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)

Unilateral microinjections of bethanechol chloride into the CA3 subfield of the dorsal hippocampus in unrestrained rats produced a seizure-related type behavioural and disseminated brain damage syndrome. Injection of bethanechol in the dose of 50 micrograms resulted in locomotor activation, mouth movements, teeth chattering, chewing, wet dog shakes and mild limbic seizures. Shortly after intrahippocampal injection the electroencephalogram (EEG) showed an increase in the frequency of the theta rhythm in both hippocampi. Then EEG showed spiking activity of high frequency in the injected hippocampus, with rapid propagation to the lateral septum, amygdala, neocortex and contralateral hippocampus. The periods of spiking activity of high frequency were followed by depression in the background EEG rhythm with some interspersed spike and wave complexes of very low frequency. Histological examination of frontal forebrain sections revealed disseminated, apparently seizure-mediated pattern of brain damage. The patterning of distant damage after intrahippocampal injections of bethanechol involved the piriform cortex, entorhinal cortex, olfactory tubercle, anterior olfactory nucleus, subiculum, amygdaloid complex, temporoparietal cortex and hypothalamic nuclei. Neuropathological alterations were occasionally observed in the lateral septum and thalamus. These results seem to establish a causative relationship between excessive stimulation of cholinergic muscarinic receptors in the hippocampal formation and epileptic brain damage.
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PMID:Intrahippocampal bethanechol in rats: behavioural, electroencephalographic and neuropathological correlates. 613 10

The postsynaptic potential (PSP) was recorded from thin slices of the olfactory cortex of the guinea pig. Application of adenosine and adenine nucleotides such as 5'-ATP, 5'-ADP and 5'-AMP in the incubation medium, depressed the amplitude of the PSP without altering the presynaptic fiber potential. The other purine and pyrimidine derivatives had no inhibitory effect. The inhibitory action of adenosine and adenine nucleotides on the PSP were manifest at concentrations of 5 microM-1 mM. Adenosine, 5'-ATP, 5'-ADP and 5'-AMP were equipotent in evoking depression of PSPs. Inhibition occurred within 10-20 sec after administration of the agents and the depressant effect disappeared rapidly after the removal of the compounds from the medium. Theophylline reversed and prevented the inhibition produced by adenosine and adenine nucleotides. To test the structure-activity relationships of these compounds, adenosine analogs and adenine nucleotide derivatives were applied to the medium. The 6-aminopurine riboside (adenosine radical) was found to be essential for inhibitory action on the PSP. Among adenosine analogs, the presence of at least one hydrogen atom in the amino group at the 6-position of the purine, and the OH group at the 2'-position of the ribose was essential for inhibitory activity.
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PMID:Inhibitory action of adenosine and adenosine analogs on neurotransmission in the olfactory cortex slice of guinea pig - structure-activity relationships. 624 64

1 The potency of a series of short-acting anaesthetics was established by measuring the duration of the loss of righting reflex following a single bolus injection into the tail vein of male Wistar rats. The agents were, in order of potency, etomidate, alphaxalone, methohexitone, alphadalone acetate and propanidid.2 The potency of binary mixtures of these agents was also assessed to see whether the anaesthetic effects of different agents were additive as classical theories of anaesthesia suggest. Mixtures of alphaxalone and alphadalone acetate, alphaxalone and propanidid and methohexitone and propanidid all showed simple additive effects. Mixtures of alphaxalone and etomidate and of alphaxalone and methohexitone showed a greater potency than would be expected if their effects were simply additive. Mixtures of etomidate and methohexitone were not examined.3 Mixtures of alphaxalone and either methohexitone or pentobarbitone produced a greater depression of synaptic transmission in in vitro preparations of guinea-pig olfactory cortex than would have been expected from the sum of the activities of the individual anaesthetics. Other combinations of anaesthetics did not show similar effects although the interaction between alphaxalone and etomidate was not examined.4 Neither alphaxalone nor pentobarbitone affected the membrane: buffer partition coefficient of the other for a model membrane system.5 These results are interpreted as evidence against the classical unitary hypotheses of anaesthetic action based on correlations of anaesthetic potency with lipid solubility and as supporting the view that different anaesthetics act on different structures in the neuronal membranes to produce anaesthesia.
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PMID:Additive and non-additive effects of mixtures of short-acting intravenous anaesthetic agents and their significance for theories of anaesthesia. 626 37

1 It has been suggested that the depression of excitatory synaptic potentials produced by general anaesthetics can be attributed to a partial blockade of impulse conduction in the terminal branches of axons. This hypothesis has been tested by comparing the actions of pentobarbitone, procaine and tetrodotoxin (TTX) on synaptic transmission in the guinea-pig olfactory cortex. 2 Pentobarbitone (0.1-0.3mM) depressed the evoked synaptic potentials without any significant depression of impulse conduction in the afferent fibres of the lateral olfactory tract (1.o.t). It had no effect on the electrical excitability of either the l.o.t axons or the postsynaptic neurones. 3 Tetrodotoxin (TTX; 1-5x10(-8 M) slowed conduction of impulses in the l.o.t. and decreased the amplitude of the l.o.t compound action potential in proportion to the concentration applied. All concentrations of TTX elevated the electrical threshold of the l.o.t. axons and there was evidence to suggest that the threshold of the postsynaptic neurones was also elevated. The synaptic potentials were depressed in direct proportion to the depression of the l.o.t. compound action potential. 4 Procaine (0.1-0.5 mM) exhibited a pattern of activity intermediate between pentobarbitone and TTX. The most marked effect, seen at all concentrations tested, was a slowing of impulse conduction and a decrease in the electrical excitability of the l.o.t. axons. 5 It is concluded that general anaesthetics (exemplified by pentobarbitone) depress synaptic transmission by interfering with the processes involved in chemical transmission and not by blocking impulse conduction in the terminal branches of afferent nerves.
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PMID:The actions of pentobarbitone, procaine and tetrodotoxin on synaptic transmission in the olfactory cortex of the guinea-pig. 627 19

In view of previously reported actions of beta-bungarotoxin (beta-BuTX) on central brain synaptosomes, the effects on this toxin on the electrical activity of two brain slice preparations have been examined in vitro. beta-BuTX initially suppresses the synaptic component of the field responses to electrical stimulation in olfactory cortex and hippocampal slices. Intracellular recordings demonstrate that this synaptic depression occurs without detectable reduction in the sensitivity of the postsynaptic neuron to putative neurotransmitters. Following longer exposure to the toxin, reduced neuronal excitability is observed both pre- and post-synaptically. Elimination of the phospholipase A2 activity of beta-BuTX, by chemical modification or removing the Ca2+ necessary for enzymic activity, greatly reduces but does not totally eradicate the toxin's ability to block neurotransmission in the olfactory cortex. In the absence of enzymic activity beta-BuTX has no obvious effect on axonal conduction. Pure phospholipases A2, such as that from Naja melanoleuca mimic the transmission-blocking action of beta-BuTX, but with lower potency and without the effects on fibre excitability. Collectively, these results are taken as evidence that beta-BuTX initially suppresses transmitter release, a notion supported by the observed loss of spontaneous synaptic activity in hippocampal cells. Prolonged exposure to the toxin induces apparently less specific effects on neuronal excitability which are dependent on phospholipase A2 activity and are discussed with reference to the selective action of beta-BuTX on hippocampal fibre systems which possess release sites.
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PMID:Electrophysiological analysis of the presynaptic action of beta-bungarotoxin in the central nervous system. 628 37

The effects of hypoxia and Mn++, Co++ and Mg++ on the electrical responses of the olfactory bulb to natural stimulation and single direct electric stimulation of olfactory nerve were studied in a frog. The slow potential evoked by natural stimulation and related inhibition of afferent olfactory input proved to be much more resistant to depression of synaptic transmission in the olfactory bulb with any methods used than postsynaptic components of the olfactory bulb orthodromic potential and related postsynaptic inhibition. Slow potentials were recorded after total blockade of synaptic transmission by Mg++ ions. It is concluded that the slow potential and related inhibition of afferent olfactory input are mainly of nonsynaptic nature. It is suggested that the slow potential reflects the depolarization of glial cells in a glomerular layer evoked by accumulation of K+ ions. Possible mechanisms for inhibition of olfactory bulb afferent input are discussed.
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PMID:[Resistance of the slow potential and inhibition of afferent input of the frog olfactory bulb to hypoxia and blockade of synaptic transmission by manganese, cobalt and magnesium ions]. 630 Jul 6

Three different regions of the vertebrate central nervous system maintained in vitro (frog spinal cord, guinea pig olfactory cortex and hippocampus) have been used to investigate how Li+ influences membrane potential, membrane resistance, action potentials, synaptic potentials and the transmembrane K+-distribution of neurons and glial cells. In view of the therapeutic action of Li+ in manic-depressive disease, a special effort was made to determine the threshold concentration for the actions of Li+ on the parameters described above. It was observed that Li+ induced a membrane depolarization of both neurons and glial cells, a decrease of action potential amplitudes, a facilitation of monosynaptic excitatory postsynaptic potentials and a depression of polysynaptic reflexes. The membrane resistance of neurons was not altered. Li+ also induced an elevation of the free extracellular potassium concentration and a decrease of the free intracellular potassium concentration. Furthermore, in the presence of Li+ a slowing of the recovery of the membrane potential of neurons and glial cells, and of the extracellular potassium concentration after repetitive synaptic stimulation was observed. The threshold concentrations for the effects of Li+ were below 5 mmol/l in the frog spinal cord and below 2 mmol/l in the guinea pig olfactory cortex and hippocampus. The basic mechanism underlying the action of Li+ may be an interaction with the transport-function of the Na+/K+ pump.
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PMID:Effects of lithium on electrical activity and potassium ion distribution in the vertebrate central nervous system. 631 83

An investigation has been made of the effects of noradrenaline on excitatory transmission at the lateral olfactory tract (LOT)-superficial pyramidal cell synapse of the rat olfactory cortex slice by measuring the effects of bath-applied noradrenaline on the amplitudes and latencies of the field potentials evoked on LOT stimulation. Low concentrations of noradrenaline (0.1-5 microM) facilitate transmission whereas higher doses (20-250 microM) depress transmission. Both these effects were completely blocked by non-selective alpha- and beta-adrenoceptor antagonists, by 2-amino-5-phosphonovaleric acid (an antagonist of excitatory amino acid receptors of the N-methyl-D-aspartate type) and by the methylxanthine theophylline. The depressant effects of noradrenaline were mimicked by bath application of GABA or adenosine and specifically antagonized by bicuculline and picrotoxin. In parallel experiments, noradrenaline (100 microM) significantly increased the potassium-evoked release of endogenous aspartate, glutamate and GABA, proposed transmitters of the olfactory cortex, although the effect on GABA release was specifically antagonized by 2-amino-5-phosphonovaleric acid. Noradrenaline (100 microM) also significantly increased the potassium-evoked release of D-[3H]aspartate, an effect antagonized by a number of alpha- and beta-adrenoceptor antagonists. It is concluded that at low concentrations, noradrenaline facilitates transmission at the LOT-superficial pyramidal cell synapse by increasing excitatory amino acid neurotransmitter release. This effect is mediated by both alpha- and beta-adrenoceptors although the primary site of release is unknown. At higher concentrations of noradrenaline, the increased levels of excitatory transmitters release sufficient endogenous GABA (and possibly adenosine) to cause an overall depression of transmission. These conclusions are supported by the results of a series of experiments in which the effects of noradrenaline on stimulus input-evoked field potential output relationships were assessed. It is not possible to exclude additional direct effects of noradrenaline on membrane excitability.
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PMID:Excitatory and inhibitory effects of noradrenaline on synaptic transmission in the rat olfactory cortex slice. 632 21

The effect of three modes of anesthesia was evaluated with regard to regional damage to central cyclic nucleotide systems in the gerbil brain as a consequence of bilateral ischemia (clamping the common carotids) followed by various periods of recirculation. The injection of thiopental as much as 90 min before stroke prevented damage to chemical activation [catecholamines, guanosine triphosphate (GTP), or forskolin] of adenylate cyclase. However, the basal enzyme activity was lower in all brain regions whether thiopental was administered to stroke or sham-operated animals. Injection of ketamine drastically shortened the survival times of gerbils undergoing stroke followed by recirculation. About 90% of the animals could tolerate a maximum of only 15 min stroke with 15 min recirculation. At this time frame the patterns of activation of adenylate cyclase in only the olfactory tubercle and hippocampus were altered. When procaine was used as a local anesthetic agent during surgery, damage to catecholamine-, GTP-, or forskolin-activated adenylate cyclase was evident to varying degrees in the frontal cortex, hippocampus or olfactory tubercle, but not in the nucleus accumbens and olfactory bulb of gerbils subjected to 60-min stroke followed by 15 or 150 min of recirculation. The degree of enzyme damage was neither correlated with the fed vs. fasted state of the animal nor with the whole blood concentration of glucose. A depression in the amplitude of visually evoked potentials correlated to neurological signs and to enzyme damage. During anesthesia, ketamine increased steady-state concentrations of cyclic AMP in the frontal cortex and hippocampus from gerbil brains that had been rapidly inactivated by microwave irradiation. Thiopental increased steady-state cyclic AMP in only the olfactory tubercle. Cyclic GMP concentrations were unchanged by any anesthetic agent. In animals completely recovering from anesthesia and occluded for a brief period followed by 10 min of reflow, steady-state concentrations of only cyclic AMP were augmented.
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PMID:Regional cyclic AMP systems during secondary ischemia in gerbils: influence of anesthetic agents. 632 54

Progabide, a new antiepileptic GABA agonist of moderate affinity for GABA receptors, has been studied in a number of psychiatric disorders and the results compared with the action of this drug in animal models. In an animal model for anxiety (the aversive response to periaqueductal grey stimulation in the rat) progabide had a similar action to that of diazepam. However in clinical trials to date the effect of the GABA agonist was inferior to that of benzodiazepines. As progabide diminishes both the nigrostriatal dopamine neuron activity and the effects of striatal dopamine receptor activation, a trial in schizophrenic patients was undertaken. Progabide was devoid of any evident antipsychotic action. However a certain improvement in responsiveness to the environment and in social interactions was noticed in hebephrenic and schizoaffective syndromes. This lack of antipsychotic effect of progabide may be a reflection of the weak activity of GABA agonists on limbic dopamine neurons. In these various clinical trials a definite improvement of affect and mood was noted in those patients receiving progabide. In clinical trials in depressed patients progabide produces a significant reduction in depressive symptoms, an action similar to that of imipramine both for the global clinical rating and the HRSD. This antidepressant activity is reflected by the action of progabide in behavioural models of depression such as olfactory bulbectomy, learned helplessness and the sleep-wake cycle.
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PMID:The potential use of GABA agonists in psychiatric disorders: evidence from studies with progabide in animal models and clinical trials. 635 Nov 6


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