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)

The effects on GH and PRL secretion of several pharmacological agents known to modify central neurotransmitter action were determined in unanesthetized male rats. Phenoxybenzamine, an alpha-adrenergic blocker (5 mg/kg iv), abolished episodic GH secretion and caused elevation of serum PRL levels. Propranolol, a beta-adrenergic blocker (5 mg/kg iv), had no effect on GH secretion and caused a small but significant depression in PRL levels. Parachlorophenylalanine methyl ester, an inhibitor of tryptophan hydroxylase (300-350 mg/kg ip), resulted in significant inhibition of GH pulsatile secretion and suppressed PRL levels. Methysergide hydrogen maleinate (25 mg/kg iv), a serotonin receptor antagonist, also inhibited GH secretion, but produced a transient stimulation in PRL levels. Atropine sulfate (2 mg/kg iv) caused significant suppression in GH secretion, but had no effect on PRL. Picrotoxin, a gamma-aminobutyric acid antagonist, in a subconvulsive dose of 1-3 mg/kg iv, also depressed GH episodic secretion but did not affect PRL levels. These results indicate that several neurotransmitters, i.e., norepinephrine, serotonin, acetylcholine, and gamma-aminobutyric acid, found in high concentration in the hypothalamus, influence GH and PRL secretion.
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PMID:Neuropharmacological regulation of episodic growth hormone and prolactin secretion in the rat. 3 92

The effects of gamma-aminobutyric acid (GABA) have been studied on the synaptic depression, frequency facilitation, and posttetanic potentiation (PTP) of a unitary, monosynaptic, and presumably cholinergic excitatory postsynaptic potential (EPSP). This EPSP, produced by minimal stimulation of the right visceropleural connective, was recorded in cell R 15 of Aplysia californica. Perfusion with GABA (10(-4)-10(-3) M) reduces the size of all EPSPs produced by a train of 100 stimuli at 1/s. It also reduced the synaptic depression and PTP, and increases the frequency facilitation seen during the train. GABA does not significantly effect the membrane resistance (mean 102%) but it slightly depolarizes (mean 6 mV) the postsynaptic cell. GABA does not reduce an acetylcholine iontophoretic potential produced on R15. The effects of GABA are reduction when chloride is replaced by acetate but they remain significant. Picrotoxin and bicuculline fail to antagonize GABA. Addition of sodium azide or dinitrophenol does not reduce the action of GABA and even prolongs it. The effects of GABA are attributed to two sites of action: a postsynaptic one, responsible for the small change in potential and partially responsible for the reduction of EPSP size; and a presynaptic one, responsible for a further reduction of EPSP size and the changes of depression, facilitation, and PTP.
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PMID:Presynaptic modulating effects of GABA on depression, facilitation, and posttetanic potentiation of a cholinergic synapse in Aplysia californica. 59 79

1. Responses of single cells in the isolated cat spinal ganglion to GABA applied by superfusion or by iontophoresis were recorded using intracellular micro-electrodes. 2. Of the twelve structurally related compounds investigated, GABA was the most effective in its ability to produce a depolarization of the cell membrane. 3. Studies determining concentration-response relationships indicate that two to three molecules of GABA are required to combine with the GABA receptor for activation. 4. Bicuculline and picrotoxin, each act in a non-competitive manner to antagonize the GABA-induced membrane current. 5. The equilibrium potential for iontophoretically induced GABA depolarizations (EGABA) was found to be -23.5 plus or minys 6.1 mV. EGABA was independent upon [cl-]o, but independent of [Na+]o, [K+], or [Ca2+]o. 6. Intracellular injection of twenty antions (Br-, I-, NO2-, NO3-, ClO4-, SCN-, Bf4-, HS-, OCN-, ClO3-, BrO3-, F-, HCO2-, HSO3-, HCO3-, CH3CO2-, SO42-, C6H5O73-) indicated that the activated GABA receptor membrane was permeable to those anions whose hydrated diameter is no larger than that of ClO-3. 7. Restoration of the GABA depolarization to its control level after augmentation by Cl- injection had a mean time constant of 27.8 plus or minus 2.6 min. Picrotoxin did not alter this value. 8. When foreign anions were exchanged for Cl- in the perfusion solution, the ten anaions smaller or equal to ClO3-, decreased the GABA depolarization by 50-90% and increased its time course 1.5-2.0 x control. The only exception having a small radius was Br- which augmented the amplitude 10-30%. 9. The ten anions larger than ClO3- produced a biphasic effect, i.e. an initial augmentation followed by a marked (up to 100%) depression of the response. Experiments with CH3COO-, CH3SO4-, or HOCH2CH2SO3-, indicated that this depression was non-competitive.
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PMID:Characterization and ionic basis of GABA-induced depolarizations recorded in vitro from cat primary afferent neurones. 63 14

1 per cent Picrotoxin placed on cortex of rat caused paroxysmal ECoG discharges with concomitant increase in [Ke"] from 3 to 6.7 mM with oscillations corresponding to ictal (maximum) and interictal (minimum) spiking. Invasion of the epileptogenic focus by spreading depression was blocked when the amplitude of oscillations of [Ke+] reached 2.6 mM. Epileptogenic activity induced by topical 10 per cent pentazol caused a less marked increase in [Ke+] (4.6 mM) and did not prevent depression from invading the focal area, but did diminish [Ke+] from the normal of 60 to 70 mM to 39 mM. It is concluded that seizure-induced depolarization of neural elements in deep cortical layers, though inadequate to trigger spreading depression, does prevent it from spreading, in part by activating the sodium pump.
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PMID:Blockage of cortical spreading depression by picrotoxin foci of paroxysmal activity. 112 95

1. Intracellular recording techniques were used to characterize monosynaptic inhibitory postsynaptic potentials (IPSPs) and currents (IPSCs) in rat hippocampal slices and to study the mechanism of paired-pulse depression of these synaptic responses. This was achieved by stimulation in stratum radiatum close (less than 0.5 mm) to an intracellularly recorded CA1 neurone after pharmacological blockade of all excitatory synaptic transmission. 2. Under these conditions, low-frequency stimulation (0.033 Hz) evoked a pure biphasic IPSP, which had a short and constant latency to onset. This IPSP was blocked by tetrodotoxin (1 microM) suggesting that it resulted from the electrical stimulation of the axons and/or cell bodies of a monosynaptic inhibitory pathway. 3. Picrotoxin (100 microM) abolished the early component of the biphasic IPSP/C. It left an intact, pure late IPSP/C (IPSP/CB) which had a latency to onset of 29 +/- 2 ms, latency to peak of 139 +/- 4 ms, a duration of 723 +/- 135 (range 390-1730) ms and a reversal potential of -93 +/- 2 mV. The duration was highly dependent on the stimulus intensity whereas the latency to onset was largely independent of the stimulus intensity. The IPSP/CB was reduced or abolished by 1 mM-phaclofen. 4. Phaclofen (1 mM) and 2-hydroxy-saclofen (0.1-1.0 mM) reversibly depressed (60-100%) the late component of the biphasic IPSP/C and, where maximally effective, left a pure, early IPSP/C (IPSP/CA). The IPSP/CA had a latency to onset of 3 ms or less, a latency to peak of 17 +/- 1 ms, a duration of 225 +/- 3 ms and a reversal potential of -75 +/- 2 mV. 5. Two shocks of identical strength were applied in close succession to characterize, and to study the mechanisms underlying, frequency-dependent depression of inhibitory synaptic responses. Paired-pulse depression was seen for both phases of the biphasic IPSP/C and of the pure IPSP/CB, recorded in the presence of picrotoxin. Paired-pulse depression was not accompanied by changes in the reversal potential of either component, indicating that it was caused by a reduction in the two synaptic conductances. Paired-pulse depression was greater when high stimulus intensities were employed. 6. Paired stimuli were applied at separation intervals of between 5 ms and 10 s to determine the temporal profile of frequency-dependent depression. Paired-pulse depression of both IPSCA and IPSCB was most pronounced at an interstimulus interval of 100-125 ms and ceased to occur at intervals greater than 5 10s.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Paired-pulse depression of monosynaptic GABA-mediated inhibitory postsynaptic responses in rat hippocampus. 216 75

Local changes in extracellular ion concentrations were measured with ion-sensitive microelectrodes in slices of mature (greater than 40 days of age) or immature (16-30 days of age) rat neocortex maintained in vitro. Repetitive stimulation resulted in increases in extracellular potassium ([K+]o) to levels of 8.85 +/- 2.1 mM in slices from adult animals and 12.77 +/- 1.8 mM in slices from immature animals. During exposure to picrotoxin, maximum levels were 11.3 +/- 2.6 and 14.8 +/- 2.5 mM in the mature and immature groups, respectively. Picrotoxin (50 microM) induced spontaneous bursts of repetitive spiking, followed by a slow, negative field potential, associated with spreading depression (SD), in slices from immature animals. [K+]o levels increased to 10.2 +/- 3.9 mM during repetitive spike discharges and reached 30.3 +/- 18.5 mM during SDs. Variations in the size of the extracellular space (ES) were examined during SD. The ES was found to reversibly decrease by 39 +/- 4.5%. Clusters of repetitive spikes were associated with 0.1-0.2 mM decreases in [Ca2+]o, whereas 1.12 +/- 0.06 mM decreases were observed during SDs. Decreases in [Na+]o and [Cl-]o of 56 +/- 10 mM and 41 +/- 9 mM, respectively, were observed during SDs suggesting that a net transmembrane movement of water occurred during SDs. These results indicate that changes in [K+]o associated with epileptiform activity in the immature nervous system are quantitatively different from those observed in the mature brain. These large increases in [K+]o may contribute to the prolonged nature of epileptiform discharges in the developing nervous system.
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PMID:Alterations in the microenvironment during spreading depression associated with epileptiform activity in the immature neocortex. 272 Sep 57

A mature sacrococcygeal in vitro spinal preparation from the rat has been used to demonstrate effects of neutral amino acids and their antagonists. gamma-Aminobutanoate (GABA), glycine and taurine (0.5-5 mM) produced dose-dependent depression of spontaneous paroxysmal activity generated in Mg2+ -free medium. The depressant effect of GABA was antagonised selectively by picrotoxin (25-50 microM) and the depressant effects of glycine and taurine were antagonised selectively by strychnine (0.2 microM). Glycine (0.5-5 mM) had a dose-dependent depolarizing action which was present at the central ends of isolated ventral roots. gamma-Aminobutanoate and taurine, had only weak depolarizing actions on ventral root fibres. Depolarizing responses to glycine showed a marked fading. Reduction in the fading appeared to be responsible for a paradoxical potentiation of glycine-induced depolarizations, which occurred in the presence of strychnine (0.2-2 microM). Strychnine (2-10 microM), picrotoxin (10-50 microM) or bicuculline (10 microM) had little or no effect on the amplitude, duration or latency of the monosynaptic component of ventral root reflexes evoked by supramaximal stimulation of dorsal roots (DR-VRP). However all three antagonists introduced slow, NMDA receptor mediated, components to these ventral root potentials. Picrotoxin and bicuculline, but not strychnine, reversibly depressed the dorsal root potential evoked from an adjacent dorsal root (DR-DRP). The depressant actions of 2-amino-5-phosphonopentanoate (AP5), kynurenate and 3-((+/-)-2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP) revealed both NMDA and non-NMDA receptor mediated components in the dorsal root potential.
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PMID:Effects of depressant amino acids and antagonists on an in vitro spinal cord preparation from the adult rat. 276 79

In order to define the modulatory role played by gamma-aminobutyric acid (GABA) in corticopetal cholinergic projections, the effect of this amino acid and related drugs on gross behaviour, the EEG and the release of acetylcholine (ACh) from the cerebral cortex in freely moving guinea-pigs was studied. gamma Aminobutyric acid, injected intracerebroventricularly (20-50 mumol) induced a three-phase picture: first (5-15 min) behavioural activation and increased release of ACh, then (30-90 min) depression, EEG synchronization and reduced release of ACh, and finally "rebound" stimulation. Ethanolamine-O-sulphate (EOS) injected intraventricularly (28 mumol/kg) or intraperitoneally (14 mmol/kg) reproduced the first two phases of the effects of GABA (i.e. stimulation followed by inhibition), while diazepam (0.7 and 3.5 mumol/kg, i.p.) and flurazepam (32 mumol/kg, i.p.) caused, at first, only depression. Muscimol and 4,5,6,7-tetrahydroisoxazolo(4,5-c)pyridine-3-ol (THIP) injected intraventricularly (in the nmol range) or intraperitoneally (in the mumol range) produced behavioural activation and increased release of ACh; the depressant signs appeared only after very large, toxic doses. Picrotoxin and bicuculline, at sub-convulsive doses, reduced the symptomatology caused by GABA and antagonized the sedation produced by diazepam. Methysergide (8-16 mumol/kg, i.p.) prevented the behavioural activation and the increased release of ACh by GABA, unmasked the depression due to subthreshold doses of diazepam (i.c.v., 7-70 nmol) and reversed the stimulation induced by muscimol into sedation and reduced the outflow of ACh. Pretreatment with 5,7-HT also dampened and shortened the stimulation by muscimol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The modulation of cortical acetylcholine release by GABA, GABA-like drugs and benzodiazepines in freely moving guinea-pigs. 286 May 90

We identified changes in hippocampal afterdischarge activity that follow administration of subcon vulsant doses (one-half the convulsant dose) of analeptic agents with known pharmacological action. Long-Evans rats (N = 104) with chronic bipolar electrodes implanted in the dorsal hippocampus, were injected i.p. with saline, caffeine (75 mg/kg), picrotoxin (2 mg/kg), or pentylenetatrazol (20 mg/kg) in 1 ml/kg volume 15 min before testing. Body temperature was measured at the beginning of the session to determine if significant change was associated with any of the treatments. Beginning at 10 microA, current (2-s train of 50-Hz biphasic pulses) was applied to hippocampal electrodes and intensity was increased in 10-microA steps until the afterdischarge sequence was elicited. Afterdischarge threshold, wet dog shake frequency, and the duration of the primary afterdischarge, the postprimary depression, and the rebound afterdischarge were measured. Caffeine administration produced a dramatic prolongation of the rebound afterdischarge, without affecting the duration of the primary afterdischarge. All other afterdischarge variables were unchanged by the caffeine treatment. Because caffeine blocks adenosine receptors at physiologic concentrations, adenosine action is implicated in the termination of the second, but not the first, spike train. Picrotoxin and pentylenetetrazol had no influence on the EEG, despite evidence of slight (1 degrees C) hypothermia. A decrease in wet dog shake frequency, however, was associated with picrotoxin administration. As picrotoxin and pentylenetetrazol are known gamma-aminobutyric acid (GABA) antagonists, the results suggest that GABA is involved minimally, if at all, in the hippocampal afterdischarge sequence.
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PMID:Differential effects of caffeine, picrotoxin, and pentylenetetrazol on hippocampal afterdischarge activity and wet dog shakes. 356 62

The cardiovascular (blood pressure, heart rate, cardiac contractility) effects of i.v. gamma-aminobutyric acid (GABA) were investigated in guinea-pigs anaesthetized with barbitone or urethane. GABA (0.1-10 mg kg-1) produced a transient 'depressive' effect on cardiovascular parameters which in barbitone-anaesthetized animals was followed by a transient 'excitatory' effect. Resting cardiovascular parameters were higher in urethane-as compared to barbitone-anaesthetized animals. Picrotoxin pretreatment (2 mg kg-1, i.v.) barely affected the cardiovascular changes produced by GABA in barbitone-anaesthetized animals. In picrotoxin pretreated animals anaesthetized with urethane, GABA produced an initial depression of cardiovascular parameters followed by an excitatory phase. Hexamethonium (20 mg kg-1, i.v.) suppressed or reduced markedly the GABA-induced cardiovascular changes both in barbitone- or urethane- anaesthetized animals. Reserpine pretreatment lowered resting cardiovascular parameters. In these animals, regardless of type of anaesthesia, the effects of i.v. GABA were of the 'excitatory' type only. Reserpine pretreated animals anaesthetized with barbitone were selected for further experiments. Various GABAA receptor agonists (homotaurine, muscimol, THIP, 5-aminovaleric acid) mimicked the 'excitatory' effect of GABA in reserpine pretreated animals anesthetized with barbitone and prevented the effects of subsequent GABA administration. On the other hand (+/-)-baclofen, a selective GABAB receptor agonist, had a slight depressant effect and did not prevent the 'excitatory' cardiovascular effects of GABA. Neither bicuculline nor picrotoxin pretreatment prevented the 'excitatory' cardiovascular effect of i.v. GABA in reserpine pretreated, guinea-pigs anaesthetized with barbitone. In adrenalectomized guinea-pigs or in preparations receiving i.v. phentolamine plus propranolol, GABA produced only a small 'depressant' effect on cardiovascular parameters. These findings demonstrate that GABA exerts a neuromodulatory effect on cardiovascular function via peripheral actions which is influenced by: type of anaesthesia resting values of cardiovascular parameters degree of activity of the sympathetic nervous system and catecholamine release from the adrenal medulla.
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PMID:Differences in cardiovascular responses to peripherally administered GABA as influenced by basal conditions and type of anaesthesia. 374 54

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