Voltage‐dependent block of NMDA responses by 5‐HT agonists in ventral spinal cord neurones

Chesnoy-Marchais, Dominique; Barthe, Jean‐Yves

doi:10.1111/j.1476-5381.1996.tb15165.x

Cited by 25 publications

(16 citation statements)

References 35 publications

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“…However, 5HT 3 -like receptors were also shown to directly inhibit NMDA receptor-dependent responses in pyramidal cells of the mPFC in a longer timescale (Liang et al 1998). In addition, 5HT was shown to directly block NMDA responses in rat ventral spinal cord cultures (Chesnoy-Marchais and Barthe 1996). Thus, upon strong MRR activation, serotonin could exert a direct temporary negative feedback of excitation, if these synapses became over-activated, protecting the cell from excitotoxicity.…”

Section: Discussionmentioning

confidence: 99%

The ascending median raphe projections are mainly glutamatergic in the mouse forebrain

et al. 2014

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The median raphe region (MRR) is thought to be serotonergic and plays an important role in the regulation of many cognitive functions. In the hippocampus (HIPP), the MRR exerts a fast excitatory control, partially through glutamatergic transmission, on a subpopulation of GABAergic interneurons that are key regulators of local network activity. However, not all receptors of this connection in the HIPP and in synapses established by MRR in other brain areas are known. Using combined anterograde tracing and immunogold methods, we show that the GluN2A subunit of the NMDA receptor is present in the synapses established by MRR not only in the HIPP, but also in the medial septum (MS) and in the medial prefrontal cortex (mPFC) of the mouse. We estimated similar amounts of NMDA receptors in these synapses established by the MRR and in local adjacent excitatory synapses. Using retrograde tracing and confocal laser scanning microscopy, we found that the majority of the projecting cells of the mouse MRR contain the vesicular glutamate transporter type 3 (vGluT3). Furthermore, using double retrograde tracing, we found that single cells of the MRR can innervate the HIPP and mPFC or the MS and mPFC simultaneously, and these double-projecting cells are also predominantly vGluT3-positive. Our results indicate that the majority of the output of the MRR is glutamatergic and acts through NMDA receptor-containing synapses. This suggests that key forebrain areas receive precisely targeted excitatory input from the MRR, which is able to synchronously modify activity in those regions via individual MRR cells with dual projections.

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Section: Discussionmentioning

confidence: 99%

The ascending median raphe projections are mainly glutamatergic in the mouse forebrain

et al. 2014

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“…The binding site for 5‐HT is located deep within the membrane electric field and competitive interactions of 5‐HT and 5‐MeOT with Mg 2+ suggest that the indolealkylamine and Mg 2+ ‐binding sites are in close proximity. Our data support the view that inhibition of NMDA receptors by 5‐HT may contribute to CNS synaptic physiology, particularly in the spinal cord and hippocampus, which are well known to receive serotogenic innervation, with potent effects on somatosensory transmission, motorneuron activity and LTP (Murase et al ., 1990; Staubli & Otaky, 1994; Chesnoy‐Marchais & Barthe, 1996; Siegel et al ., 1998). 5‐HT and related compounds may modify the action of these pathways in a Mg 2+ ‐dependent manner and thus may provide a basis for drug treatment of pain, seizures and glutamate‐mediated excitoxic neurodegeneration.…”

Section: Discussionmentioning

confidence: 99%

“…This neuroanatomical organization, as well as the finding that 5‐HT and glutamate are co‐released by single raphe neurons (Johnson, 1994), raised the possibility of a direct interaction of 5‐HT and NMDA receptors. Indeed, the modulation of NMDA‐mediated responses by 5‐HT has been described previously (Blank et al ., 1996; Chesnoy‐Marchais & Barthe, 1996; MacLean & Schmidt, 2001). These effects appear to be either presynaptic, mediated by members of the 5‐HT receptor family (Wu et al ., 1991; Elliott & Wallis, 1992), or postsynaptic, possibly via a direct effect on the NMDA receptor.…”

Section: Introductionmentioning

confidence: 99%

“…These effects appear to be either presynaptic, mediated by members of the 5‐HT receptor family (Wu et al ., 1991; Elliott & Wallis, 1992), or postsynaptic, possibly via a direct effect on the NMDA receptor. In the spinal cord, the interplay between 5‐HT and NMDA receptors has been suggested to underlie the control and generation of motor rhythm activity (Chesnoy‐Marchais & Barthe, 1996; MacLean & Schmidt, 2001). Furthermore, 5‐HT and related indolealkylamines were found to inhibit LTP via NMDA receptor‐mediated responses in hippocampal slices (Staubli & Otaky, 1994) and modulate somatosensory synaptic transmission (Murase et al ., 1990).…”

Section: Introductionmentioning

confidence: 99%

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Voltage‐dependent inhibition of recombinant NMDA receptor‐mediated currents by 5‐hydroxytryptamine

Kloda

Adams

2005

British J Pharmacology

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1 The effect of 5-HT and related indolealkylamines on heteromeric recombinant NMDA receptors expressed in Xenopus oocytes was investigated using the two-electrode voltage-clamp recording technique. 2 In the absence of external Mg 2 þ ions, 5-HT inhibited NMDA receptor-mediated currents in a concentration-dependent manner. The inhibitory effect of 5-HT was independent of the NR1a and NR2 subunit combination. 3 The inhibition of glutamate-evoked currents by 5-HT was use-and voltage-dependent. The voltage sensitivity of inhibition for NR1a þ NR2 subunit combinations by 5-HT was similar, exhibiting an e-fold change per B20 mV, indicating that 5-HT binds to a site deep within the membrane electric field. 4 The inhibition of the open NMDA receptor by external Mg 2 þ and 5-HT was not additive, suggesting competition between Mg 2 þ and 5-HT for a binding site in the NMDA receptor channel. The concentration-dependence curves for 5-HT and 5-methoxytryptamine (5-MeOT) inhibition of NMDA receptor-mediated currents are shifted to the right in the presence of external Mg 2 þ . 5 The related indolealkylamines inhibited glutamate-evoked currents with the following order of inhibitory potency: 5-MeOT ¼ 5-methyltryptamine4tryptamine47-methyltryptamine45-HTbtryptophan ¼ melatonin. 6 Taken together, these data suggest that 5-HT and related compounds can attenuate glutamatemediated excitatory synaptic responses and may provide a basis for drug treatment of excitoxic neurodegeneration.

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“…Several pieces of evidence suggest that modulation of responses to NMDA by serotonin could depend on direct or indirect (receptor mediated) actions of 5-HT on the magnesium block of the NMDA receptor [42,43].…”

Section: Effects On Excitatory Amino Acid Mediated Transmissionmentioning

confidence: 99%

Serotonergic Modulation of Spinal Sensory Circuits

López-García

2006

CTMC

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The role of serotonin (5-HT) as a mediator of the endogenous pain control system has been investigated over the last 30 years. Here we review a subset of studies that used electrophysiological techniques to study the mechanisms of action as well as the receptors mediating the spinal effects of serotonin. The works herein discussed employed in vivo or in vitro preparations of control or hyperalgesic animals. According to these reports, 5-HT triggers depressant effects on synaptic transmission limiting the release of neurotransmitters from afferent terminals or the responsiveness of NMDA receptors located in dorsal horn neurones. These mechanisms are most likely mediated by 5-HT1 receptors. In contrast, 5-HT2 receptors seem to mediate excitatory effects such as depolarisation, increased excitability, and neurotransmitter release. The role of 5-HT3 receptors is less clear as they could mediate excitatory or inhibitory effects, depending on variables such as concentration of 5-HT or the state (sensitised/unsensitised) of the spinal cord. The consequences of these spinal effects of serotonin are discussed in the context of pain and analgesia.

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Voltage‐dependent block of NMDA responses by 5‐HT agonists in ventral spinal cord neurones

Cited by 25 publications

References 35 publications

The ascending median raphe projections are mainly glutamatergic in the mouse forebrain

The ascending median raphe projections are mainly glutamatergic in the mouse forebrain

Voltage‐dependent inhibition of recombinant NMDA receptor‐mediated currents by 5‐hydroxytryptamine

Serotonergic Modulation of Spinal Sensory Circuits

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