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)

1. By the use of microiontophoretic techniques, quantitative estimates were obtained of the depressant effects of gamma-aminobutyric acid (GABA) on single feline cortical neurones.2. Picrotoxin, bicuculline, strychnine, (+)-tubocurarine, penicillin and leptazol were also applied microiontophoretically to single neurones. Sequential GABA applications were made before, during and after the microiontophoresis of these substances and any effects on the time course of the GABA depression were measured as an estimate of antagonism or potentiation of GABA.3. (+)-Tubocurarine was found to be a potent GABA antagonist. Picrotoxin and bicuculline were rather less potent and strychnine and penicillin only weakly active as GABA antagonists. Leptazol appeared to be inactive against GABA depressions.4. In addition, bicuculline and strychnine were found to be capable of potentiating the depressant action of GABA. This property was not shared by the other substances studied.5. All the substances studied produced changes in neuronal firing rate that did not correlate with GABA antagonism.6. In conclusion, several potent convulsants have been shown to be capable of GABA antagonism. It is not yet clear that this effect, rather than a direct effect on neuronal excitability, is the prime mechanism behind their convulsant properties.
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PMID:A comparative study of some convulsant substances as gamma-aminobutyric acid antagonists in the feline cerebral cortex. 415 Jul 64

1. Electrophysiological techniques were utilized to study the actions of 5-hydroxytryptamine (5-HT) and picrotoxin on the superior cervical ganglion of the cat.2. The intra-arterial administration of 5-HT to the ganglion elicited both depressant and excitatory actions. In low doses (0.01-0.5 mug) the amine produced a depression of ganglionic transmission. In larger doses (2-50 mug) it produced an excitation of ganglion cells (early discharge) and an initial enhancement of transmission, which was followed by depression. Picrotoxin (25-500 mug, i.a.) blocked the initial excitatory effects of 5-HT but did not block the depression. Picrotoxin did not antagonize the excitatory actions of injected cholinomimetic agents or potassium chloride.3. In ganglia conditioned by repetitive stimulation of the preganglionic nerve (30 Hz for 30 s) 5-HT also elicited a late-occurring and very prolonged discharge on certain postganglionic nerves (;spinal') but not on others (external carotid). The late discharge was only partially depressed by picrotoxin.4. Recordings from the surface of the superior cervical ganglion revealed that 5-HT produced three types of ganglionic potentials: (1) an initial transient depolarization which coincided with the early discharge, (2) a late-occurring, prolonged depolarization which coincided with the late discharge, and (3) a hyperpolarization which in some experiments accompanied the depression of transmission. The late depolarization and hyperpolarization were not observed in every experiment. Picrotoxin (25-500 mug) blocked the initial depolarization, but did not block the late depolarization or the hyperpolarization.5. It is concluded the 5-HT can produce three distinct responses in the superior cervical ganglion: a depressant effect and two types of excitation. It seems likely that depression and excitation occur via the activation of different receptors, since picrotoxin selectively blocks the latter. The finding that picrotoxin is a 5-HT antagonist in peripheral ganglia raises the possibility that picrotoxin might also influence tryptaminergic mechanisms in the central nervous system.
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PMID:Interaction between picrotoxin and 5-hydroxytryptamine in the superior cervical ganglion of the cat. 435 99

Picrotoxin and 2-amino-5-phosphonovalerate (APV) have previously been reported to influence the production of long-lasting potentiation in the hippocampus (facilitation and depression, respectively). We have examined how these drugs modify the postsynaptic responses to tetanic afferent activation used to elicit long-lasting potentiation. The experiments were performed in the CA1 area of transverse hippocampal slices maintained in vitro. A slow extracellular dendritic negativity-interpreted as a sign of a dendritic depolarizing process-was enhanced by picrotoxin and depressed by APV. This dendritic potential may represent a postsynaptic event involved in the production of long-lasting potentiation.
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PMID:A possible correlate of the postsynaptic condition for long-lasting potentiation in the guinea pig hippocampus in vitro. 614 23

1. The effects of the barbiturate anaesthetics, pentobarbitone and thiopentone, on the membrane properties and the gamma-aminobutyric acid (GABA)-induced responses of cat primary afferent neurones were studied with intracellular recording and voltageclamp techniques.2. At low concentrations (10(-7)-10(-5) M) both barbiturates slightly enhanced and prolonged GABA-induced depolarizations or currents without affecting the membrane properties. At these concentrations, barbiturates have no effect on the apparent dissociation constant of the GABA-GABA receptor interaction or the reversal potential for GABA-induced depolarizations or currents.3. At high concentrations (10(-4)-10(-3) M) barbiturates produced a few millivolts reduction in the resting membrane potential. Voltage-clamp analysis revealed that the depolarization was associated with one of the three types of conductance change, i.e., an initial increase followed by a decrease (40% of neurones examined), only an increase (40%) and only a decrease (20%).4. Analysis in different ionic media indicated that the depolarization with a reduced membrane resistance is associated with an increased chloride conductance and that the one with an increased membrane resistance is accompanied by a reduction in potassium conductance. Bath-application of GABA (10(-3) M) or picrotoxin (10(-5) M) inhibited the increase in chloride conductance but not the reduction in potassium conductance.5. Barbiturates at these high concentrations initially caused a marked augmentation and prolongation of GABA responses; this was followed by a depression. The depressant action did not appear to be voltage-dependent. These actions of barbiturates were not accompanied by changes in the apparent dissociation constant of the GABA-current dose-response curve or the reversal potential for GABA currents. In addition, the single exponential decay of GABA current was not changed despite a marked prolongation of its decay time.6. Picrotoxin (10(-5) M) antagonized the depressant effect of barbiturates at high concentrations on GABA currents, and barbiturates (5 x 10(-6) M) reduced the inhibitory action of picrotoxin (5 x 10(-6) M) on the GABA-currents.7. From all these results, it is suggested that the site of barbiturate actions on GABA-responses is mainly the allosteric site (the ionic conductance regulatory subunit) but not the agonist recognition site or the chloride channels linked with GABA receptors.
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PMID:Effect of barbiturates on the GABA receptor of cat primary afferent neurones. 629 74

Rats lightly anesthetized with halothane were treated with graded intraperitoneal doses of gamma-hydroxybutyric acid (GHBA), a GABA analogue. The drug induced a dose dependent decrease in minute ventilation, mainly due to reduced respiratory frequency. A reduced pH in arterial blood was recorded. GHBA also blunted or abolished the respiratory response to CO2 exposure in a dose-related way. Picrotoxin (0.25, 0.5 or 1.0 mg/kg intravenously), a presumed GABA antagonist did not significantly change the respiratory pattern when given alone but clearly antagonized the GHBA-induced respiratory depression. It is concluded that GABA-ergic mechanisms are involved in central respiratory control.
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PMID:Respiratory effects of gamma-hydroxybutyric acid in anesthetized rats. 677 55

The effects of picrotoxin (0.75 and 1.5 mg/kg), an antagonist of GABA mediated chloride ion conductance changes, were examined on the acquisition and performance of a bidirectional active avoidance (BAA) response and on locomotor activity. Treatment with this agent disrupted both the acquisition and performance of this task and decreased locomotor activity. This picrotoxin-induced suppression of BAA was reversed by pretreatment with diazepam (2 mg/kg), d-amphetamine (d-AMP, 2.0 mg/kg) and lysergic acid diethylamide (LSD, 10 micrograms/kg) and was reversed partially by cinanserin (5 mg/kg) and methysergide (5 mg/kg). Picrotoxin-induced activity decreases in locomotor activity were antagonized by d-AMP, were partially reversed by LSD but were not reversed by methysergide. It is proposed that picrotoxin disrupts bidirectional active avoidance behavior by increasing the response suppressive effects of aversive stimuli and by inducing a general depression of motility.
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PMID:Picrotoxin-induced disruption of bidirectional active avoidance behavior and locomotor activity. 717 14

The perforant path is the major excitatory cortical projection to the hippocampal dentate gyrus. Field potentials from the medial perforant path exhibit paired-pulse depression when evoked at interstimulus intervals of 40 to 800 msec. We found that an early component of paired-pulse depression recorded at interstimulus intervals of 40 to 100 msec from slices of rat hippocampus was reduced by L-2-amino-4-phosphonobutanoic acid (L-AP4) (20 microM) without a change in the size of the first field potential in the pair. Paired-pulse depression evoked at intervals of 200 to 800 msec was not reduced. 1S,3R-1-Aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD), DL-2-amino-3-phosphonopropionic acid and carbachol also reduced paired-pulse depression in a manner similar to L-AP4. Picrotoxin, phaclofen, theophylline or atropine did not reduce paired-pulse depression. Furthermore, paired-pulse depression (40-100 msec) does not appear to involve glutamate uptake or N-methyl-D-aspartate receptors as L-alpha-aminoadipate did not alter paired-pulse depression and neither trans-L-pyrrolidine-2,4-dicarboxylate and L-alpha-aminoadipate nor D-2-amino-5-phosphonopropionic acid blocked the effect of L-AP4 on paired-pulse depression. 4-Aminopyridine inhibits a potassium current that has a similar time course to the L-AP4-induced reduction of paired-pulse depression, however, paired-pulse depression was increased with exposure to 4-aminopyridine. These results indicate that the mechanism underlying paired-pulse depression consists of two components, the early component being reduced by L-AP4, 1S,3R-ACPD, DL-2-amino-3-phosphonopropionic acid and carbachol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:L-2-amino-4-phosphonobutanoic acid and 1S,3R-1-aminocyclopentane-1,3-dicarboxylic acid reduce paired-pulse depression recorded from medial perforant path in the dentate gyrus of rat hippocampal slices. 810 Dec 17

There are two phases to the behavioral response to injection of formalin. After an initial vigorous response, a period of reduced pain occurs 10 to 15 min after formalin, followed by reemergence of pain-related behaviors. These phases are believed to represent acute chemical stimulation of afferent neurons followed by injury-related inflammatory pain. Pentobarbital (10, 15, or 25 mg/kg), diazepam (0.5, 1.5, or 5.0 mg/kg), or ethanol (0.5, 1.0, or 1.5 g/kg) attenuated the diminution of pain between the two phases, so that pain was continuous throughout 60 min of testing, but had no effect on pain scores during the peaks of either phase. The effects of pentobarbital and diazepam were blocked by picrotoxin (2.5 mg/kg), which itself had no effect. Ro 15-1788 also blocked the effect of diazepam. Picrotoxin did not effectively antagonize the effect of ethanol. A high dose of picrotoxin (5.0 mg/kg) caused seizures in some rats and also eliminated the interphase depression of pain. The results suggest that the biphasic time course of formalin pain is produced by a central antinociceptive mechanism that is inhibited by GABAA receptors.
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PMID:Pentobarbital, diazepam, and ethanol abolish the interphase diminution of pain in the formalin test: evidence for pain modulation by GABAA receptors. 827 43

Prolonged periods of low-frequency stimulation have been shown to produce a robust, long-term synaptic depression (LTD) in both hippocampus and visual cortex. In the present study we have examined the extent to which interactions among afferents govern the induction of homosynaptic LTD in young-adult rats in hippocampal region CA1 in vitro. Field excitatory postsynaptic potentials were assessed before and after conditioning stimulation consisting of two 10-min trains of low-frequency stimulation (LFS; 1 Hz) of the Schaffer collateral/commissural pathway. LFS at an intensity producing a 0.5-mV response did not produce significant synaptic depression. However, LFS administered at a higher intensity resulted in significant input-specific LTD of a 0.5-mV test response. Picrotoxin, which also facilitates depolarization of CA1 neurons, significantly enhanced the magnitude of LTD after LFS at 0.5 mV. In addition, LFS at 0.5 mV in normal perfusion medium (no picrotoxin) produced only small changes in synaptic efficacy when either of two converging pathways was conditioned separately but produced a robust LTD when both pathways were conditioned simultaneously. This cooperative LTD was reversibly blocked by prior administration of 100 microM DL-aminophosphonovaleric acid but not by 20 microM nimodipine. Taken together, these results suggest that cooperative interactions among afferents contribute to voltage-dependent processes underlying the induction of homosynaptic LTD.
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PMID:Cooperative interactions among afferents govern the induction of homosynaptic long-term depression in the hippocampus. 852 19

Accumulation of amyloid-beta peptide (Abeta) is widely believed to play a critical role in the pathogenesis of Alzheimer's disease. Although amyloid-containing plaques are a key neuropathological feature of AD, soluble forms of Abeta can interfere with synaptic plasticity in the brain, suggesting that this form of the peptide may be responsible for much of the memory deficit seen early in the disease. Here, we investigate the mechanism underlying the effects of Abeta on long-term potentiation (LTP) in area CA1 of rat hippocampus. Extracellular field recordings were made in area CA1 of hippocampal slices taken from young, adult male rats. A non-toxic concentration of Abeta (200 nM) produced a rapid inhibition of LTP induced by 100 Hz stimulation while having no long-term effect on normal synaptic transmission. The same dose of Abeta had no effect on long-term depression (LTD) induced by 1200 pulses at 1 or 3 Hz. Picrotoxin had no effect on the inhibition of LTP, suggesting Abeta does not act by enhancing GABAergic transmission. Since the LTP induction in this study was dependent on N-methyl-D-aspartate (NMDA) receptor activation, we looked at the effect of Abeta on isolated NMDA receptor-mediated field potentials. Abeta produced a small but significant inhibition of NMDA receptor-mediated synaptic potentials ( approximately 25%). However, a low dose of MK-801 (0.5 microM) that produced a similar inhibition of NMDA potentials had no effect on LTP induction but completely blocked LTD induction. These results suggest that Abeta does not inhibit LTP via effects on NMDA receptors, but rather interferes with a downstream pathway.
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PMID:NMDA receptor regulation by amyloid-beta does not account for its inhibition of LTP in rat hippocampus. 1266 96

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