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 AMPA/KA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and the NMDA receptor antagonist 2-amino-5-phosphonovalerate (D-APV) were used to investigate the contribution of excitatory amino acid (EAA) receptors to graded bursting activity recorded in the CA1 region of the rat hippocampal slice following bath application of the convulsant drug bicuculline methiodide (BIC, 2-3 microM). CNQX (5-9 microM) significantly antagonised the burst in a reversible, concentration-dependent manner (n = 5). The effect involved a reduction in the amplitude but not the number of population spikes of the burst and also a depression of the underlying burst excitatory post-synaptic potential (EPSP). D-APV (5-25 microM), in contrast, reduced the amplitude and number of spikes in the burst but had no effect on the burst EPSP (n = 5). Following a single concentration of CNQX (5 microM), applied in the presence of bicuculline, it was observed that the components of epileptiform response which remained could be completely abolished with D-APV (10 microM; n = 10). It was also shown that, following elimination of synaptic transmission with CNQX (5 microM), application of bicuculline (2-3 microM) induced a small burst that could be reversibly antagonised with D-APV (10 microM). These results show that evoked epileptiform activity witnessed in the presence of bicuculline involves the activation of both AMPA and NMDA receptors, the AMPA receptor activation making the major contribution. The burst mediated by NMDA receptors is not dependent on prior activation of AMPA receptors.
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PMID:The contribution of AMPA and NMDA receptors to graded bursting activity in the hippocampal CA1 region in an acute in vitro model of epilepsy. 135 60

1. Three ipsilateral (MSR, PSR, IPSI SLOW) and two contralateral segmental reflexes (CON FAST, CON SLOW) were recorded from L4 or L5 ventral roots of the neonate rat spinal cord in vitro. MSR, PSR and CON FAST were evoked from lower threshold afferents; more intense stimulation evoked IPSI SLOW and CON SLOW. 2. Kainate/AMPA receptors were involved in mediation of MSR, PSR, CON FAST, IPSI SLOW and CON SLOW and NMDA receptors in mediation of CON FAST, IPSI SLOW and CON SLOW. 3. All five reflexes were depressed by 5-HT (IC50 1.2-7.9 microM; order of sensitivity, CON SLOW > CON FAST = IPSI SLOW > MSR = PSR); and by 5-CT (IC50 1.9-8.8 nM; order of sensitivity, MSR > IPSI SLOW = CON FAST = CON SLOW > PSR). alpha-Me-5-HT also depressed all five reflexes. 4. Dipropyl-5-CT selectively depressed MSR and CON SLOW (IC50 90-170 nM) but was less potent than 5-CT. 8-OH-DPAT selectively depressed MSR (IC50 1.1 microM), IPSI SLOW and CON SLOW (IC50 5.7-7.6 microM), while methylsergide depressed only MSR (IC50 26 nM). 5. Phenyl biguanide and m-chlorophenyl biguanide (5-HT3 receptor agonists) had no significant effects on any reflex. 6. It is concluded that a 5-HT1-like receptor mediates depression of the MSR. A different receptor or a mixed population of receptors, but not 5-HT3 receptors, mediate inhibition of PSR, CON FAST, IPSI SLOW and CON SLOW.
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PMID:FAST and SLOW ipsilateral and contralateral spinal reflexes in the neonate rat are modulated by 5-HT. 148 13

Cerebellar long-term depression (LTD) is a model of synaptic plasticity in which conjunctive stimulation of parallel fiber and climbing fiber inputs to a Purkinje neuron induces a persistent depression of the parallel fiber-Purkinje neuron synapse. We report that an analogous phenomenon may be elicited in the cultured mouse Purkinje neuron when iontophoretic glutamate application and depolarization of the Purkinje neurons are substituted for parallel fiber and climbing fiber stimulation, respectively. The induction of LTD in these cerebellar cultures requires activation of both ionotropic (AMPA) and metabotropic quisqualate receptors, together with depolarization in the presence of external Ca2+. This postsynaptic alteration is manifest as a depression of glutamate or AMPA currents, but not aspartate or NMDA currents. These results strengthen the contention that the expression of cerebellar LTD is at least in part postsynaptic and provide evidence that activation of both ionotropic and metabotropic quisqualate receptors are necessary for LTD induction.
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PMID:A long-term depression of AMPA currents in cultured cerebellar Purkinje neurons. 167 95

1. High-threshold, slow inactivating inward Ca2+ currents were studied in CA1 pyramidal neurones from rat hippocampal slices using the single-electrode voltage clamp technique. 2. Kainate (50-400 nM) induced a dose-dependent depression of the amplitude of the slow Ca2+ current. At a dose of 200 nM the current amplitude was reduced from -0.63 +/- -0.06 to -0.32 +/- 0.06 nA. Such an effect of kainate was associated with the development of a small inward current (-0.11 +/- 0.03 nA). Kynurenic acid (1 mM) or 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX; 20 microM) fully prevented these actions of kainate. 3. The structurally related kainate analogue alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA; 200 nM) depressed the slow Ca2+ current by 30 +/- 7%, an effect also blocked by CNQX. 4. In low-Na+ medium slow Ca2+ currents were followed by sustained inward tail currents. Kainate reduced both the steady-state Ca2+ current (from -0.98 +/- 0.14 to -0.63 +/- 0.15 nA) and the tail current (from -0.40 +/- 0.04 to -0.14 +/- 0.03 nA). 5. The inactivation process of the slow Ca2+ current was tested by a double-pulse protocol and was found to be enhanced by kainate. 6. Equimolar replacement of Ca2+ by Ba2+ produced larger inward currents followed by prolonged tails. Kainate reduced the Ba2+ steady-state current from -1.77 +/- 0.18 to -1.44 +/- 0.24 nA and the tail current from -0.47 +/- 0.15 to -0.17 +/- 0.05 nA. 7. In current clamp experiments Ca2+ action potentials were recorded from cells loaded with the Ca2+ chelator BAPTA. In these conditions kainate failed to reduce the Ca2+ action potential, while in the absence of BAPTA kainate shortened the Ca2+ action potentials by 30%. 8. It is suggested that low concentrations of kainate reduced the slow Ca2+ current by promoting its inactivation perhaps through a rise in free intracellular Ca2+.
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PMID:Depression of a sustained calcium current by kainate in rat hippocampal neurones in vitro. 177 Apr 44

A new non-N-methyl-D-aspartate (non-NMDA) glutamate receptor antagonist, GYKI 52466, was tested on L-glutamate (Glu)-, kainate (KAI)- and NMDA-induced responses in vivo, using both extracellular recording of antidromic field potentials and intracellular recording from rat abducens motoneurones. Intravenous (5-10 mg/kg) or iontophoretic applications of GYKI 52466 blocked the Glu-induced depression of antidromic field potentials only. Furthermore, intravenous application of ketamine blocked the NMDA-induced depression only. Iontophoretic application of GYKI 52466 reduced the Glu-induced neuronal depolarization but not those induced by NMDA and KAI. Our results show a selective blockade of Glu responses by GYKI 52466, probably by acting at the AMPA (alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid) receptor subtype in rat abducens motoneurones.
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PMID:GYKI 52466 antagonizes glutamate responses but not NMDA and kainate responses in rat abducens motoneurones. 183 Mar 80

Glutamate receptor subtypes mediating excitatory synaptic neurotransmission in the cerebellar cortex are briefly reviewed from molecular biological, electrophysiological and pharmacological points of view. In particular, molecular biological findings of a novel family of AMPA-selective glutamate receptors are introduced, and the pharmacological and electrophysiological properties and the identity of cerebellar N-methyl-D-aspartate-sensitive receptors probably existing on Purkinje cells are discussed in comparison with well-established cerebral NMDA receptors. As possible intracellular mechanisms of the long-term depression of parallel fiber-Purkinje cell neurotransmission, the perspective of the roles of novel messengers, nitric oxide and arachidonic acid, is particularly commented based on recent information about cerebral long-term events. The specificity and possible independence of cerebellar excitatory amino acid receptors and linked intracellular second messengers are also suggested, taking the highly active guanylate cyclase system in Purkinje cells and other cerebellum-specific proteins into consideration.
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PMID:Synaptic receptors and intracellular signal transduction in the cerebellum. 185 Dec 70

The modulation of Ca2+ currents by the excitatory neurotransmitter glutamate and its analogs was investigated in hippocampal neurons in culture. In the presence of glutamate receptor-gated ion channel antagonists, all of the analogs tested caused either a small reversible depression or had no effect on the Ca2+ current. However, in neurons dialyzed with GTP gamma S, quisqualate and glutamate but not NMDA, kainate, AMPA, or L-APB caused marked and irreversible depressions of the Ca2+ current. This inhibition was only observed if Ca2+ was present in either the internal or external medium. Intracellular H-7, staurosporine, IP3, cAMP, cGMP, or calmodulin inhibitors failed to prevent the quisqualate-induced Ca2+ current inhibition. These observations are consistent with an interaction between a G protein-coupled glutamate receptor and Ca2+ channels.
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PMID:Quisqualate receptor-mediated depression of calcium currents in hippocampal neurons. 197 15

The acute effects of hypoxia and/or hypoglycaemia on DC potentials recorded from CA1 pyramidal neurones of the gerbil hippocampal slice maintained in vitro were investigated. Depolarizing potential changes were recorded when the slice was superfused with the excitatory amino acid agonists: NMDA (N-methyl-D-aspartic acid; 3-30 microM), AMPA ((RS)alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate; 1-30 microM), kainate (3-100 microM) and L-glutamate (1-10 mM). In response to a 20 min period of superfusion with an hypoxic artificial CSF solution at 30 degrees C, a transient depolarization occurred followed by a marked hyperpolarization. A further hyperpolarization occurred when superfusion of the slice with an oxygenated artificial CSF recommenced. Post-hypoxia, when the neurones had repolarized, the response to NMDA (10 microM) was less than the pre-hypoxic response. The extent of the depression of the NMDA response was found to depend on three variables: a) the duration of the period of hypoxia, b) the glucose concentration of the artificial CSF, and c) the temperature of the slice. As the duration of hypoxia was increased, the depression of the NMDA response was more marked. Reduction of the glucose concentration from 11 mM to 2 mM by partial substitution with sucrose (9 mM) made the tissues more sensitive to the effects of hypoxia, whereas reduction of the temperature from 30 degrees C to 20 degrees C made them less sensitive. The depression of the response to NMDA was observed over a range of concentrations of NMDA. The concentration response curve for AMPA was also flattened, however, the depolarizations in response to kainate or GABA were preserved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of hypoxia and hypoglycaemia on DC potentials recorded from the gerbil hippocampus in vitro. 209 Sep 52

A fast perfusion system was used to apply excitatory amino acids to embryonic hippocampal neurons grown in dissociated culture and voltage clamped in the whole-cell recording configuration. Responses to quisqualic acid and DL-alpha-amino-3-hydroxy-5-methyl-4-isoxazoleproprionic acid (AMPA; a potent quisqualate-like agonist) showed rapid desensitization: at 100 microM the peak inward current declined to a plateau response on average 0.2 times the peak response (mean time constant, 30 ms). Responses to L-aspartic acid and N-methyl-D-aspartic acid also showed desensitization: at 100 microM, when recorded in Mg-free solution with 0.3 microM glycine, the peak inward current declined to a plateau value 0.5 times the peak, but with a time constant of desensitization (average, 248 ms) one order of magnitude slower than desensitization of responses to quisqualate. Responses to kainate and domoate (agonists at kainic acid receptors) did not show appreciable desensitization. Responses to L-glutamate and 5-Br-willardine (a potent non-NMDA receptor agonist), recorded in glycine-free solution with 1 mM Mg to suppress N-methyl-D-aspartic acid receptor activity, showed similar rapid desensitization to AMPA and quisqualate, but occurred with less depression of the peak current. The lectin concanavalin A (Con A) reduced desensitization at quisqualate receptors, with no effect on responses to kainate or N-methyl-D-aspartic acid. The effect of Con A developed slowly (average time constant at 2.5 microM, 250 s) but at steady state Con A increased the plateau current evoked by 100 microM quisqualate to 13 times control. Succinyl-Con A produced only a small reduction of desensitization to quisqualate, approximately 10% of that produced by native Con A. Con A did not change the decay time constant of fast excitatory synaptic currents evoked by stimulation of presynaptic neurons, although the peak synaptic current decreased after treatment with lectin. Con A was also without effect on the block of responses to kainate produced by coapplication of quisqualate.
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PMID:Concanavalin A selectively reduces desensitization of mammalian neuronal quisqualate receptors. 253 97

This study examined the effects of selective activation of kappa 1-opioid receptors on excitatory transmission in substantia gelatinosa (SG) using intracellular recordings from SG neurons in transverse slices of the young rat lumbar spinal cord. Monosynaptic and polysynaptic excitatory postsynaptic potentials (EPSPs) were evoked by orthodromic electrical stimulation of A delta or C primary afferent fibers in the dorsal root after blocking inhibitory inputs with bicuculline and strychnine, NMDA receptors with D-2-amino-5-phosphonovaleric acid and mu- and delta-opioid receptors with CTAP and ICI 174,864, respectively. Bath application of dynorphin A1-17 or U-69, 593 caused dual modulation of the peak amplitude of presumed monosynaptic AMPA receptor-mediated EPSPs, decreasing synaptic potentials at nanomolar concentrations in a majority of SG cells examined (dynorphin, 63%; U-69,593, 91%), and increasing EPSPs at micromolar concentrations. Only the inhibitory action of dynorphin A1-17 was consistently and completely blocked by norbinaltorphimine (nor-BNI). Since U-69,593 and nor-BNI are selective for the kappa 1-opioid receptors, the depression of EPSPs is likely to be mediated by the kappa1-opioid receptors. Under conditions of blockade of synaptic transmission with TTX and mu-and delta-opioid receptors, dynorphin A1-17 and U-69,593 hyperpolarize most of SG neurons and decrease their membrane input resistance, the finding suggesting that direct interaction of kappa-agonists with a postsynaptic receptor is likely explanation for the inhibition of EPSPs. However, in some SG cells, the inhibition of EPSPs appears to be of presynaptic origin since dynorphin A1-17 and U-69,593 did depress the EPSPs in the absence of changes in passive membrane properties. Rp-cAMPS, a membrane permeant potent competitive inhibitor of cAMP-activated protein kinase, prevented the depressant effect of dynorphin A 1-17. This finding suggested a possibility that dynorphin A1-17, acting through a decrease in intracellular cyclic AMP levels, can reduce the synaptic responses of SG neurons. These results provide the first electrophysiological demonstration that the activation of kappa 1-opioid receptors inhibits AMPA receptor-mediated primary afferent neurotransmission in the substantia gelatinosa of the young rat spinal cord. This effect may mediate the ability of kappa-receptor agonists to produce antinociception.
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PMID:kappa-opioid receptor agonists modulate excitatory transmission in substantia gelatinosa neurons of the rat spinal cord. 747 39

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