UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In reviewing our own and other work, it is clear that pertussis toxin treatment of neutrophils causes a time- and concentration-dependent inhibition of granule enzyme secretion induced by formylmethionylleucylphenylalanine (fMet-Leu-Phe), C5a, leukotriene (LT) B4 and platelet-activating factor (PAF). Chemotaxis, O2- generation, aggregation, and arachidonic acid production induced by fMet-Leu-Phe are also inhibited by pertussis toxin. Granule enzyme release caused by A23187 or phorbol 12-myristate 13-acetate is not inhibited. The inhibition of neutrophil function correlates closely with the NAD-ribosylation of a 41,000-dalton protein in the neutrophil plasma membrane, presumably the GTP-binding regulatory protein Ni. Pertussis toxin treatment prevents or obtunds the increased influx of Ca2+ induced by fMet-Leu-phe and LTB4, but not that caused by stimulation of neutrophils with PAF. Pertussis toxin prevents the receptor-induced breakdown of polyphosphoinositides in intact neutrophils and isolated membrane and prevents or decreases the production of inositol 1,4,5-trisphosphate (IP3) and 1,2-diacylglycerol. The hypothesis advanced by us and others is that pertussis toxin interacts with a GTP-binding regulatory protein identical or similar to Ni, which couples receptor-chemotactic factor interaction to phospholipase C activation. Inhibition of the activation prevents the production of IP3 and the resulting release of Ca2+ from intracellular stores and of 1,2-diacylglycerol and thus, the activation of protein kinase C. The lack of these two mediators is the immediate cause of the depression of neutrophil activation resulting from pertussis toxin. Some of the limitations and uncertainties of our present knowledge with respect to this hypothesis are discussed.
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PMID:Pertussis toxin as a probe of neutrophil activation. 301 23

We have examined acetylcholine (ACh)-elicited potentials or currents in current- or voltage-clamped cultured myotubes exposed to 12-O-tetradecanoyl-phorbol-13-acetate (TPA), a potent tumor promoter that activates protein kinase C. Although this agent had little action on either membrane resting potential or electrical resistance, a reversible decrease in ACh sensitivity was induced on 3-4-d-old chick myotubes. Depression of transmitter action by TPA was extended to 7-8-d mouse myotubes only when they were treated with phosphatidylserine. Glyceryl dioleate had effects on myotubes similar to those of TPA but with a reduced efficacy. We conclude that the activation of protein kinase C might be involved with the capacity of ACh receptors to respond to transmitter stimulation.
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PMID:Agents that activate protein kinase C reduce acetylcholine sensitivity in cultured myotubes. 315 68

The modulation of acetylcholine-activated current (IACh) by protein kinase C (PKC) was studied in Xenopus laevis oocytes microinjected with either mRNA extracted from C2C12 myotubes (C2C12 mRNA) or RNAs encoding murine alpha beta gamma delta subunits of the nicotinic ACh receptor (nAChR). Voltage-clamped oocytes were treated for 90 sec with 12-O-tetradecanoylphorbol-13-acetate (TPA, 300 nM), a potent PKC activator. Transient increase in the amplitude and acceleration in the decay of IACh were invariably observed within minutes of TPA application, and were independent of extracellular Ca2+ concentration. Both parameters recovered to control within 20-30 min; then a slight depression of IACh developed. By this time, an initial PKC down regulation was observed. At the peak of TPA-induced potentiation, dose-response relations suggested an increased binding affinity of nAChR for the neurotransmitter. 4 alpha-phorbol 12,13-didecanoate (300 nM), a biologically inactive analogue of TPA, did not affect IACh, while staurosporine (5-10 microM), a potent inhibitor of PKC activity, suppressed the action of TPA on IACh. In oocytes co-injected with C2C12 mRNA and with rat brain mRNA, IACh was potentiated by 5-hydroxy-tryptamine (10 microM), whose receptors are coupled to phosphoinositide hydrolysis. The nAChR-channel activity in cell-attached patches increased when TPA was applied to the oocytes. In 50% of the oocytes examined, a sustained depression of the single channel activity followed. We conclude that in Xenopus oocytes an endogenous PKC system regulates the function of embryonic-type muscle nAChRs.
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PMID:Protein kinase C modulates exogenous acetylcholine current in Xenopus oocytes. 747 75

The underlying mechanism of Ca2+ uptake function of cardiac sarcoplasmic reticulum (SR) was investigated in the rat septic shock model produced by cecal ligation and puncture (CLP). The results are as follows. During the early phase of sepsis, the initial rate of ATP-dependent Ca2+ uptake by SR was decreased, while both the capacity of Ca2+ uptake and the activity of Ca(2+)-ATPase were unaffected. In the late sepsis, the impairment in SR function was even greater as the initial rate and the capacity of Ca2+ uptake by SR were significantly decreased, and this was paralleled by a reduction in Ca(2+)-ATPase activity. Although Ca2+ affinity (Km value) to calcium pump and the A0.5 values for Mg2+ and ATP activation on the Ca2+ uptake rate were unchanged, during sepsis the phosphorylation of SR vesicles by adding of catalytic subunit of the cAMP-dependent protein kinase (PKA), calmodulin, or the fragment of PKC into Ca2+ uptake buffer, failed to stimulate Ca2+ uptake activities of SR isolated from early or late septic rats. These data suggest that depression of cardiac SR function is aggravated as sepsis develops, the impairment of SR Ca2+ uptake is possibly based on a mechanism of defective phosphorylation of SR rather than the ionic and energic regulatory actions of Ca2+, Mg2+, ATP on cardiac SR.
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PMID:[Impaired calcium uptake by cardiac sarcoplasmic reticulum and its underlying mechanism during rat septic shock]. 748 74

The mammalian cerebellum is built around an array of parasagittal bands of Purkinje cells that can be demonstrated by immunocytochemical staining for the differentiation antigen zebrin II. Climbing and mossy fiber afferents also terminate in bands, and the afferent terminal fields and the Purkinje cell bands are aligned. The convergence of mossy and climbing fiber pathways onto the Purkinje cells, which are the sole output of the cerebellar cortex, is a characteristic feature of cerebellar circuitry. Previous studies showed that when both afferent pathways are activated synchronously there develops a long-term depression of synaptic efficacy at the parallel fiber-Purkinje cell synapse. Two second messenger pathways mediate long-term depression: one involves diacylglycerol and protein kinase C, and the other involves nitric oxide that is generated by a nitric oxide synthase. We have studied the distribution of nitric oxide synthase in the adult mouse cerebellum by using nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase histochemistry. NADPH-diaphorase activity is found mainly in the granule and basket cells. Within the granular layer NADPH-diaphorase activity is expressed nonuniformly by patches of granular cells and synaptic glomeruli. The patches are seen in all lobules, are reproducible from individual to individual, and are topographically ordered with respect to the Purkinje cell compartments as revealed by using anti-zebrin II immunocytochemistry. These data imply that nitric oxide-dependent, long-term depression may only involve a subset of mossy fiber/granule cell projections, and that one role for nitric oxide may be to refine cerebellar receptive fields.
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PMID:Compartmentation of NADPH-diaphorase activity in the mouse cerebellar cortex. 752 60

The cellular location of the NO-synthase involved in long-term depression (LTD) of parallel fiber (PF)-mediated EPSCs induced by raising the external potassium (K) concentration has been investigated by using both whole-cell patch-clamp recordings (WCR) of Purkinje cells (PCs) in thin slices in vitro, and reverse transcription followed by polymerase chain reaction (PCR) applied to mRNAs harvested from these single PCs during WCR. In all tested cells in the control group, a large LTD of PF-mediated EPSCs was induced by perfusing the slices for 3 min with a high (30 mM) K perfusing medium. In a second group of cells for which the protein kinase C (PKC) inhibitor peptide 19-36 was added to the intrapipette solution at a concentration of 10 microM, the LTD following complete wash out of the high K solution was significantly less prominent than in the control group. Very similar results were also obtained when 30 microM NG-methyl-L-arginine (L-NMMA) was added to the perfusing medium. In contrast, when both the PKC inhibitor peptide 19-36 and L-NMMA were added to the intrapipette solution at a concentration of 10 and 30 microM respectively, no LTD was revealed following wash out of the high K solution. Finally, the PCR amplification of mRNAs harvested from these single PCs during WCR, as well as from granule cells from the same slices, confirms that mRNAs encoding the NO-synthase are expressed by granule cells, whereas they are not detected in PCs.
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PMID:Cellular locus of the nitric oxide-synthase involved in cerebellar long-term depression induced by high external potassium concentration. 753 21

1. Activation of human D2(s) dopamine receptors with quinpirole (10 nM) inhibits omega-conotoxin GVIa-sensitive, high-threshold calcium currents when expressed in differentiated NG108-15 cells (55% inhibition at +10 mV). This inhibition was made irreversible following intracellular dialysis with the non-hydrolysable guanosine triphosphate analogue GTP-gamma-S (100 microM), and was prevented by pretreatment with pertussis toxin (1 microgram ml-1 for 24 h). 2. Stimulation of protein kinase C with the diacylglycerol analogue, 1-oleoyl-2-acetyl-sn-glycerol (100 microM), also attenuated the inhibition of the sustained calcium current but did not affect the receptor-mediated decrease in rate of current activation. Similarly, okadaic acid (100 nM), a protein phosphatase 1/2A inhibitor, selectively occluded the inhibition of the sustained current. 3. The depression of calcium currents by quinpirole (10 nM) was enhanced following intracellular dialysis with 100 microM cyclic adenosine monophosphate (cyclic AMP, 72.8 +/- 9.8% depression), but was not mimicked by the membrane permeant cyclic GMP analogue, Sp-8-bromoguanosine-3',5':cyclic monophosphorothioate (100 microM). 4. Inhibition of calcium currents was only partly attenuated by 100 ms depolarizing prepulses to +100 mV immediately preceding the test pulse. However, following occlusion of the sustained depression with okadaic acid (100 nM) the residual kinetic slowing was reversed in a voltage-dependent manner (P < 0.05). 5. Thus pertussis toxin-sensitive G-proteins liberated upon activation of human D2(short) dopamine receptors inhibited high-threshold calcium currents in two distinct ways. The decrease in rate of calcium current activation involved a voltage-dependent pathway, whereas the sustained inhibition of calcium current involved, in part, the voltage-resistant phosphorylation by cyclic AMP-dependent protein kinases and subsequent dephosphorylation by protein phosphatases 1/2A.
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PMID:Phosphorylation- and voltage-dependent inhibition of neuronal calcium currents by activation of human D2(short) dopamine receptors. 758 57

The effect of lipopolysaccharide (LPS) on cardiac protein kinase C (PKC) activation and cardiac depression was evaluated. Guinea pigs (n = 44) received intraperitoneal injections of saline or Escherichia coli LPS (2 mg/kg). Left atria were harvested 16 h later and suspended in oxygenated low calcium (1 mM) (n = 24) or high calcium (5 mM) (n = 20) 30 degrees C Krebs-Henseleit buffer. Atria were treated with H-7 (n = 23), a PKC inhibitor, or vehicle (n = 21). Contractile responses to changes in preload and stimulating frequency, in the resting and potentiated states, and to escalating doses of phenylephrine were measured. PKC activation in ventricular muscle was also determined. LPS activated ventricular PKC (p < .05) but treatment with H-7 failed to reverse LPS-induced atrial dysfunction in the low calcium buffer. Contractile function in the potentiated state indicated that LPS appears to interfere with calcium release from the sarcoplasmic reticulum (SR). The contractile response to phenylephrine was markedly attenuated in atria harvested from endotoxic animals. These data indicate that LPS-induced cardiac depression is mediated, in part, by alterations in SR calcium release. LPS activates cardiac PKC but a causal relationship among LPS, PKC, and cardiac dysfunction remains to be established.
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PMID:The role of protein kinase C in lipopolysaccharide-induced myocardial depression in guinea pigs. 773 71

We suggest hypothetical mechanisms of posttetanic potentiation of inhibitory synaptic transmission (LTPi). Our previous results allow us to suppose that modifiable synapses are located on dendritic spines where metabotropic GABAb receptors (GABAbR) have been found. We assume that GABAbR may be involved in LTPi. Their activation leads to inactivation of protein kinases C and A (PKC and PKA) due to intracellular Ca++ decrease and inhibition of cAMP. This hypothesis is confirmed by the experiments in which LTP-like phenomena for early and late cortical IPSPs were shown to be the result of inactivation of PKA and PKC. We assume that metabolites of arachidonic acid 5- and 12-HPETE can be considered as retrograde messengers for LTPi. New hypothetical mechanisms underlying posttetanic homosynaptic long-term depression of excitatory synaptic transmission (LTDe) is also proposed. According to this hypothesis the target cell must be excited monosynaptically and inhibited disynaptically by the same tetanized afferents. LTDe may be induced only in those pathways which activate postsynaptic GABAb receptors. Both hypotheses are confirmed by experimental data and allow to explain some surprising experimental results.
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PMID:[The activation of GABA-B receptors, the decrease in intracellular Ca++ concentration and the inhibition of protein kinases--the possible mechanisms of prolonged posttetanic modification in the efficiency of inhibitory transmission in the neocortex]. 775 89

Calcium channels participate in the events linking axon terminal depolarization to neurotransmitter secretion. We wished to evaluate the role of N-type and non-N-type calcium channels in glutamatergic transmission at corticostriatal synapses, since this is a well defined excitatory synapse. In addition, these synapses are subject to a variety of forms of presynaptic modulation, some of which may involve alterations in calcium channel function. Application of the selective N-type channel blocker omega-conotoxin GVIA produced an irreversible depression of excitatory synaptic transmission in rat neostriatal slices shown by a decrease of approximately 50% in the amplitude of the synaptically driven population spike during field potential recording and a similar decrease in the amplitude of excitatory postsynaptic potentials during whole-cell recording. The component of transmission which was resistant to omega-conotoxin GVIA was blocked by omega-conotoxin MVIIC. omega-Agatoxin IVA had little effect on transmission. Activation of a presynaptic metabotropic glutamate receptor depressed transmission to a similar extent before and after omega-conotoxin GVIA treatment. Likewise, protein kinase C-activating phorbol esters potentiated transmission to the same extent before and after omega-conotoxin GVIA treatment. N-type calcium channels appear to be crucial for a component of excitation-secretion coupling at corticostriatal synapses. A component of transmission involves non-N-, non-L-type high-voltage-activated calcium channels. The effects of presynaptic metabotropic receptors and protein kinase C activation cannot be accounted for solely by alterations in the N-type channel function.
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PMID:Involvement of N- and non-N-type calcium channels in synaptic transmission at corticostriatal synapses. 781 9

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