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)

Arachidonic acid (AA) is a second messenger liberated via receptor activation of phospholipase A2 or diacylglycerol-lipase. We used whole-cell voltage clamp of acutely isolated hippocampal CA1 pyramidal cells to investigate the hypothesis that AA modulates Ca2+ channel current (ICa) via activation of protein kinase C (PKC) and generation of free radicals. AA depressed ICa in a dose- and time-dependent manner similar to that previously reported for the action of phorbol esters on ICa. A similar depression was seen with a xanthine-based free radical generating system. The specific PKC inhibitor PKCI (19-36), the protein kinase inhibitor H-7, and the superoxide free radical scavenger SOD each blocked ICa depression by 70%-80%. Complete block of the AA response occurred when SOD was used simultaneously with a PKC inhibitor. These data suggest that PKC and free radicals play a role in AA-induced suppression of ICa.
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PMID:Arachidonic acid modulates hippocampal calcium current via protein kinase C and oxygen radicals. 211 31

Expression of the transforming Ha-ras oncogene in MMTV-LTR transfected NIH 3T3 cells leads to a growth factor independent activation of the Na+/H(+)-antiporter. The activation of the antiporter is insensitive to the protein kinase inhibitor staurosporine and equally expressed in protein kinase C-depleted cells. It is concluded that the Ha-ras induced activation of the antiporter occurs by a protein kinase C-independent mechanism. An inhibition of the Na+/H(+)-antiporter by dimethylamiloride or a reduction of the extracellular [Na+] concentration results in a depression of the bombesin induced release of Ca2+ from intracellular stores. These results are explained by a steep pH-dependence of the Ca2(+)-mobilizing system which exhibits a maximum at pH 7.1 in the system studied here. Stimulation by growth factors of quiescent cells with a resting pH below 7 results in a shift of the cytosolic pH towards the optimum for the Ca2+ release. In agreement with the proposed interrelationship, pHi and [Ca2+]i rise and peak simultaneously after addition of bombesin to G0 arrested cells.
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PMID:Mechanism and biological significance of the Ha-ras-induced activation of the Na+/H(+)-antiporter. 216

1. alpha 1-Adrenoceptor activation caused two separate effects in rat dorsal raphe neurons: a depolarization and an increase in the duration of the after-hyperpolarization following the action potential. The depolarization often resulted in repetitive action potentials. The alpha 1-adrenoceptor antagonists prazosin and WB 4101 blocked the depolarization induced by phenylephrine. The concentration-response curve to phenylephrine was shifted to the right by WB 4101. 2. Under voltage clamp, alpha 1-adrenoceptor agonists caused an inward current at -60 mV, which often became smaller at negative potentials but rarely reversed polarity even at strongly negative potentials. Using whole-cell recording, the inward current reversed polarity at the equilibrium potential for potassium in the majority of cells. Intracellular Cs+ decreased or abolished the alpha 1-mediated inward current. The inward current was dependent on external calcium, but not on the degree of internal calcium buffering. Removal of external calcium or addition of MgCl2, CoCl2 or CdCl2 reduced or blocked the effects of alpha 1-adrenoceptor agonists. Barium and strontium supported and even augmented the inward current induced by alpha 1-adrenoceptor agonists, whereas nifedipine and omega-conous toxin had no effect. In contrast, internal dialysis with the calcium chelator 1,2-bis(O-aminophenoxy)ethane-N,N,N'N'-tetraacetic acid (BAPTA) did not inhibit the inward current. 3. The alpha 1-induced depolarization was blocked (or occluded) by the inclusion of GTP-gamma-S (100 microM) in the recording pipette. The phorbol-ester 4-phorbol 12,13-dibutyrate (PDBu) had no action on the membrane potential and depressed the phenylephrine-induced depolarization. This depression was reversed by the non-selective protein kinase inhibitor staurosporin. 4. Phenylephrine and noradrenaline increased a late component of the after-hyperpolarization (late-AHP) that followed a single action potential. The alpha 1-sensitive late-AHP was blocked by apamine suggesting that it is a calcium-dependent potassium conductance. 5. Thapsigargin reduced the duration of the late-AHP and blocked the phenylephrine-mediated prolongation. Caffeine also augmented the late-AHP and ryanodine blocked the augmentation induced by caffeine. The augmentation induced by phenylephrine was not occluded by caffeine and was still present after the caffeine-induced augmentation was blocked by ryanodine. 6. In slices pretreated with manoalide the depolarization induced by alpha 1-agonists was not changed; however, the late-AHP was reduced in duration and the alpha 1-receptor-mediated augmentation of the late-AHP was decreased.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Alpha 1-adrenoceptors in rat dorsal raphe neurons: regulation of two potassium conductances. 752 47

1. Using a rabbit cerebellar slice preparation, we stimulated a classical conditioning procedure by stimulating parallel fiber inputs to Purkinje cells with the use of a brief, high-frequency train of eight constant-current pulses 80 ms before climbing fiber inputs to the same Purkinje cell were stimulated with the use of a brief, lower frequency train of three constant-current pulses. In all experiments, we assessed the effects of stimulation by measuring the peak amplitude of Purkinje cell excitatory postsynaptic potentials (EPSPs) to single parallel fiber test pulses. 2. Intradendritically recorded Purkinje cell EPSPs underwent a long-term (> 20 min) reduction in peak amplitude (30%) after paired stimulation of the parallel and climbing fibers but not after unpaired or parallel fiber alone stimulation. We call this phenomenon pairing-specific long-term depression (PSD). 3. Facilitation of the peak amplitude of a second EPSP elicited by a parallel fiber train occurred both before and after paired stimulation suggesting that the locus of depression was not presynaptic. Depression of the peak amplitude of a depolarizing response to focal application of glutamate following pairings of parallel and climbing fiber stimulation added support to a suggested postsynaptic locus of the PSD effect. 4. The application of aniracetam potentiated EPSP peak amplitude by 40%, but these values returned to baseline as a result of pairings. With the removal of aniracetam from the bath 20 min after pairings, normal levels of pairing-specific EPSP depression were observed, indicating that the effect did not result from direct desensitization of alpha-amino-3-hydroxy-5-methyl-4-isoxazole-proprionic acid (AMPA) receptors. 5. Incubation of slices in the protein kinase inhibitor H-7 potentiated EPSP peak amplitudes slightly (9%), but peak amplitudes returned to baseline levels after pairings. The net reduction in EPSP peak amplitude of < 10% after pairings suggested that H-7 partially blocked PSD and that, in turn, PSD involved protein kinases. 6. The means of induction and the specificity of those means suggest that the phenomenology of PSD is fundamentally different from that of long-term depression. PSD only occurs with pairings of trains of parallel fiber and climbing fiber stimulation; it occurs without the need for bicuculline; and it can overcome the blocking effects of aniracetam. 7. Nevertheless, the involvement of protein kinases and the potential role of calcium suggest that the mechanisms involved in the induction of PSD and long-term depression have a number of features in common. 8. Because of the pairing-specific nature of the long-term synaptic depression observed in these experiments, PSD provides a mechanism that may contribute to the role of the cerebellar cortex in classical conditioning.
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PMID:Pairing-specific long-term depression of Purkinje cell excitatory postsynaptic potentials results from a classical conditioning procedure in the rabbit cerebellar slice. 886 17

Long-term potentiation (LTP) and long-term depression (LTD) are calcium-dependent forms of synaptic plasticity observed in area CA1 of the hippocampus. Low-frequency tetani (1-5 Hz) activates protein phosphatases to induce LTD, whereas high-frequency tetani (> 25 Hz) activates protein kinases to induce LTP. A tetanus at an intermediate frequency (10 Hz), however, does not result in a change in synaptic efficacy [Dudek and Bear, (1992), Proc. Natl. Acad. Sci. USA, 89:4363-4367]. We hypothesized that the 10-Hz tetanus results in no long-term change in synaptic efficacy due to a balance of the activity of protein phosphatases and protein kinases. We manipulated protein kinase/phosphatase activity at a 10-Hz tetanus to test this hypothesis. A 10-Hz tetanus under normal conditions results in a transient depression which returns to baseline in 25 min. However, inhibiting kinase activity with the protein kinase inhibitor H-7, or decreasing extracellular calcium concentration, results in the 10-Hz tetanus, inducing LTD. Conversely, inhibiting phosphatase activity with the protein phosphatase inhibitor tautomycin, or increasing extracellular calcium concentration, results in the 10-Hz tetanus, inducing LTP. These results suggest that the relative balance of protein kinase and phosphatase activity (and/or the calcium levels activating them) determines the expression of specific forms of synaptic plasticity, and that these forms lie on a continuum.
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PMID:Protein kinase and phosphatase activity regulate the form of synaptic plasticity expressed. 889 Apr 51

1. We have investigated the effect of various protein kinase A (PKA) inhibitors on the phasic and tonic components of the response to potassium chloride (KCl) in the guinea pig ureter. All experiments were performed in ureters pretreated with capsaicin (10 microM for 15 min) to prevent the release of sensory neuropeptides and in the presence of 1 microM Bay K 8644 to maximize calcium (Ca) entry via voltage-sensitive channels. The addition of 80 mM hypertonic KCl produced maximal shortening of the ureter with distinct phasic and tonic components, the latter further showing a transient and a sustained component. Nifedipine (30 microM for 120 min) totally abolished all the responses to KCl. 2. The selective PKA inhibitor, H89 (10 microM), abolished the tonic response to KCl in about 30 min with minor inhibitory effect on the phasic contraction. This pattern was unchanged when extending the contact time to 120 min. When added 30 min before the next challenge, H89 (1-30 microM) concentration-dependently inhibited the responses to KCl with a preferential inhibitory effect on the tonic contraction. Another PKA inhibitor, H8, produced similar effects at tenfold higher concentrations (10-300 microM) than H89, consistent with the known potency ratio of these isoquinoline derivatives in inhibiting PKA. 3. The potent and nonselective protein kinase inhibitor, staurosporine (10-100 nM) produced an even depression of the various phases of the response to KCl. The selective protein kinase G inhibitor, KT 5823 (10 microM for 60 min) produced only a slight reduction of the sustained tonic response to KCl. The selective protein kinase C inhibitor GF 109,203X (1-3 microM) and the cAMP analog, Rp-cAMPS (300 microM for 60 min) had no effect on the three components of the response to KCl. 4. In the presence of Bay K 8644, electrical field stimulation (10 Hz for 1 sec, 60 V, pulse width 5 ms) produces direct myogenic phasic contractions (twitches) of the ureter which are suppressed by nifedipine (10-30 microM). H8 (up to 30 microM) and H89 (up to 300 microM) had minor effect on the amplitude of twitches, consistent with their poor inhibitory activity on the phasic responses to KCl. 5. In sucrose gap, superfusion with 80 mM hypertonic KCl produced action potentials followed by a sustained depolarization of the membrane: the two electrical responses underlie the phasic and tonic components of contraction to KCl, respectively. H89 (10 microM for 30 min) did not affect the resting membrane potential nor the KCl-evoked action potentials and sustained depolarization. H89 had no effect on the phasic contraction to KCl but markedly depressed (about 65% inhibition) the tonic contraction. 6. The present findings are consistent with the view that phosphorylation by PKA increases the availability of L-type Ca channels in the ureter smooth muscle. Blockade of PKA dissociates the electromechanical coupling between the sustained membrane depolarization produced by KCl and the corresponding sustained increase in tension. The L-type Ca channel responsible for generating action potentials and phasic contractions to KCl are less sensitive to PKA inhibitors than those responsible for the tonic contraction.
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PMID:Protein kinase A inhibitors selectively inhibit the tonic contraction of the guinea pig ureter to high potassium. 891 54

We studied the effect of the adenylate cyclase activator forskolin, of protein kinase C-activating phorbol esters and of prolonged preganglionic input activation on the inhibitory response of the perfused superior cervical ganglion of the cat to exogenous met-enkephalin (Met-ENK). Met-ENK inhibited, in a concentration-dependent manner, the postganglionic compound action potential evoked by cervical sympathetic trunk stimulation. The inhibition was reversible, was blocked by naloxone as well as by pertussis toxin and showed no homologous desensitization in the concentration range 0.01-10 microM. Pretreatment of the ganglion with 4 beta-phorbol 12,13-dibutyrate or 4 beta-phorbol 12,13-diacetate depressed the Met-ENK response for several hours, while pretreatment with forskolin had no effect. This action of phorbol esters was prevented by the protein kinase inhibitor H-7 but not by the calmodulin antagonist W-7 or the protein kinase A inhibitor HA 1004 and was calcium-dependent. Recovery of the response from the depression produced by phorbol esters was not affected by a protein synthesis inhibitor. A 40 Hz 20 min stimulus train to the cervical sympathetic trunk mimicked the effect of phorbol esters, depressing for several hours the inhibition produced by Met-ENK. Stimulus trains of duration shorter than 5 min or frequency lower than 5 Hz were ineffective. This effect of prolonged preganglionic stimulation occurred even when the stimulus train was delivered during complete block of nicotinic and muscarinic ganglionic transmission but was lost when the stimulus train was delivered during perfusion with calcium-free Krebs. The protein kinase inhibitor H-7 prevented the depression of the Met-ENK response by the train, while W-7 and HA 1004 had no effect. These findings suggest that, in the superior cervical ganglion of the cat, a kinase, activated by phorbol esters and inhibited by H-7, exerts a long-term control of the ganglion cell responsiveness to opiate receptor activation. A similar mechanism can be synaptically activated by a non-cholinergic transmitter, released by the preganglionic axons during prolonged, high frequency, activity.
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PMID:Long-term depression of a sympathetic ganglionic response to opioids by prolonged synaptic activity and by phorbol esters. 896 46

The consequences of becoming tolerant to the analgesic effects of morphine include increased risk of unwanted side effects, such as respiratory depression, because the patient is required to take larger doses of the opioid to get the same relief from pain. Many studies suggest that phosphorylation plays a role in the neuroplasticity associated with opioid tolerance. This study examines the effect of inhibiting cyclic nucleotide-dependent protein kinase activity in the brain or spinal cord of morphine-tolerant mice. KT5720, a cyclic adenosine monophosphate (cAMP)-dependent protein kinase inhibitor, or KT5823, a cyclic guanosine monophosphate (cGMP)-dependent protein kinase inhibitor, was centrally administered in morphine-tolerant and placebo-treated mice prior to a systemically administered challenge dose of morphine. KT5720 completely reversed morphine tolerance in the tail-flick assay when the pretreatment was administered intracerebroventricularly (i.c.v.); KT5823 had no effect on morphine via this route. When either of these drugs was administered intrathecally (i.t.), the activity of morphine was greatly diminished in the tolerant animals, with no effect on morphine antinociception in the placebo group. These data suggest that cAMP-dependent protein kinase activity may be upregulated in the brain with morphine tolerance, and that this upregulation is critical to the expression of tolerance to the antinociceptive effects of morphine. In the spinal cord, however, the activity of cyclic nucleotide dependent protein kinases, and possibly their substrate proteins, may be affected by chronic morphine exposure such that inhibition of these kinases produces hyperalgesia.
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PMID:Effects of spinal versus supraspinal administration of cyclic nucleotide-dependent protein kinase inhibitors on morphine tolerance in mice. 903 19

The present study investigated the effects of arachidonic acid on Torpedo (alpha beta gamma delta) and neuronal nicotinic acetylcholine (ACh) receptors (chick alpha7; rat alpha7, alpha3 beta2, alpha3 beta4, alpha4 beta2, and alpha4 beta4). Arachidonic acid (10 microM) depressed currents through normal Torpedo ACh receptors during treatment and afterward, persistently (>/=30 min) potentiated the currents. The potentiation was blocked by the selective protein kinase C (PKC) inhibitor, GF109203X or PKC inhibitor peptide (PKCI). The depression was not inhibited by any protein kinase inhibitor examined here, but greater in Ca2+-free extracellular solution. Arachidonic acid also potentiated currents through mutant Torpedo ACh receptors lacking PKC phosphorylation sites at Ser333 on the alpha subunit and Ser377 on the delta subunit without depression, but otherwise, it depressed currents through mutant receptors replacing of each Ser by negatively charged amino acid residue, possibly that mimics PKC phosphorylation of the receptors. These results suggest that the depression was due to the direct blocking effect on Ca2+-modulatory sites, which was accelerated under conditions of the receptors phosphorylated by PKC, and that the potentiation was caused by PKC activation, independently of PKC phosphorylation of the receptors. Arachidonic acid reduced currents through chick alpha7 receptors by a mechanism independent of protein kinase activation. In contrast, arachidonic acid potentiated currents through rat alpha7, alpha3 beta2, alpha4 beta2, and alpha4 beta4 receptors, perhaps by the same mechanism as the potentiation observed in Torpedo ACh receptors, although it had no effect on rat alpha3 beta4 receptors. The results of the present study thus demonstrate that arachidonic acid exerts diverse actions on nicotinic ACh receptors by different mechanisms.
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PMID:Modulation of ACh receptor currents by arachidonic acid. 963 Jun 14

Functional interaction between ionotropic and metabotropic glutamate receptors (iGluR and mGluR respectively) was studied in cerebellar granule cell cultures using quisqualate (QA), the most potent agonist of phosphoinositide hydrolysis coupled mGluR, and N-methyl-D-aspartate (NMDA) or kainate (KA) that activate different classes of iGluR. Two h exposure to NMDA or KA resulted in a marked reduction (about 75%) of QA-evoked PI hydrolysis. The efficacy of the two agonists was about the same, but the potencies were different (IC50 for NMDA about 35 microM and for KA about 70 microM). NMDA-induced depression of QA-stimulated PI hydrolysis was relatively long lasting but reversible. Recovery required protein synthesis. In nominally Ca2+-free medium both NMDA and KA failed to attenuate QA-stimulated PI hydrolysis. The effect of NMDA was prevented by the NMDA receptor antagonist MK801, but not by the wide spectrum protein kinase inhibitor staurosporin nor by the nitric oxide synthase inhibitor N omega-nitro-L-arginine. Cycloheximide and concanavalin A were also ineffective. The effect of KA was prevented by the selective non-NMDA receptor antagonist 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(F)quinoxaline (NBQX). Voltage sensitive Ca2+ channel antagonists together with MK801 did not counteract the inhibition by KA of the QA response. Both NMDA and KA attenuated PI hydrolysis evoked by the muscarinic receptor agonist carbachol (about 30%), indicating that the activation of iGluRs exerts a relatively general inhibitory effect on the function of different PLC-coupled metabotropic receptors. Consistent with this observation is that treatments either with KA and NMDA induced an inhibition (about 30%) of NaF-stimulated PI hydrolysis which occurs through the direct activation of G proteins. Our observations show that ionotropic glutamate receptor stimulation induces a long lasting suppression of QA-evoked PI breakdown through a Ca2+ dependent mechanism which seems to involve receptor coupled transduction systems downstream from mGluR. Such a Ca2+-dependent cross-talk involving ionotropic and metabotropic receptors may play a role in certain events of synaptic plasticity.
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PMID:Calcium influx via ionotropic glutamate receptors causes long lasting inhibition of metabotropic glutamate receptor-coupled phosphoinositide hydrolysis. 975 22

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