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

When CA3 commissural afferents received low-frequency (weak) stimuli synchronized with a train of mossy fiber bursts (strong), associative long-term potentiation (LTP) was induced at mixed commissural and associational synapses on hippocampal CA3 pyramidal cells in vitro. In contrast, a weak mossy fiber input did not potentiate when given in phase with commissural/associational bursts. Furthermore, commissural/associational synapses receiving low-frequency stimuli out-of-phase with strong rhythmic mossy fiber input showed associative long-term depression (LTD), whereas mossy fiber synaptic strengths were not depressed when they received weak inputs out-of-phase with a strong commissural/associational input. Thus, both associative LTP and associative LTD can be induced at commissural/associational synapses, but not at mossy fiber synapses.
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PMID:Commissural synapses, but not mossy fiber synapses, in hippocampal field CA3 exhibit associative long-term potentiation and depression. 277 32

Three excitatory synaptic inputs to hippocampal CA3 neurons--the mossy fibers, Schaffer collateral/commissural fibers, and fimbrial fibers--were determined to be separate and independent in the pharmacologically disinhibited in vitro slice. Long-term synaptic potentiation (LTP) was induced in one of these three synaptic inputs, and subsequent synaptic efficacy changes in the other two nontetanized inputs were characterized using current and voltage clamp techniques. LTP in the mossy fiber input was accompanied by potentiation of Schaffer and fimbrial responses, whereas the induction of LTP in the Schaffer pathway was associated with the potentiation of fimbria responses and a depression of mossy fiber responses. LTP induced in the fimbrial response was confined to that input alone.
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PMID:Long-term potentiation in hippocampal CA3 neurons: tetanized input regulates heterosynaptic efficacy. 278 65

The synaptic effects of halothane, isoflurane, and enflurane were examined in the rat hippocampus in vivo and compared with the effects of ketamine and urethane. Actions of the agents on excitatory amino acid-mediated neurotransmission were studied by observing evoked responses and long-term potentiation in the stratum pyramidale of CA1 with stimulation of the contralateral CA3 region. Long-term potentiation is a long-lasting increase in synaptic efficacy, which follows a brief stimulus train. It has been shown to be established through activation of the NMDA subclass of excitatory amino acid receptors and is thought to be involved in memory processing. Volatile anesthetics had no effect on evoked excitatory responses or on long-term potentiation. Actions of the anesthetics on inhibitory processes in the hippocampus were studied by pairing stimuli at a range of interpulse intervals. The first stimulus activated inhibitory processes that caused the response to the second stimulus to be smaller than the initial response, a phenomenon termed paired pulse depression. Paired pulse depression was significantly prolonged by the volatile anesthetics compared with that under urethane or ketamine. These results indicate that the mechanism of action of the volatile anesthetics at the hippocampal CA1 synapse does not involve amino acid-mediated excitation but does involve enhancement of inhibition.
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PMID:Effect of volatile anesthetics on synaptic transmission in the rat hippocampus. 280 17

Phenytoin (10-100 microM) was studied on excitatory synaptic transmission and post-tetanic potentiation (PTP) in the in vitro rat hippocampus. Synaptic potentials were studied using extracellular, intracellular and single-electrode voltage clamp techniques. Field excitatory postsynaptic potentials were recorded from the apical dendrites of CA1 pyramidal cells after Schaffer collateral stimulation. Intracellularly recorded excitatory postsynaptic potentials and excitatory postsynaptic currents were recorded in CA3 pyramidal cells after mossy fiber stimulation and in the presence of 10 microM picrotoxinin. In the CA1 region, phenytoin elicited a reversible depression of field excitatory postsynaptic potentials as well as reduced the time constant of decay of PTP from 79 sec to 47 sec with no change in the magnitude of potentiation. Higher concentrations of phenytoin (100 microM) had a general depressant effect on both the amplitude and time course of PTP. In CA3 cells, phenytoin (10 microM) reduced the mossy fiber synaptic conductance but did not change its reversal potential. Phenytoin (10 microM) also reduced the time constant of decay of PTP of the mossy fiber to CA3 synapse, while having no effect on the magnitude of potentiation. These results show that therapeutically relevant concentrations of phenytoin depress both low-frequency synaptic transmission and the time course of short-term potentiation. Both actions may be involved in the anticonvulsant properties of phenytoin.
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PMID:Phenytoin reduces excitatory synaptic transmission and post-tetanic potentiation in the in vitro hippocampus. 284 32

Single-unit extracellular recording was carried out in rats to characterize the effects of dynorphin and several structurally related peptides on hippocampal pyramidal cell activity. Dynorphin, applied electrophoretically or by pneumatic pressure, produced a dose-dependent depression of both spontaneous and glutamate-evoked discharge in a majority (63%) of CA1 and CA3 cells tested. In addition, a small number of cells in both cellular fields responded to the peptide with a prolonged elevation in firing. The inhibitory effects of dynorphin were not blocked by naloxone. Moreover, administration of des-tyrosine-dynorphin depressed the firing of pyramidal cells in a manner similar to that of the parent compound. Ethylketocyclazocine produced a mixed pattern of excitatory and inhibitory effects, whereas naloxone-sensitive elevations in firing were most often observed with the application of dynorphin-(1-8). Application of [Leu5]enkephalin produced only facilitations in pyramidal cell firing. The possibility is raised that biologically significant non-opiate actions, in addition to potent opiate-mediated effects, may occur upon release of pro-dynorphin peptides in the hippocampus.
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PMID:Electrophysiological effects of dynorphin peptides on hippocampal pyramidal cells in rat. 285 95

Effects of ammonia on excitatory synaptic transmission were studied in the rat hippocampal slice preparation. Population spikes, elicited by orthodromic or antidromic stimulation, were recorded in the cell body layer of the CA1, CA3 and dentate regions. Perfusion with 5 mM ammonium chloride induced a profound and reversible depression of orthodromically evoked population spikes in all three regions. Antidromic population spikes were not depressed in any of the regions, indicating that neither axonal conduction nor electrical excitability were affected by ammonia. The paired-pulse test revealed a transient disinhibition during the early phase of perfusion. Iontophoretic application of glutamate evoked unit firing even when the synaptically evoked responses were reduced by ammonia, indicating that the postsynaptic sensitivity to the putative transmitter was not depressed. Depression of release of the excitatory transmitter, probably because of depletion following the block of transmitter synthesis, is the likely explanation of these findings. It is suggested that ammonia-induced depression of excitatory transmission may account for coma and other symptoms of central nervous system depression encountered in hyperammonemic states.
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PMID:Effects of ammonium chloride on synaptic transmission in the rat hippocampal slice. 285 52

1. A method was developed to quantify paired-pulse depression of population spikes in the CA1 region of the hippocampus of urethane-anesthetized rats with paired stimuli to the contralateral CA3 region at various states of excitability of pyramidal cells. This method was applied to measure changes following recurrent seizures, a single seizure, or long-term potentiation (LTP). 2. In naive animals paired-pulse depression was highly variable at low stimulus intensities, but constant above a certain "threshold" stimulus intensity. The potency of paired-pulse depression also depended on the time between paired stimuli, being maximal at an interpulse interval of 20 ms. The general relationships of paired-pulse depression to stimulus intensity and to interpulse interval were unaltered after LTP, after a single seizure, and after recurrent seizures, but there were quantitative changes in the last two cases. 3. A variety of pharmacologic agents known to interact with GABAergic inhibition were studied for their effect on paired-pulse depression. These agents affected earlier phases of paired-pulse depression (interpulse intervals less than or equal to 100 ms). The GABA agonist muscimol and the benzodiazepine diazepam enhanced paired-pulse depression whereas the GABA antagonist bicuculline decreased it. 4. Repeated seizures elicited by trains (50-Hz, 10-s durations every 5 min) of electrical stimuli to the hippocampus were associated with progressive lengthening of afterdischarges. 5. Recurrent seizures caused a statistically significant reduction in the potency of earlier phases of paired-pulse depression. There was an increase in the potency of later phases of paired-pulse depression after recurrent seizures, but this was not statistically significant. These changes were present for at least 2 h after the last seizure. 6. An antidromic-orthdromic paired-pulse protocol was used to exclude slow conductance changes as the cause of paired-pulse depression. Paired-pulse depression measured with this method was also decreased by recurrent seizures. 7. A single seizure caused a small reduction in paired-pulse depression that dissipated in less than an hour. 8. A single seizure caused LTP of stimulus intensity versus population spike curves whereas recurrent seizures attenuated or even reversed the potentiation, leading to a rightward shift of the curves relative to control curves. When LTP was produced by a less intense stimulus train (50-Hz, 400-ms duration), there were no associated seizures nor was there any change in paired-pulse depression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evidence that repetitive seizures in the hippocampus cause a lasting reduction of GABAergic inhibition. 291 63

GABAB receptors are a subclass of receptors for gamma-amino-n-butyric acid (GABA) that are also activated by the antispastic drug beta-p-chlorophenyl-GABA (baclofen). One effect of baclofen is to inhibit excitatory transmission from CA3 to CA1 hippocampal pyramidal cells. To identify the ionic mechanism of GABAB-receptor-mediated depression, we have studied the effect of baclofen and GABA on ionic currents in voltage-clamped CA3 pyramidal cell somata in rat hippocampal slice cultures. Baclofen (10 microM) induced an inwardly rectifying outward current that reversed at -74 +/- 4.3 mV (mean +/- SD). This appeared to be a K+ current since (i) its reversal potential showed the expected shift when extracellular K+ concentration was changed and (ii) it was blocked by external Ba2+ or internal Cs+. The action of baclofen was closely imitated by GABA after the GABAA-mediated Cl- current had been abolished with pitrazepin (10 microM); under these conditions, GABA (100 microM) also produced an inwardly rectifying, Ba2+-sensitive current with a reversal potential identical to that of the baclofen-induced current. When outward currents were blocked with internal Cs+, the residual inward voltage-dependent Ca2+ current was not changed by baclofen. It is concluded that the primary effect of GABAB-receptor activation in these neurones is to increase K+ permeability rather than to reduce Ca2+ permeability.
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PMID:GABAB-receptor-activated K+ current in voltage-clamped CA3 pyramidal cells in hippocampal cultures. 298 51

Using the in vitro hippocampal slice preparation, we studied the electrophysiological properties of pyramidal cells in tissue that was 'preincubated' (2-6 h in a large, static volume of oxygenated bathing medium) before being placed in an interface chamber for study. Striking differences were found in 'preincubated' vs 'non-preincubated' CA3 cells. The preincubated cells had more negative resting potentials, higher input resistance, lower threshold for stimulus-evoked burst discharge and larger hyperpolarizing afterpotentials. Cells in the preincubated CA3 region were also more likely to show spontaneous synchronized burst discharge, but were relatively resistant to hypoxia-induced spreading depression. CA1 cells were less dramatically affected by preincubation, showing little difference from their non-preincubated counterparts. Possible mechanisms involved in the CA3 preincubation effect, including glial buffering alterations and changes in Na+, K+-ATPase activity, are discussed.
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PMID:Effects of tissue preincubation and hypoxia on CA3 hippocampal neurons in the in vitro slice preparation. 301 Nov 93

Zinc ions, which are unevenly distributed in the CNS and can be released from nerve terminals, have been implicated as causative agents in epileptogenesis. The present study has shown that intraventricular administration to anesthetized rats causes seizure activity of the ECOG and convulsions. Since the manner in which zinc influences neuronal activity and triggers convulsions is unclear, studies were also made of its effect on spontaneous and evoked activity in the rat forebrain. It was found that iontophoretic application of zinc to cortical neurons causes slow and often prolonged increases in firing rate, usually accompanied by bursts of high frequency discharge in just under half the studies. Another cation, barium, evoked excitatory responses of a similar type and a reduction in potassium permeability may underlie the effects of both cations. In contrast, calcium, magnesium, manganese and cerium caused short duration depressant effects. The depression induced by calcium, but not by the other cations, could be blocked by zinc. Similarly, in the hippocampus zinc depressed calcium-dependent potentiation in subfield CA3 evoked by paired-pulse stimulation of mossy fibers; excitatory effects (namely an increase in spike amplitude and appearance of multiple population spikes) were seen at higher zinc concentrations. The depressant effects of an enkephalin analog on cortical firing rate were also blocked by zinc, consistent with studies from another laboratory suggesting enkephalin/zinc interactions. In contrast, the depressant effect of GABA could not be blocked by zinc, although an antagonism has been reported in the lobster muscle. Firm conclusions regarding the mechanism(s) underlying the triggering of seizure activity by zinc cannot yet be drawn, but the results of these studies would be consistent with an interference with calcium and/or potassium ion activity rather than with GABA binding sites.
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PMID:Effect of zinc on neuronal activity in the rat forebrain. 302 63


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