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)

Tetanus-induced (400 Hz, 200 pulses) long-lasting potentiation of the stratum radiatum-evoked CA1 population spike in hippocampal slices is not accompanied by any change in Na+-independent [3H]glutamate binding sites. Homosynaptic depression that occurs subsequent to either a low frequency tetanus (20 Hz, 600 pulses) or a transient exposure to Cl(-)-free (containing NO3-) medium is associated with an elevation in the amino acid binding. [3H]Glutamate uptake into slices was decreased following a high frequency (400 Hz, 200 pulses) tetanus but in the majority of cases was increased following a low frequency (20 Hz, 600 pulses) tetanus to stratum radiatum. When the high frequency tetanus was given in the absence of extracellular Ca2+, there was a further reduction in [3H]glutamate uptake.
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PMID:Tetanic stimulation-induced changes in [3H]glutamate binding and uptake in rat hippocampus. 287 13

For years, the hypotheses concerning the physiological mechanisms of epilepsy and spreading depression have implicated failures in inhibitory mechanisms and, in particular, GABA-mediated responses. More recent experiments have focused on the participation of excitatory neurotransmitters and especially on glutamate-mediated responses in order to account for the long-lasting changes in the excitability of neurons found in epilepsy. Evidence supporting this view has been provided by the fact that two different types of manipulation resulting in long-lasting changes in synaptic excitability, namely kindling and long-term potentiation (LTP) of synaptic transmission, result in modification of excitatory amino acid receptors. Kindling represents the progressive development of generalized seizures generated by repeated low levels of electrical stimulation of various limbic structures, and is generally accepted as a good model of epilepsy; it is associated with an increase in excitatory mechanisms and, in particular, with an increase in the number of glutamate binding sites that are presumed to represent a category of glutamate receptors. Similarly, LTP is elicited by brief bursts of electrical stimulation in monosynaptic excitatory pathways and is also associated with an increase in the number of the same type of glutamate binding sites. The present review compares the similarities between these two long-lasting forms of synaptic plasticity, and proposes that similar biochemical mechanism might underlie the changes in glutamate receptors. In addition, it describes a molecular mechanism that involves a calcium-dependent protease associated with postsynaptic membranes, the activation of which results in the unmasking of glutamate receptors. Moreover, since this mechanism has been recently implicated in the storage of some types of information in the mammalian telencephalon, these studies raise the possibility that epilepsy may represent a dangerous side-effect of an efficacious learning mechanism.
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PMID:Long-term potentiation and kindling: similar biochemical mechanisms? 301 Jun 79

In transversely sectioned rat hippocampal slices, the effects of low (20 Hz, 600 pulses) and high (400 Hz, 200 pulses) frequency tetani of Schaffer collaterals were examined on the CA1 population spike as well as on the binding of 3H-glutamate. The population spike was suppressed while 3H-glutamate binding greatly enhanced following a low frequency tetanus. Verapamil (1 micron), which does not block long-lasting potentiation (LLP), counteracted the depression of the population spike as well as the associated increase in 3H-glutamate binding. The high frequency tetanus induced LLP of the population spike but caused no change in the amino acid binding. These results indicate that the increase in the number of glutamate receptors is not a requirement for LLP.
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PMID:Long-lasting potentiation in hippocampus is not due to an increase in glutamate receptors. 614 35

Potassium at low concentrations was found to inhibit the Na-dependent [3H]L-glutamate binding to rat hippocampal synaptic membranes. This inhibition was probably due to a competition between potassium and sodium at the ionic locus of the recognition site for glutamate of the uptake process. In addition, potassium inhibited the high-affinity [3H]L-glutamate uptake in hippocampal synaptosomes. These results provide an additional mechanism for the spreading of depression which accompanies seizure activity in the hippocampus.
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PMID:Low concentrations of potassium inhibit the Na-dependent [3H]glutamate binding to rat hippocampal membranes. 614 44

This study investigated the mode of action of conantokin-T, a 21 amino acid peptide toxin isolated from the venom of the fish-hunting cone snail Conus tulipa, on excitatory synaptic transmission in rat hippocampal slices using intracellular recording techniques. Superfusion of conantokin-T (1-500 nM) specifically and irreversibly decreased the pharmacologically isolated N-methyl-D-aspartate receptor (NMDA)-mediated excitatory postsynaptic potential (EPSPNMDA) in a concentration-dependent manner but had no effect on normal excitatory synaptic transmission (EPSP). The sensitivity of postsynaptic neurons to NMDA but not to alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid was also antagonized by conantokin-T pretreatment. In addition, the conantokin-T-induced depression of EPSPNMDA could be antagonized by prior treatment of hippocampal slices with either DL-2-amino-5-phosphonovaleate (10 microM) or ifenprodil (20 microM). However, 7-chlorokynurenic acid (1 microM) had no effect on the action of conantokin-T. These findings indicated that conantokin-T modulates the NMDA receptor by an interaction with its glutamate binding site and polyamine recognition site.
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PMID:Conantokin-T selectively antagonizes N-methyl-D-aspartate-evoked responses in rat hippocampal slice. 908 May 92

The role of delta-opioid receptors on the development of kindling induced by the convulsant pentylenetetrazol (37.5 mg kg(-1) i.p.) was investigated in rats. Besides the seizure development, the kindling induced enhancement of glutamate binding and the kindling-induced learning deficit were examined. A clear depression of kindling development by blocking of delta-opioid receptors by intracerebroventricular administration of naltrindole (10 nmol/5 microl) was found. In an acute convulsion test performed 8 days after kindling completion, animals pretreated with naltrindole during kindling induction showed lower seizure stages compared to saline-pretreated kindled animals. The kindling-induced increase in hippocampal glutamate binding was completely prevented by naltrindole, whereas the kindling-induced learning deficit was not influenced. The learning performance of control animals pretreated with naltrindole was very low. It was hypothesized that the various consequences of kindling induction could be influenced separately. Summarizing the results, an involvement of the delta-opioid system in mechanisms underlying chemical kindling was clearly demonstrated. Interactions of endogenous opioid systems with glutamatergic transmission were suggested.
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PMID:Involvement of delta-opioid receptors in pentylenetetrazol kindling development and kindling-related processes in rats. 1049 84

Venoms of spiders and wasps are well recognized to present high affinity to the central nervous tissue of many mammalian species. Here we describe the effects of direct exposure of rat (Rattus norvegicus) brains to the crude and denatured venom of the Brazilian social wasp Polybia ignobilis. Lower doses of crude venom injected via intracerebroventricular (i.c.v.) inhibited the exploratory activity of animals, while higher doses provoked severe generalized tonic-clonic seizures, with hind limb extension. The status epilepticus lasted for few minutes leading the animals to respiratory depression and death. In contrast, the denatured venom was anticonvulsant against acute seizures induced by the i.c.v. injection of bicuculline, picrotoxin and kainic acid, but it was ineffective against seizures caused by systemic pentylenetetrazole. Moreover, the [3H]-glutamate binding in membranes from rat brain cortex was inhibited by the denatured venom in lower concentrations than the [3H]-GABA binding. The denatured venom contains free GABA and glutamate (34 and 802 pg/microg of venom, respectively), but they are not the major binding inhibitors. These interactions of venom components with GABA and glutamate receptors could be responsible for the anticonvulsant effects introducing the venom from P. ignobilis as a potential pharmacological source of anticonvulsant drugs.
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PMID:Anticonvulsant effects of the wasp Polybia ignobilis venom on chemically induced seizures and action on GABA and glutamate receptors. 1595 69

Ligand-gated ion channels involved in the modulation of synaptic strength are the AMPA, kainate, and NMDA glutamate receptors. Small molecules that potentiate AMPA receptor currents relieve cognitive deficits caused by neurodegenerative diseases such as Alzheimer's disease and show promise in the treatment of depression. Previously, there has been limited understanding of the molecular mechanism of action for AMPA receptor potentiators. Here we present cocrystal structures of the glutamate receptor GluR2 S1S2 ligand-binding domain in complex with aniracetam [1-(4-methoxybenzoyl)-2-pyrrolidinone] or CX614 (pyrrolidino-1,3-oxazino benzo-1,4-dioxan-10-one), two AMPA receptor potentiators that preferentially slow AMPA receptor deactivation. Both potentiators bind within the dimer interface of the nondesensitized receptor at a common site located on the twofold axis of molecular symmetry. Importantly, the potentiator binding site is adjacent to the "hinge" in the ligand-binding core "clamshell" that undergoes conformational rearrangement after glutamate binding. Using rapid solution exchange, patch-clamp electrophysiology experiments, we show that point mutations of residues that interact with potentiators in the cocrystal disrupt potentiator function. We suggest that the potentiators slow deactivation by stabilizing the clamshell in its closed-cleft, glutamate-bound conformation.
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PMID:Mechanism of positive allosteric modulators acting on AMPA receptors. 1619 94

N-methyl-D-aspartate glutamate receptors (NMDARs) are a key route for Ca2+ influx into neurons important to both activity-dependent synaptic plasticity and, when uncontrolled, triggering events that cause neuronal degeneration and death. Among regulatory binding sites on the NMDAR complex is a glycine binding site, distinct from the glutamate binding site, which must be co-activated for NMDAR channel opening. We developed a novel glycine site partial agonist, GLYX-13, which is both nootropic and neuroprotective in vivo. Here, we assessed the effects of GLYX-13 on long-term synaptic plasticity and NMDAR transmission at Schaffer collateral-CA1 synapses in hippocampal slices in vitro. GLYX-13 simultaneously enhanced the magnitude of long-term potentiation (LTP) of synaptic transmission, while reducing long-term depression (LTD). GLYX-13 reduced NMDA receptor-mediated synaptic currents in CA1 pyramidal neurons evoked by low frequency Schaffer collateral stimulation, but enhanced NMDAR currents during high frequency bursts of activity, and these actions were occluded by a saturating concentration of the glycine site agonist d-serine. Direct two-photon imaging of Schaffer collateral burst-evoked increases in [Ca2+] in individual dendritic spines revealed that GLYX-13 selectively enhanced burst-induced NMDAR-dependent spine Ca2+ influx. Examining the rate of MK-801 block of synaptic versus extrasynaptic NMDAR-gated channels revealed that GLYX-13 selectively enhanced activation of burst-driven extrasynaptic NMDARs, with an action that was blocked by the NR2B-selective NMDAR antagonist ifenprodil. Our data suggest that GLYX-13 may have unique therapeutic potential as a learning and memory enhancer because of its ability to simultaneously enhance LTP and suppress LTD.
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PMID:A NMDA receptor glycine site partial agonist, GLYX-13, simultaneously enhances LTP and reduces LTD at Schaffer collateral-CA1 synapses in hippocampus. 1879 8

The metabotropic glutamate (mGluRs) receptors are a distinct class of G-protein-coupled receptors that act through activation of phospholipase C and/or inhibition of adenylate cyclase. They encompass seven-transmembrane domain proteins, comprehensively expressed in neuronal and glial cells within the brain, spinal cord and periphery and are involved in controlling pathophysiology of a number of diseases. These receptors may be sorted into three groups based on similarity of amino acid sequence, pharmacology and the transducer pathways they couple. The agonists and antagonists act at the N-terminal glutamate binding site and present a pharmacological strategy to modulate pathogenesis. A number of these compounds are positive or negative allosteric modulators that bind within the receptor transmembrane heptahelical domains. This imparts improved subtype selectivity, improved bioavailability and better drug like properties (e.g. CNS penetration). The mGluRs are presently the focal point of sizeable attention because of their potential as drug targets for the treatment of neurological and psychiatric disorders of the brain including Schizophrenia, Alzheimer's disease, Parkinson's disease, addiction, anxiety, depression, epilepsy and pain. The present review focuses on signal transduction mechanisms implicated to control and functionally upregulate the glutamatergic transmission system. The article also hallmarks agonists and antagonists for mGluRs as pivotal agents to ameliorate an array of neurological and psychiatric disorders.
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PMID:Metabotropic glutamate receptors: a review on prospectives and therapeutic aspects. 2253 May 79


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