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 group I specific metabotropic glutamate (mGlu) receptor agonist (RS)-3,5-dihydroxyphenylglycine (DHPG) (100 microM, 10 min) induced long-term depression (LTD) of synaptic transmission in the CA1 region of adult rat hippocampal slices, measured using a grease-gap recording technique. In "normal" (1 mM Mg2+-containing) medium, LTD (measured 30 min after washout of DHPG) was small (13+/-3%), but LTD was enhanced if DHPG was applied when the tissue was made hyperexcitable, either by omitting Mg2+ from the perfusate (35+/-3%) or by adding the GABA(A) receptor antagonist picrotoxin (29+/-2%). The N-methyl-D-aspartate (NMDA) receptor antagonist AP5 (100 microM) substantially reduced the generation of DHPG-induced LTD in Mg2+-free medium, but had little effect on LTD induced in the presence of picrotoxin. In Mg2+-free medium, the threshold concentration of DHPG required to induce LTD was between 1 and 3 microM. Neither agonists specific for group II (100 nM DCG-IV or 1 microM LY354740) or group III (10 microM L-AP4) mGlu receptors or a combined group I and II agonist (30-100 microM (1S,3R)-ACPD) induced LTD. However, an agonist (1 mM CHPG) which activates mGlu5 but not mGlu1 receptors did induce LTD. Surprisingly, DHPG-induced LTD was reversed by mGlu receptor antagonists, applied hours after washout of DHPG. DHPG-induced LTD did not occlude with LTD induced by synaptic activation (1200 stimuli delivered at 2 Hz), in Mg2+-free medium. These data show that activation of group I mGlu receptors (probably mGlu5) can induce LTD and that this mGlu receptor-mediated LTD may, or may not, require activation of NMDA receptors, depending on the experimental conditions.
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PMID:The group I mGlu receptor agonist DHPG induces a novel form of LTD in the CA1 region of the hippocampus. 951 22

Understanding the roles of metabotropic glutamate (mGlu) receptors has been severely hampered by the lack of potent antagonists. LY341495 (2S-2-amino-2-(1S,2S-2-carboxycyclopropyl-1-yl)-3-(xanth-9-y l)propanoic acid) has been shown to block group II mGlu receptors in low nanomolar concentrations (Kingston, A.E., Ornstein, P.L., Wright, R.A., Johnson, B.G., Mayne, N.G., Burnett, J.P., Belagaje, R., Wu, S., Schoepp, D.D., 1998. LY341495 is a nanomolar potent and selective antagonist at group II metabotropic glutamate receptors. Neuropharmacology 37, 1-12) but can be used in higher concentrations to block all hippocampal mGlu receptors, identified so far by molecular cloning (mGlu1-5,7,8). Here we have further characterised the mGlu receptor antagonist activity of LY341495 and have used this compound to investigate roles of mGlu receptors in hippocampal long-term potentiation (LTP) and long-term depression (LTD). LY341495 competitively antagonised DHPG-stimulated PI hydrolysis in AV12-664 cells expressing either human mGlu1 or mGlu5 receptors with Ki-values of 7.0 and 7.6 microM, respectively. When tested against 10 microM L-glutamate-stimulated Ca2+ mobilisation in rat mGlu5 expressing CHO cells, it produced substantial or complete block at a concentration of 100 microM. In rat hippocampal slices, LY341495 eliminated 30 microM DHPG-stimulated PI hydrolysis and 100 microM (1S,3R)-ACPD-inhibition of forskolin-stimulated cAMP formation at concentrations of 100 and 0.03 microM, respectively. In area CA1, it antagonised DHPG-mediated potentiation of NMDA-induced depolarisations and DHPG-induced long-lasting depression of AMPA receptor-mediated synaptic transmission. LY341495 also blocked NMDA receptor-independent depotentiation and setting of a molecular switch involved in the induction of LTP; effects which have previously been shown to be blocked by the mGlu receptor antagonist (S)-MCPG. These effects may therefore be due to activation of cloned mGlu receptors. In contrast, LY341495 did not affect NMDA receptor-dependent homosynaptic LTD; an effect which may therefore be independent of cloned mGlu receptors. Finally, LY341495 failed to antagonise NMDA receptor-dependent LTP and, in area CA3, NMDA receptor-independent, mossy fibre LTP. Since in the same inputs these forms of LTP were blocked by (S)-MCPG, a novel type of mGlu receptor may be involved in their induction.
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PMID:The potent mGlu receptor antagonist LY341495 identifies roles for both cloned and novel mGlu receptors in hippocampal synaptic plasticity. 988 67

We have used extracellular microelectrode recording to characterise a form of long-term depression (LTD) of synaptic transmission that can be induced by metabotropic glutamate (mGlu) receptor activation in the CA1 region of the young (12-18 day old) rat hippocampus. Activation of group I mGlu receptors by the specific agonist 3,5-dihydroxyphenylglyine (DHPG) induced LTD of field excitatory postsynaptic potentials (fEPSPs). The mGlu5 selective agonist 2-chloro-5-hydroxyphenylglycine was also capable of inducing LTD. In contrast, the group II specific agonist DCG-IV had no effect on synaptic transmission, whilst the group III receptor agonist (S)-2-amino-4-phosphonobutyrate elicited a depression that reversed fully upon agonist washout. DHPG-induced LTD could still be generated after prior saturation of electrically-induced NMDA receptor-dependent LTD. DHPG-induced LTD was reversed by tetanic stimulation comprising 100 shocks delivered at 100 Hz. A novel mGlu receptor antagonist, (RS)-2-amino-2-(3-cis and trans-carboxycyclobutyl-3-(9-thioxanthyl)propionic acid) (LY393053) that potently inhibits mGlu1 and mGlu5 receptors, prevented the induction of DHPG-induced LTD. Like other mGlu receptor antagonists, LY393053 also reversed pre-established DHPG-induced LTD. In contrast, a potent mGlu1 selective antagonist (S)-2-methyl-4-carboxyphenylglycine (LY367385) did not prevent the induction of DHPG-induced LTD. In conclusion, DHPG, probably via activation of mGlu5 receptors, is able to induce a robust form of LTD in the CA1 region of the young rat hippocampus that is mechanistically distinct from NMDA receptor-dependent homosynaptic LTD.
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PMID:DHPG-induced LTD in area CA1 of juvenile rat hippocampus; characterisation and sensitivity to novel mGlu receptor antagonists. 1053 Aug 19

1. Several lines of evidence suggest a crucial involvement of glutamate in the mechanism of action of anxiolytic and/or antidepressant drugs. The involvement of group I mGlu receptors in anxiety and depression has also been proposed. Given the recent discovery of a selective and brain penetrable mGlu5 receptor antagonists, the effect of 2-methyl-6-(phenylethynyl)-pyridine (MPEP), i.e. the most potent compound described, was evaluated in established models of anxiety and depression. 2. Experiments were performed on male Wistar rats or male Albino Swiss or C57BL/6J mice. The anxiolytic-like effects of MPEP was tested in the conflict drinking test and the elevated plus-maze test in rats as well as in the four-plate test in mice. The antidepressant-like effect was estimated using the tail suspension test in mice and the behavioural despair test in rats. 3. MPEP (1 - 30 mg kg(-1)) induced anxiolytic-like effects in the conflict drinking test and the elevated plus-maze test in rats as well as in the four-plate test in mice. MPEP had no effect on locomotor activity or motor coordination. MPEP (1 - 20 mg kg(-1)) did shorten the immobility time in a tail suspension test in mice, however it was inactive in the behavioural despair test in rats. 4. These data suggest that selective mGlu5 receptor antagonists may play a role in the therapy of anxiety and/or depression, further studies are required to identify the sites and the mechanism of action of MPEP.
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PMID:Potential anxiolytic- and antidepressant-like effects of MPEP, a potent, selective and systemically active mGlu5 receptor antagonist. 1126 35

The subthalamic nucleus (STN) is a key nucleus in the basal ganglia motor circuit that provides the major glutamatergic excitatory input to the basal ganglia output nuclei. The STN plays an important role in the normal motor function, as well as in pathological conditions such as Parkinson's disease. Development of a complete understanding of the role of the STN in motor control will require a detailed understanding of the mechanisms involved in the regulation of excitatory and inhibitory synaptic transmission in this nucleus. Here, we report that activation of groups I or III metabotropic glutamate (mGlu) receptors, but not group II, causes a depression of excitatory transmission in the STN. In contrast, mGlu receptor activation has no effect on the inhibitory transmission in this nucleus. Further characterization of the group I mGlu receptor-induced effect on EPSCs suggests that this response is mediated by mGlu1 and not mGlu5. Further, paired pulse studies suggest that both the mGlu1 receptor and the group III mGlu receptor-mediated effects are due to a presynaptic mechanism. If these receptors are involved in endogenous synaptic transmission in the STN, these results raise the exciting possibility that selective agents targeting mGlu receptors may provide a novel approach for the treatment of motor disorders involving the STN.
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PMID:Activation of groups I or III metabotropic glutamate receptors inhibits excitatory transmission in the rat subthalamic nucleus. 1144 83

In 1991 a new type of G-protein-coupled receptor (GPCR) was cloned, the type 1a metabotropic glutamate (mGlu) receptor, which, despite possessing the defining seven-transmembrane topology of the GPCR superfamily, bore little resemblance to the growing number of other cloned GPCRs. Subsequent studies have shown that there are eight mammalian mGlu receptors that, together with the calcium-sensing receptor, the GABA(B) receptor (where GABA is gamma-aminobutyric acid) and a subset of pheromone, olfactory and taste receptors, make up GPCR family C. Currently available data suggest that family C GPCRs share a number of structural, biochemical and regulatory characteristics, which differ markedly from those of the other GPCR families, most notably the rhodopsin/family A GPCRs that have been most widely studied to date. This review will focus on the group I mGlu receptors (mGlu1 and mGlu5). This subgroup of receptors is widely and differentially expressed in neuronal and glial cells within the brain, and receptor activation has been implicated in the control of an array of key signalling events, including roles in the adaptative changes needed for long-term depression or potentiation of neuronal synaptic connectivity. In addition to playing critical physiological roles within the brain, the mGlu receptors are also currently the focus of considerable attention because of their potential as drug targets for the treatment of a variety of neurological and psychiatric disorders.
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PMID:Structural, signalling and regulatory properties of the group I metabotropic glutamate receptors: prototypic family C G-protein-coupled receptors. 1167 21

In this study we have investigated mechanisms underlying enhancement by group II metabotropic glutamate (mGlu) receptors of group I mGlu receptor-induced calcium mobilization. Inhibition of protein kinase A (PKA) caused an enhancement of mGlu5 receptor-mediated calcium mobilization and occluded the enhancement by group II mGlu receptors. A peptide (Ht31) that prevents interaction between A-kinase anchoring protein (AKAP) and PKA also enhanced mGlu5-mediated calcium mobilization. Enhancement of mGlu5 function, by inhibition of PKA or by activation of group II mGlu receptors, was prevented by the protein phosphatase 2B (PP2B) inhibitor cyclosporin A. Furthermore, the enhancement by activation of group II mGlu receptors was prevented by raising intracellular cAMP. These results suggest that the regulation by PKA and PP2B of phosphorylation of a substrate on mGlu5 and/or on group II mGlu receptors is intimately involved in the mechanisms underlying interaction between group II mGlu and mGlu5 receptors. Long-term depression (LTD) in perirhinal cortex requires group I, group II and NMDA receptor activation at resting membrane potentials but does not require group II mGlu receptor activation at depolarized potentials. We previously suggested that interaction between group I and group II mGlu receptors is required for induction of LTD at resting potentials. In support of this, we demonstrate in perirhinal cortex slices that blocking mechanisms underlying mGlu receptor synergy (by raising intracellular cAMP or by inhibition of PP2B) selectively prevented LTD at resting membrane potentials. This study thus provides a potential explanation for the co-requirement in LTD of group I and group II mGlu receptor activation. Similar mechanisms of synergistic interaction may also be important in other physiological processes dependent on mGlu receptors.
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PMID:Mechanisms and physiological role of enhancement of mGlu5 receptor function by group II mGlu receptor activation in rat perirhinal cortex. 1198 78

1. The modulatory effects of mGlu receptors on NMDA-induced potential changes in spinal motoneurones were studied in vitro. 2. Selective activation of mGlu5 receptors by 10 microM (RS)-2-Chloro-5-hydroxyphenylglycine (CHPG; EC(50)=280 +/- 24 microM) did not produce any change in the ventral root potential. However, the same concentration of CHPG (10 min perfusion) significantly attenuated the NMDA-induced ventral root depolarization (VRD). The effect persisted for 10 min after washout. NMDA-induced responses returned to control in 30 min. Brief co-application of CHPG and NMDA did not alter the NMDA-induced response indicating lack of direct receptor interaction. 3. The attenuating effect of CHPG on the NMDA-induced VRD was inhibited by the mGluR5 receptor antagonist, 2-methyl-6-phenyl-ethynylpyridine (MPEP). 4. In the presence of CGP56433A, a GABA(B) receptor antagonist, the NMDA-induced VRD was unchanged. However, NMDA-induced responses were potentiated after 10 min co-application of CHPG and CGP56433A. 5. (2R,4R)-4-aminopyrrolidine-2,4-dicarboxylate ((2R,4R)-APDC), a group II mGlu receptor agonist did not attenuate the NMDA-induced response. 6. Under normal physiological conditions group I mGlu receptor agonists activate at least two populations of neurones: (1) GABA-ergic cells, which could release GABA and inhibit dorsal horn neurones, and (2) deep dorsal horn neurones/motoneurones which express NMDA receptors. Therefore, activation of mGlu5 receptors located on GABA-ergic interneurones could influence any direct potentiating interaction between mGlu5 and NMDA receptors in spinal cord and result in depression of the VRD. In the presence of a GABA(B) receptor antagonist, the direct synergistic interaction is unmasked. These data suggest that group I mGlu receptors provide a complex modulation of spinal synaptic processes.
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PMID:Interaction of group I mGlu and NMDA receptor agonists within the dorsal horn of the spinal cord of the juvenile rat. 1201 Jul 73

Several lines of evidence suggest a crucial involvement of glutamate in the mechanism of action of anxiolytic and antidepressant drugs. The involvement of group I mGlu receptors in anxiety and depression has also been proposed. In view of the recent discovery of anxiolytic- or antidepressant-like effects of acute injections of 2-methyl-6-(phenylethynyl)-pyridine (MPEP), a selective and brain penetrable mGlu5 receptor antagonist, we designed the present study to examine anxiolytic- and/or antidepressant-like effects of multiple administrations of this drug. The anxiolytic-like effects of MPEP were evaluated in rats using the conflict drinking test. The antidepressant-like effect was estimated using the rat olfactory bulbectomy model of depression. Seven subsequent injections of MPEP (1 mg/kg) significantly (by 320%) increased the number of shocks accepted during the experimental session in the Vogel test. MPEP given once daily at a dose of 10 mg/kg, restored the learning deficit of bulbectomized rats after 14 days of treatment, remaining without any effect in the sham-operated animals. N-methyl-D-aspartic acid (NMDA)-induced convulsions in mice were not affected by a single injection of MPEP (30 mg/kg) indicating that at this dose MPEP did not block NMDA receptors. The results indicate that the prolonged blockade of mGlu5 receptors exerts anxiolytic- and antidepressant-like effects in rats. No tolerance to anxiolytic-like action occurs. The previously mentioned results further indicate that antagonists of group I mGlu receptors may play a role in the therapy of both anxiety and depression.
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PMID:Multiple MPEP administrations evoke anxiolytic- and antidepressant-like effects in rats. 1221 72

Using the olfactory bulbectomy model of depression, we examined the antidepressant-like activity of 2-methyl-6-(phenylethynyl)-pyridine (MPEP) in rats. Bulbectomized rats required a significantly greater number of trials to acquire the response similar to sham-operated controls in the passive avoidance model. Both the prolonged (but not acute) treatment with MPEP and with antidepressant drug-desipramine restored the learning deficit. The results indicate that the prolonged blockade of mGlu5 receptors exerts antidepressant-like effects in rats.
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PMID:Antidepressant-like effect of MPEP, a potent, selective and systemically active mGlu5 receptor antagonist in the olfactory bulbectomized rats. 1237 40

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