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)

Activation of metabotropic glutamate receptors (mGluRs, QP or ACPD receptors) has recently been shown to cause depolarization, blockade of the slow after-hyperpolarization and depression of calcium currents in hippocampal pyramidal cells. Here, we report evidence for a new mGluR-mediated effect: slowing of the spike repolarization in CA1 cells in rat hippocampal slices. During blockade of the ionotropic glutamate receptors, the mGluR agonists trans-1-amino-cyclopentyl-1,3-dicarboxylate (t-ACPD), quisqualate or L-glutamate caused spike broadening. In contrast, the ionotropic receptor agonist alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) was ineffective. The spike broadening may act in concert with the other mGluR effects, e.g. by further increasing the influx of Ca2+ ions which, in turn, may contribute to synaptic modulation.
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PMID:Excitatory amino acids acting on metabotropic glutamate receptors broaden the action potential in hippocampal neurons. 168 72

Cortical cavity lesions and lateral ventricular injections of quinolinic acid, a NMDA receptor agonist, induce Fos and Fos-related antigens (FRAs) throughout ipsilateral adult rat brain cortex in similar patterns. c-fos mRNA, assessed using in situ hybridization, was induced by 1 h and disappeared between 3 and 8 h following cortical lesions. Fos proteins, detected using a specific monoclonal antibody, were induced by 1 h and disappeared by 4 h after cortical lesions. FRA proteins, detected using polyclonal antibodies, were induced between 1 and 4 h and persisted for at least 72 h following focal cortical injury. Intraventricular injections of CPP, a competitive NMDA receptor antagonist, completely blocked the induction of these nuclear proteins in cortex ipsilateral to the focal cortical lesions--except around the injury site itself. Intraventricular injections of quisqualate, a non-NMDA glutamate analogue, induced Fos in hippocampus but not in cortex. These data show that NMDA receptors mediate the induction of Fos and FRAs following cortical injury. It is proposed that local cortical injury releases excitatory amino acids that act at NMDA receptors to initiate spreading depression and that the resultant depolarization induces Fos in neurons throughout the cortex. Since Fos and FRAs are proteins that regulate the expression of target genes, they could mediate long-term biochemical adaptations in neurons following cortical injury.
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PMID:The NMDA receptor mediates cortical induction of fos and fos-related antigens following cortical injury. 169 51

The chronic epileptic syndrome induced by injecting tetanus toxin into rat hippocampus causes functional changes that essentially are permanent, outlasting the period of active seizures by at least 1 year. These long-term changes have been characterized by an impaired performance on a range of behavioral tasks, which in turn have been associated with a physiologic depression of hippocampal evoked responses but not with any discernible histopathology. In the present study, we examined the hippocampi of rats in the postseizure phase of the tetanus toxin model and observed no significant changes in the concentration of neurochemical markers for six neurotransmitters. Therefore, the long-term reduction in hippocampal excitability cannot be attributed to any major loss of afferents or hippocampal neurons using aspartate, acetylcholine, gamma-aminobutyric acid (GABA), glutamate, norepinephrine (NE), or serotonin as their transmitters.
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PMID:Lack of change in neurochemical markers during the postepileptic phase of intrahippocampal tetanus toxin syndrome in rats. 170 Sep 50

Field potential and intracellular recordings were obtained in the in vitro hippocampal slice to study the effects on synaptic transmission of dihydropyridine (DHP) derivatives. Nimodipine or nifedipine by itself had little effect upon the postsynaptic response as determined by field potential analysis. However, facilitation became evident when DHP application was coupled with manipulations which induced a moderate degree of membrane depolarization. In accordance with the hydrophobic nature of these compounds, extensive washing in normal Krebs' solution failed to reverse the facilitation indicating that the DHP effects outlasted the induced depolarization. Nifedipine is photolabile and its actions were reversed when intense light was applied to the slice. Application of the DHP Bay K 8644, resulted in a similar depolarization-dependent increase in neuronal excitability which, upon washout and exposure to light, was at first attenuated and then reversed, resulting in a long-lasting depression of the EPSP that was sensitive to caffeine. This depressant action of Bay K 8644 appeared to be mediated at a site presynaptic to the pyramidal cell because the postsynaptic component of the field potential response to pulsed applications of glutamate was not altered. Intracellular recording from CA1 neurons supports a presynaptic locus for the depressant actions of Bay K 8644; spike threshold for synaptically evoked responses was greatly increased while spike threshold to direct depolarization of the soma was unchanged. These results indicate that DHPs can exert effects on synaptic transmission in hippocampal brain slice under conditions of moderate membrane depolarization.
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PMID:Depolarization-dependent actions of dihydropyridines on synaptic transmission in the in vitro rat hippocampus. 170 35

Long-term depression (LTD) in the intact cerebellum is a decrease in the efficacy of the parallel fiber-Purkinje neuron synapse induced by coactivation of climbing fiber and parallel fiber inputs. In cultured Purkinje neurons, a similar depression can be induced by iontophoretic glutamate pulses and Purkinje neuron depolarization. This form of LTD is expressed as a depression of alpha-amino-3-hydroxy-5-methyl-4- isoxazole-propionic acid (AMPA)-mediated current, and its induction is dependent on activation of metabotropic quisqualate receptors. The effect of inhibitors of protein kinase C (PKC) on LTD induction was studied. Inhibitors of PKC blocked LTD induction, while phorbol-12,13-diacetate (PDA), a PKC activator, mimicked LTD. These results suggest that PKC activation is necessary for the induction of cerebellar LTD.
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PMID:Participation of postsynaptic PKC in cerebellar long-term depression in culture. 172 Dec 43

Multiple cortical neuronal responses were elicited by the iontophoretic application of muscarinic receptor agonists and antagonists in the rat cerebral sensorimotor cortex in vivo. (1) The muscarinic receptor agonist, oxotremorine-M induced a biphasic effect on spontaneous firing. This was evident as an early brief increase in the firing rate over the spontaneous discharge followed by secondary inhibition of spontaneous activity. The excitation could be blocked by the muscarinic receptor non-selective antagonist atropine and by both the M1 receptor antagonist pirenzepine and the M2 receptor antagonists gallamine or methoctramine. Oxotremorine-M inhibition of spontaneous activity was not affected by the M1 receptor antagonist pirenzepine, while evaluation of its sensitivity to gallamine and methoctramine was not possible since these two M2 receptor antagonists also depressed spontaneous activity, unlike pirenzepine. Of the other two muscarinic receptor agonists, oxotremorine had inconsistent and weak excitatory effects whilst McN-A-343 had only weak excitatory or inhibitory effects on spontaneous activity. (2) Oxotremorine-M, oxotremorine and McN-A-343 had a depressant action on neuronal discharges evoked by glutamate or acetylcholine. A depressant effect of oxotremorine-M was also demonstrated on the early excitation evoked by subsequent applications of oxotremorine-M itself. Of the three muscarinic receptor agonists tested, oxotremorine-M was the most potent in evoking a long-term depression of evoked discharges, lasting from several minutes (greater than 5 min) to as long as 40 min. Oxotremorine-M-induced depression of evoked responses was most sensitive to the M2 receptor antagonists, whereas oxotremorine-induced depression was more sensitive to the M1 receptor antagonist pirenzepine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Muscarinic receptor agonist-mediated modulation of neuronal activity in rat cerebral cortex. 172 54

1. The effects of L-glutamate diethyl ester (GDEE) HCl, glutarate diethyl ester (GlrDEE) and glutarate dimethyl ester (GlrDME) on depolarizing responses to alpha-amino-3-hydroxy-5- methyl-4-isoxazolepropionate (AMPA), kainate (Kain), N-methyl-D-aspartate (NMDA) and quisqualate (Quis), and spontaneous paroxysmal discharges (SPDs) were examined. Experiments were performed on slices of rat cingulate cortex using the in vitro grease gap recording technique in nominally Mg(2+)-free Krebs medium. 2. GDEE HCl (3-14 mM) caused a concentration-dependent depolarization of the d.c. baseline potential. L-Glutamate (0.1-0.5 mM), HCl (15 mM) and sucrose (30 mM) also depolarized the baseline. GlrDEE (3-12 mM) and GlrDME (4-26 mM) had no consistent effect on baseline potential. 3. GDEE HCl (10 mM) had no effect on depolarizing responses to AMPA, Kain and NMDA, but caused potentiation of those to Quis with a dose-ratio of 0.53 (0.44-0.63) (n = 4). In two other experiments, where the depolarization of the baseline induced by GDEE HCl was large, a depression of Quis response amplitude was observed. 4. GlrDEE (10 mM) antagonized depolarizing responses to Kain, and to a lesser extent NMDA, with dose-ratios of 2.14 (1.92-2.38) and 1.61 (1.39-1.87), respectively. This concentration of GlrDEE had no effect on AMPA responses, but potentiated Quis responses, with a dose-ratio of 0.64 (0.58-0.71). 5. GlrDME (10 mM) antagonized depolarizing responses to Kain and to Quis, with dose-ratios of 1.66 (1.48-1.85) and 1.22 (1.15-1.29), respectively, and had no effect on responses to NMDA. 6. The SPDs were inhibited by GDEE HCI (IC50 6.7 +/- 0.37mM), GlrDEE (IC50 5.6 +/- 0.38 mM) and GlrDME (IC50 10.4 +/- 0.73 mM). 7. In conclusion, there is little evidence that GDEE HCI is an antagonist of the postsynaptic excitatory amino acid receptors in the rat neocortex, and its effects may result from its contamination with Lglutamate and increased osmolarity of the bathing medium at high concentrations. The deaminated analogues of GDEE are very weak Kain antagonists.
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PMID:L-glutamate diethyl ester and deaminated analogues as excitatory amino acid antagonists in rat cerebral cortex. 179 11

Traumatically induced subtotal hippocampal neuronal loss traditionally has been considered a consequence of intracranial hypertension and impaired cerebral perfusion. We have examined the frequency and distribution of hippocampal lesions in an acceleration model of brain injury in 54 anesthetized nonhuman primates undergoing physiologic monitoring and subjected postinjury to comprehensive neuropathologic examination. Hippocampal lesions occurred in 32/54 animals (59%). These lesions always involved the CA-1 hippocampal subfield and were bilateral in 24 animals. Hippocampal involvement was not associated with marked elevation of intracranial pressure or depression of cerebral perfusion pressure. These lesions occurred in the absence of involvement of other brain regions considered selectively vulnerable to hypoxic insults. Hippocampal damage occurred in 46% of animals with mild injury characterized by brief periods of unconsciousness and no residual neurologic deficit. Ninety-four percent of animals with severe injuries and prolonged posttraumatic coma had hippocampal involvement. Traumatically induced selective neuronal necrosis of the hippocampus is a specific lesion not explained by the conventional mechanistic theories of head injury. An alternative hypothesis, such as excitotoxicity involving glutamate or other neurotransmitters, may account for the lesions demonstrated in this study.
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PMID:Selective vulnerability of hippocampal neurons in acceleration-induced experimental head injury. 180 33

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


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