineage ALL blasts. The presented data confirm and extend previous studies on the expression of functional IL-7R on T-lineage ALL blasts and support the hypothesis that IL-7 may play an important regulatory role in the biology of T-lineage ALL.
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PMID:Engagement of interleukin-7 receptor stimulates tyrosine phosphorylation, phosphoinositide turnover, and clonal proliferation of human T-lineage acute lymphoblastic leukemia cells. 165 Feb 61

Exposure to the phorbol ester, phorbol 12-myristate, 13-acetate (PMA, 100nM) for 10 minutes enhanced cyclic AMP accumulation in human neutrophils under basal conditions and in response to the beta-adrenergic receptor agonist isoproterenol (ISO), 1 microM) and the adenylate cyclase activator forskolin (FSK, 10mM). Potentiation of responses to ISO by PMA was dose-dependent between 0.1 and 100nM PMA. The diacylglycerol analogue, 1-oleoyl-2-acetylglycerol (OAG) (50 microM) also elevated beta-receptor responses, but 4 beta-phorbol (100nM), lacking the capacity to activate PMA, was ineffective. Short-term exposure (12 seconds) to the peptide n-formylmethionine leucyl-phenylalanine (FMLP, 1 microM) also elevated neutrophil cyclic AMP accumulation. All potentiating effects of PMA on cyclic AMP production were inhibited by the protein kinase inhibitor 1-(5-isoquinolinylsulphonyl)-2-methylpiperazine (H7). Elevation of cyclic AMP by FMLP was insensitive to H7. PMA had no apparent effect on beta-receptor agonist-affinity, distribution between cell-surface and internalised compartments, or the capacity of ISO to induce beta-receptor internalisation. Responses to FSK or ISO in terms of fold-stimulation of basal cyclic AMP accumulation in the presence of PMA were not elevated by PMA. These findings indicate that PMA exerts a potentiating effect on neutrophil adenylate cyclase responses through protein kinase C activation. FMLP elevation of neutrophil cyclic AMP in the absence of other stimuli, appears however, to be insensitive to protein kinase inhibition.
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PMID:Neutrophil beta-adrenergic receptor responses are potentiated by acute exposure to phorbol ester without changes in receptor distribution or coupling. 165 46

The formation of membrane microparticles through vesiculation of the platelet plasma membrane is known to provide catalytic surface for several enzyme complexes of the coagulation system, and to underlie the procoagulant responses elicited with platelet activation. This induced shedding of vesicles from the plasma membrane is most prominent when platelets are activated by the terminal complement proteins, C5b-9, by a Ca2+ ionophore, or by the combination of thrombin plus collagen. Although shown to require elevated [Ca2+], the cellular events that initiate plasma membrane evagination and fusion to form the shed vesicles remain unresolved. To gain additional insight into the cellular events that regulate membrane microparticle formation, we have examined how this process is influenced by the activity of cellular protein kinases. Cytoplasmic [Ca2+] of gel-filtered platelets was increased by membrane assembly of the terminal complement proteins C5b-9 in the presence of selective inhibitors of protein kinase or phosphatase reactions, and resulting microparticle formation was quantitated by fluorescence-gated flow cytometry. Pre-equilibration of the phosphatase inhibitor vanadate into the platelet cytosol increased microparticle formation by as much as 40%, suggesting that vesiculation of the platelet plasma membrane is influenced by the state of phosphorylation of a cellular constituent. By contrast to the stimulatory effects of vanadate, microparticle formation was partially inhibited in platelets treated with the protein kinase inhibitor sphingosine, the myosin light chain kinase inhibitor ML-7, the calmodulin-antagonist W-7, and under conditions of elevated cytosolic concentration of cyclic adenosine monophosphate. These results indicate that complement-induced platelet microparticle formation is influenced by one or more protein kinase(s) as well as by calmodulin, and suggest a role for the platelet myosin light chain kinase or another Ca(2+)-pluscalmodulin-regulated membrane component.
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PMID:Participation of protein kinases in complement C5b-9-induced shedding of platelet plasma membrane vesicles. 165 68

Trans-ACPD, a metabotropic glutamate receptor agonist, enhanced both the short-term potentiation (STP) at 1 and 5 min, and long-term potentiation (LTP) at 20 min, following tetanic stimulation, of the population, excitatory postsynaptic potential (epsp) recorded from CA1 of the rat hippocampal slice. The enhancement of both STP and LTP also occurred in the presence of the protein kinase inhibitor sphingosine, indicating that the enhancement is most likely to occur through the inositol phosphate rather than the protein kinase limb following receptor activation and phosphoinositide hydrolysis. LTP of the low frequency population epsp was not induced by t-ACPD, even at 100 microM. The metabotropic glutamate receptor may have an important role in LTP induction or modulation.
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PMID:The effects of trans-ACPD on long-term potentiation in the rat hippocampal slice. 166 72

1. The involvement of protein phosphorylation in the pentylenetetrazole (PTZ)-induced bursting activity (BA) was evaluated in identified neurons of the snail. Euhadra peliomphala by examining the effect of various protein kinases and their inhibitors on the membrane properties induced by PTZ. 2. In neurons which normally exhibited spontaneous regular firing, PTZ elicited BA, the negative slope resistance (NSR) in the steady-state current (I)-voltage (V) relationship and a reduction of the delayed potassium current (IKD) in a dose-dependent manner. These were inhibited by the cAMP-dependent protein kinase inhibitors, protein kinase inhibitor isolated from rabbit muscle and N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide. 3. Intracellular injection of catalytic subunit (CS) of cAMP-dependent protein kinase enhanced PTZ-induced NSR and reduction of IKD, as well as a conversion of the BA to a long-lasting depolarization of the membrane, whereas a saturating dose of the CS occluded PTZ action on the NSR and IKD. 4. Ca2+/calmodulin-dependent protein kinase II (CaMKII), when intracellularly injected during the depolarizing phase of PTZ-induced bursting cycle, changed to a prolonged hyperpolarization of the membrane. This kinase also restored the PTZ-suppressed IKD nearly to the pre-PTZ level. However, when intracellular injection of CaMKII and application of N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide, a calmodulin inhibitor, to the inside and outside of the neuron were simultaneously carried out, neither post-burst hyperpolarization nor restoration of the IKD was observed. 5. Intracellular injection of calmodulin, together with calcium chloride, had little effect on both the BA and reduction of IKD induced by PTZ. 6. Simultaneous application of 40 microM 1-(5-isoquinolinsulfonyl)-2-methylpiperazine, which selectively suppressed the phosphatidylserine-dependent protein phosphorylation in extracts from Euhadra ganglia, to both the inside and outside of the neuron, did not produce any significant change in the membrane properties induced by PTX. Intracellular injection of protein kinase C also brought about no effect. 7. These findings suggest that PTZ stimulates cAMP-dependent protein phosphorylation which, in turn, is involved in the development of NSR and reduction of IKD, leading to the depolarization of the membrane. In addition, we propose that the Ca2+ ions, increased during the depolarizing phase of the BA cycle, form a Ca2+/calmodulin complex and subsequent protein phosphorylation, coupled with the opening of potassium channels, leading to the membrane hyperpolarization.
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PMID:The molecular mechanism underlying pentylenetetrazole-induced bursting activity in Euhadra neurons: involvement of protein phosphorylation. 168 38


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