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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CA2+-regulated protein kinases play critical roles in long-term potentiation (LTP). To understand the role of Ca2+/calmodulin (CaM) signaling pathways in synaptic transmission better, Ca2+/CaM was injected into hippocampal CA1 neurons. Ca2+/CaM induced significant potentiation of excitatory synaptic responses, which was blocked by coinjection of a CaM-binding peptide and was not induced by injections of Ca2+ or CaM alone. Reciprocal experiments demonstrated that Ca2+/CaM-induced synaptic potentiation and tetanus-induced LTP occluded one another. Pseudosubstrate inhibitors or high-affinity substrates of CaMKII or PKC blocked Ca2/CaM-induced potentiation, indicating the requirement of CaMKII and PKC activities in synaptic potentiation. We suggest that postsynaptic levels of free Ca2+/CaM is a rate limiting factor and that functional cross-talk between Ca2+/CaM and PKC pathways occurs during the induction of LTP.
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PMID:Postsynaptic injection of CA2+/CaM induces synaptic potentiation requiring CaMKII and PKC activity. 764 96

We describe a 27-year-old white man with common variable immunodeficiency (CVID) who has two healthy histoidentical brothers and one IgA-deficient sister who shares one HLA haplotype with the patient. T cells from the patient with CVID showed an impaired response to recall antigens (tetanus toxoid, E. coli), whereas his IgA-deficient sister and his two healthy histoidentical brothers responded normally. Cross-mixing experiments using isolated monocytes and T cells from the CVID patient and one histoidentical brother revealed that the patient's monocytes were fully functional in processing and presenting antigen to resting T cells of his brother, and provided normal accessory cell function for superantigen-induced activation of his brother's resting T cells. In contrast, the patient's T cells were unable to respond to antigen presented by the brother's monocytes and failed to respond with an increase in intracellular free Ca++ to stimulation with superantigen, which is known to bind to the TCR V beta-chain outside the antigen-binding groove. However, stimulation with a combination of PMA and IM, directly activating protein kinase C and increasing intracellular free Ca++ by bypassing membrane receptors, induced normal Ca++ flux. These data indicate that the patient with CVID has a defect in TCR-mediated signalling at the level of the T cells which is not present in his histoidentical healthy brothers or in his haploidentical IgA-deficient sister.
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PMID:Impaired TCR signal transduction, but normal antigen presentation, in a patient with common variable immunodeficiency. 781 63

Soluble proteins of the human immunodeficiency virus (HIV) might play a significant role in the pathogenesis of HIV infection. The addition of synthetic Tat peptides, but not that of the recombinant Nef or Vif protein, inhibited proliferative responses of CD4+ tetanus antigen-specific, exogenous interleukin-2 (IL-2)-independent T-cell clones in a dose-dependent manner. In addition, Tat peptides inhibited the anti-CD3 monoclonal antibody-induced proliferative responses of both purified CD4+ and CD8+ T cells. Tat did not affect proliferative responses induced by phorbol myristate acetate plus ionomycin. The Tat peptides at the concentrations used (0.1 to 3 micrograms/ml) did not affect the viability of the cells as determined by trypan blue exclusion. Treatment of Tat peptides with polyclonal Tat antibodies abrogated the inhibitory effect of Tat. Soluble Tat proteins secreted by HeLa cells transfected with the tat gene also inhibited antigen-induced proliferation of the T-cell clones. Tat inhibited the anti-CD3 monoclonal antibody-induced IL-2 mRNA expression and IL-2 secretion but did not affect IL-2 receptor alpha-chain mRNA or protein expression on peripheral blood T cells. Finally, treatment of T-cell clones with the Tat peptide did not affect the antigen-induced increase in intracellular calcium, hydrolysis of phosphatidyl inositol to inositol trisphosphate, or translocation of protein kinase C from the cytosol to the membrane. These studies demonstrate that the mechanism of the Tat-mediated inhibition of T-cell functions involves a phospholipase C gamma 1-independent pathway.
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PMID:Human immunodeficiency virus Tat induces functional unresponsiveness in T cells. 798 46

Pharmacological and biochemical evidence implicate the Ca2+ and phospholipid-dependent protein kinase C in long-term potentiation. The in vitro hippocampal slice preparation was used to demonstrate redistribution of protein kinase C from cytosol to membrane and protein kinase C-dependent phosphorylation of the presynaptic growth-associated protein-43 substrate following long-term potentiation induction in area CA1. Protein kinase C translocation was assessed using both quantitative immunoblotting with a monoclonal antibody recognizing a common epitope in the alpha and beta isoforms of protein kinase C and Ca2+ and phospholipid-dependent phosphorylation of exogenous histone substrate. Slices examined 5 min after tetanus-induced spike potentiation showed no change in protein kinase C redistribution, whereas slices examined at 15-, 30- and 60-min intervals all showed a similar degree of protein kinase C translocation to membrane, although only at 15 min was the effect statistically significant. Additionally, an increase in protein kinase C-dependent growth-associated protein 43 phosphorylation was observed 10 min after high-frequency stimulation. The translocation of protein kinase C and phosphorylation of growth-associated protein 43 were dependent upon high-frequency (repetitive 400 Hz) afferent stimulation, as no effects were observed in slices receiving low-frequency (1 Hz) or no stimulation. The N-methyl-D-aspartate receptor antagonist, DL-2-amino-5-phosphonovaleric acid (50 microM), inhibited induction of long-term potentiation, redistribution of protein kinase C and phosphorylation of growth-associated protein 43. A significant redistribution of the predominantly presynaptic protein kinase C isoform, protein kinase C-alpha, was also detected 15 min after induction of long-term potentiation using an alpha-isoform-specific monoclonal antibody. These observations support a presynaptic role for protein kinase C and growth-associated protein 43 in the early maintenance phase of LTP, and further suggest that a retrograde messenger produced postsynaptically following N-methyl-D-aspartate receptor activation mediates these effects.
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PMID:Demonstration of presynaptic protein kinase C activation following long-term potentiation in rat hippocampal slices. 809 8

The plasma membrane plays an important role in the pathogenesis of acute cell injury. This brief review outlines the role of the plasma membrane in the cellular response to two clostridial toxins, the botulinum C2 toxin and the tetanus toxin. These two toxins belong to the same family of toxins as botulinum toxin type A and type F, those used clinically for the treatment of facial spasm. The actions of C2 toxin on cultured cells give rise to an acute injury characterized by a dissociation of the actin filaments of the cell cytoskeleton. While this toxin can be lethal to intact organisms, the acute cellular response need not necessarily result in cell death. In the case of tetanus toxin, the toxin appears to perturb the plasma membrane so that the function of one important cell second messenger system, protein kinase C, is altered.
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PMID:Cellular responses to acute injury: the role of the plasma membrane in cell response to two clostridial toxins. 816 89

1. The effects on catecholamine secretion of activation of protein kinase C and clostridial neurotoxins were examined in digitonin-permeabilized bovine adrenal chromaffin cells. 2. The enhancement by phorbol esters increased only the initial rate of secretion; later rates were unaffected. This enhancement was present over a wide range of Ca2+ concentrations and was elicited at 18 as well as at 27 degrees C. 3. Tetanus toxin inhibited both ATP-dependent and ATP-independent secretion, indicating that the tetanus toxin target is important during the final steps in the pathway. 4. Prior activation of protein kinase C by the phorbol ester 12-O-tetradecanoyl phorbol acetate rendered the primed state more sensitive to inhibition by tetanus toxin. The data indicate that a phosphorylated protein kinase C substrate is either identical to or closely associated with the tetanus toxin target protein at the final steps in the pathway. 5. The interaction between the effect of protein kinase activation and that of tetanus toxin suggests that protein kinase C activation does not stimulate a separate pathway of secretion but, rather, modulates the activity of the ongoing pathway. 6. The enhancement of secretion by protein kinase C is caused, at least in part, by a qualitative change in the characteristics of the primed state. This is indicated by the increased sensitivity of primed secretion to inhibition by tetanus toxin and a threefold increase in sensitivity of primed secretion to Ca2+. 7. Because activation of protein kinase C does not increase the later rates of secretion that are limited by ATP-dependent priming reactions, it is unlikely that enhancement of the maximal rate of secretion by TPA is due to an increased amount of the primed state. Instead, protein kinase C activation may increase the efficacy with which Ca2+ stimulates secretion at all Ca2+ concentrations.
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PMID:Protein kinase C and clostridial neurotoxins affect discrete and related steps in the secretory pathway. 819 81

1. The effects of tetanic stimulation of the oculomotor nerve on transmission through the avian ciliary ganglion have been determined by use of the amplitude of the compound action potential recorded in the ciliary nerve, in the presence of hexamethonium (300 microM), as a measure of synaptic efficacy. 2. Tetanic stimulation for 20 s at 30 Hz potentiated the chemical phase of the compound action potential by at least 100% of its control level. This potentiation, reflecting an increase in synaptic efficacy, decayed over two distinct time courses: firstly, a rapid decay with a time constant in the order of minutes, and secondly, a slower decay, representing a smaller potentiation, with a time constant in the order of an hour. The large increase in synaptic efficacy is attributed to post-tetanic potentiation (PTP) whereas the smaller but longer lasting increase is attributed to long-term potentiation (LTP). 3. Higher frequencies of tetanic stimulation gave increased PTP and LTP. 4. In order to test whether the influx of calcium ions into the nerve terminal during the tetanus is likely to be involved in potentiation, facilitation was measured during PTP and LTP. Facilitation was reduced to approximately zero during PTP but recovered to normal values about 15 min into LTP. A requirement for the induction of LTP was shown to be the presence of calcium in the bathing solution. However, blocking synaptic transmission with a high concentration of hexamethonium (3 mM) during the tetanic stimulation did not block the induction of LTP. 5. Application of the muscarinic inhibitor, atropine (2 microM), did not affect the magnitude of PTP or LTP. 5. Application of the muscarinic inhibitor, atropine (2 tM), did not affect the magnitude of PTP or LTP.6. The activator of protein kinase C, phorbol 12,13-dibutyrate (2 microM) potentiated synaptic transmission and reduced the potentiation due to PTP although it did not affect that due to LTP, but the inhibitor of this kinase, staurosporine (0.5 microM), partially blocked the appearance of LTP without affecting PTP after the tetanus.7. An inhibitor of calmodulin, W-7 (5 microM), reversibly blocked the appearance of LTP significantly after a tetanus although the size of PTP was not affected.8. The results presented here suggest that the initiation of LTP in the ciliary ganglion is due to an influx of calcium ions into the calyciform nerve terminal during the tetanus and that the mechanism for LTP involves a calcium-calmodulin-dependent process.
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PMID:The effect of ions and second messengers on long-term potentiation of chemical transmission in avian ciliary ganglia. 822 Sep 8

Calcium-phospholipid-dependent protein kinase (PKC) has long been suggested to play an important role in modulating synaptic efficacy. We have created a strain of mice that lacks the gamma subtype of PKC to evaluate the significance of this brain-specific PKC isozyme in synaptic plasticity. Mutant mice are viable, develop normally, and have synaptic transmission that is indistinguishable from wild-type mice. Long-term potentiation (LTP), however, is greatly diminished in mutant animals, while two other forms of synaptic plasticity, long-term depression and paired-pulse facilitation, are normal. Surprisingly, when tetanus to evoke LTP was preceded by a low frequency stimulation, mutant animals displayed apparently normal LTP. We propose that PKC gamma is not part of the molecular machinery that produces LTP but is a key regulatory component.
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PMID:Modified hippocampal long-term potentiation in PKC gamma-mutant mice. 826 9

We have previously shown that short-term potentiation (STP) inducing weak tetanus induces long-term potentiation (LTP) when it is coupled with activation of metabotropic glutamate (mGlu) receptors by trans-(+/-)-1-amino-1,3-cyclopentanedicarboxylic acid (t-ACPD) in rat CA1 slices. In the present study, we examined if this conversion of STP to LTP involves activation of protein kinase C (PKC). Two minutes but not 30 min after coupling, there was a significant increase in the activator-dependent PKC activity in the cytosolic fraction. STP induction or t-ACPD application did not change PKC activity. There was no activity increase in the membrane fraction. STP was also induced by a co-application of gamma-amino-3-hydroxy-5-methyllisoxazole-4-propionic acid (AMPA) and N-methyl-D-aspartic acid (NMDA). Coupling this STP with t-ACPD, however, did not result in an LTP or PKC activity increase, indicating a requirement for synaptic activity. A rapid and transient (< 5 min) increase in cytosolic PKC activity was also seen after the induction of LTP by stronger tetanic stimulation. No LTP tested in the present study was accompanied by activator-independent, persistent increases in PKC activity. STP induction depends on NMDA receptor activation, and the activation of mGlu receptors results in the production of intracellular second messengers. Our results therefore indicate that these separate components may add and bring about PKC activation and LTP.
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PMID:Metabotropic receptor stimulation coupled to weak tetanus leads to long-term potentiation and a rapid elevation of cytosolic protein kinase C activity. 834 92

A single dose of 0.25 ng of tetanus toxin (TeTx), equivalent to approximately 5 minimal lethal doses, injected intracerebrally to 1-day-old rats, caused translocation, i.e., activation, of Ca(2+)-phosphatidylserine-dependent protein kinase C (PKC) from the cytosolic to the membrane compartment within 1 h. Six hours after treatment with the toxin, a 40-50% reduction in the total brain PKC (cytosolic plus membrane) activity was noticed. GT1b (2 micrograms per brain) ganglioside, a putative receptor for TeTx, completely prevented enzyme translocation when injected intracerebrally 30 min before toxin administration and abolished down-regulation after 6 h from the time of toxin injection. GM1 (2 micrograms per brain), a ganglioside of lesser affinity for TeTx, produced by itself a 20-30% reduction of the total PKC activity and did not reverse TeTx-induced PKC down-regulation after 6 h. 12-O-Tetradecanoylphorbol 13-acetate (TPA) phorbol ester, administered at a concentration of 5 x 10(-5) M, caused activation and down-regulation of the enzyme, although with several orders of magnitude lesser potency. GT1b prevented the TPA-induced down-regulation.
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PMID:GT1b ganglioside prevents tetanus toxin-induced protein kinase C activation and down-regulation in the neonatal brain in vivo. 841 45


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