UNIPROT:P46098 - FACTA Search

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Query: UNIPROT:P46098 (5-HT3 receptor)
2,290 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both the phenethylamine hallucinogen (-)-1-2, 5-dimethoxy-4-bromophenyl-2-aminopropane (DOB), a selective serotonin 5-HT2A,2C receptor agonist, and the indoleamine hallucinogen D-lysergic acid diethylamide (LSD, which binds to 5-HT1A, 1B, 1D, 1E, 1F, 2A, 2C, 5, 6, 7, dopamine D1 and D2, and alpha1 and alpha2 adrenergic receptors), but not their non-hallucinogenic congeners, inhibited N-methyl-D-aspartate (NMDA)-induced inward current and NMDA receptor-mediated synaptic responses evoked by electrical stimulation of the forceps minor in pyramidal cells of the prefrontal cortical slices. The inhibitory effect of hallucinogens was mimicked by 5-HT in the presence of selective 5-HT1A and 5-HT3 receptor antagonists. The inhibitory action of DOB, LSD and 5-HT on the NMDA transmission was blocked by the 5-HT2A receptor antagonists R-(+)-alpha-(2, 3-dimethoxyphenil)-1-[4-fluorophenylethyl]-4-piperidineme thanol (M100907) and ketanserin. However, at low concentrations, when both LSD and DOB by themselves only partially depressed the NMDA response, they blocked the inhibitory effect of 5-HT, suggesting a partial agonist action. Whereas N-(4-aminobutyl)-5-chloro-2-naphthalenesulphonamide (W-7, a calmodulin antagonist) and N-[2-[[[3-(4'-chlorophenyl)- 2-propenyl]methylamino]methyl]phenyl]-N-(2-hydroxyethyl)-4'-methoxy-b enzenesulphonamide phosphate (KN-93, a Ca2+/CaM-KII inhibitor), but not the negative control 2-[N-4'methoxybenzenesulphonyl]amino-N-(4'-chlorophenyl)-2-propeny l-N -methylbenzylamine phosphate (KN-92), blocked the inhibitory action of LSD and DOB, the selective protein kinase C inhibitor chelerythrine was without any effect. We conclude that phenethylamine and indoleamine hallucinogens may exert their hallucinogenic effect by interacting with 5-HT2A receptors via a Ca2+/CaM-KII-dependent signal transduction pathway as partial agonists and modulating the NMDA receptors-mediated sensory, perceptual, affective and cognitive processes.
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PMID:LSD and DOB: interaction with 5-HT2A receptors to inhibit NMDA receptor-mediated transmission in the rat prefrontal cortex. 1051 Jan 70

1. In the mammalian central nervous system, GABA is the main inhibitory neurotransmitter. GABA is a highly flexible molecule and, thus, can exist in many low-energy conformations. Conformationally restricted analogues of GABA have been used to help identify three major GABA receptors, termed GABAA, GABAB and GABAC receptors. 2. GABAA and GABAC receptors are members of a super-family of transmitter-gated ion channels that include nicotinic acetylcholine, strychnine-sensitive glycine and 5HT3 receptors. GABAA receptors are hetero-oligomeric Cl- channels that are selectively blocked by the alkaloid bicuculline and modulated by steroids, barbiturates and benzodiazepines. To date, 16 human GABAA receptor cDNA have been cloned. 3. GABAB receptors are seven transmembrane receptors that are coupled to G-proteins and activate second messenger systems and Ca2+ and K+ ion channels. To date, three GABAB receptor proteins have been cloned and these resemble metabotropic glutamate receptors. GABAB receptors are hetero-oligomeric receptors made up of a mixture of a combination of the subunits. These receptors are selectively activated by (-)-baclofen and CCGP27492 and are blocked by phaclofen, the phosphonic acid analogue of baclofen. 4. In contrast, GABAC receptors represent a relatively simple form of transmitter-gated Cl- channel made up of a single type of protein subunit. Two human GABAC receptor cDNA have been cloned. These receptors are not blocked by bicuculline nor are they modulated by steroids, barbiturates or benzodiazepines. Instead, GABAC receptors are selectively activated by the conformationally restricted analogues of GABA in the folded conformation cis-4-aminocrotonic acid and (1s,2R)-2-(aminomethyl)-1-carboxycyclopropane. (1,2,5,6-Tetrahydropyridine-4-yl)methylphosphinic acid, a methylphosphinic acid analogue of GABA in a partially folded conformation, is a selective antagonist at GABAC receptors.
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PMID:The 'ABC' of GABA receptors: a brief review. 1056 20

In this study, we examined the effect of n-methylquipazine (NMQ), which is a putative 5-hydroxytryptamine3(5-HT3)receptor agonist, on the extracellular concentrations of dopamine (DA) and one of its metabolites, dihydroxyphenylacetic acid (DOPAC), in the anterior medial prefrontal cortex (AmPFc) of awake, freely moving rats. The administration of NMQ via the perfusion fluid produced a concentration-dependent (10-1,000 microM) increase in extracellular DA levels in the AmPFc. In contrast, NMQ produced a decrease in the extracellular concentrations of DOPAC. The increase in extracellular DA levels returned to baseline after the removal of NMQ from the perfusate. The increase in extracellular DA levels in the AmPFc produced by 100 microM of NMQ was markedly attenuated by either the coadministration of tetrodotoxin (1 microM), which inhibits axonal impulse flow, or the depletion of extracellular Ca2+ by removing CaCl2 and adding EDTA to the perfusate. The intradialysate administration of the 5-HT3 antagonist BRL 46470A produced a concentration-dependent (10-1,000 microM) decrease in extracellular DA levels, and this effect was reversible on removal from the perfusate. In contrast, ondansetron (500 and 1,000 microM), which is another 5-HT3 receptor antagonist, produced a transient increase followed by a sustained decrease in extracellular DA levels. The preinfusion of 10 microM of BRL 46470 followed by coperfusion of BRL 46470A with 50 or 100 microM of NMQ via the dialysis probe did not significantly attenuate the increase of NMQ in extracellular DA levels in the AmPFc. The administration of the selective 5-HT2 receptor MDL 100907 (1 mg/kg, i.p.) also did not alter the increase in basal DA levels produced by 100 microM of NMQ. The pretreatment of rats with alpha-methyl-p-tyrosine produced a significant attenuation in the NMQ-induced increase in extracellular DA levels, suggesting that the elevation by NMQ of DA levels is dependent on newly synthesized stores of DA. Overall, these results suggest that the increase in AmPFc DA levels by NMQ is probably not mediated by its interaction with the 5-HT3 receptor.
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PMID:The characterization of the effect of locally applied N-methylquipazine, a 5-HT3 receptor agonist, on extracellular dopamine levels in the anterior medial prefrontal cortex in the rat: an in vivo microdialysis study. 1063 22

1. 5-HT inhibits spontaneous fluid secretion as well as stimulated secretion with secretin (cAMP mediated) or ACh (Ca2+ mediated) in the isolated guinea pig pancreatic ducts. 2. The inhibitory effect of 5-HT is reversible and is dependent on the concentration in the range 0.01-0.1 microM, which is much lower than those that affect intestinal motility and secretion. 3. The 5-HT3 receptor in duct cells appears to mediate the inhibitory effect of 5-HT. 4. [Ca2+]i is unlikely to mediate the inhibitory effect of 5-HT.
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PMID:Serotonin and pancreatic duct function. 1098 3

The neurotransmitter and neuromodulator serotonin (5-HT) functions by binding either to metabotropic G-protein-coupled receptors (for example, 5-HT1, 5-HT2, 5-HT4 to 5-HT7), which mediate 'slow' modulatory responses through numerous second messenger pathways, or to the ionotropic 5-HT3 receptor, a non-selective cation channel that mediates 'fast' membrane depolarizations. Here we report that the gene mod-1 (for modulation of locomotion defective) from the nematode Caenorhabditis elegans encodes a new type of ionotropic 5-HT receptor, a 5-HT-gated chloride channel. The predicted MOD-1 protein is similar to members of the nicotinic acetylcholine receptor family of ligand-gated ion channels, in particular to GABA (gamma-aminobutyric acid)- and glycine-gated chloride channels. The MOD-1 channel has distinctive ion selectivity and pharmacological properties. The reversal potential of the MOD-1 channel is dependent on the concentration of chloride ions but not of cations. The MOD-1 channel is not blocked by calcium ions or 5-HT3a-specific antagonists but is inhibited by the metabotropic 5-HT receptor antagonists mianserin and methiothepin. mod-1 mutant animals are defective in a 5-HT-mediated experience-dependent behaviour and are resistant to exogenous 5-HT, confirming that MOD-1 functions as a 5-HT receptor in vivo.
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PMID:MOD-1 is a serotonin-gated chloride channel that modulates locomotory behaviour in C. elegans. 1110 Jul 28

Nystatin-perforated patch recordings were made from mechanically dissociated basolateral amygdala neurons with preserved intact native presynaptic nerve terminals to study the mechanism of 5-HT3 receptor-mediated serotonergic modulation of GABAergic inhibition. The specific 5-HT3 agonist mCPBG (1 microM) rapidly facilitated the frequency of GABAergic miniature inhibitory postsynaptic currents (mIPSCs) and this facilitation desensitized within 1 min. Tropisetron (30 nM), a specific 5-HT3 antagonist, blocked the mCPBG effect. mCPBG augmented mIPSC amplitude. However, no direct postsynaptic serotonergic currents were evoked by mCPBG. Neither GABA-evoked current amplitude nor the kinetics of individual GABAergic mIPSCs were affected by mCPBG. Therefore, the augmentation is unlikely to be due to postsynaptic effects evoked by mCPBG. At higher concentrations mCPBG produced shorter-duration facilitation of miniature events. While mCPBG increased the mIPSC frequency in calcium-containing solution with Cd2+, this increase was absent in Ca2+-free external solution. It appears that the Ca2+ influx through voltage-dependent calcium channels was not as crucial as that through 5-HT3 receptors for synaptic GABA release. When two pulses of mCPBG (each 1 microM, 1 min) were given, the response to the second pulse elicited full recovery when the interval between pulses was at least 9 min. Protein kinase A (PKA) activation by 8-Br-cAMP (300 microM) shortened and PKA inhibition by Rp-cAMP (100 microM) prolonged the recovery time. PKA activity did not affect the time course of fast desensitization. Our results suggest that a 5-HT3-specific agonist acts on presynaptic nerve terminals facilitating synaptic GABA release without postsynaptic effects. The facilitation requires calcium influx through presynaptic 5-HT3 receptors. PKA modulates the recovery process from desensitization of presynaptic 5-HT3 receptor-mediated regulation of synaptic GABA release.
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PMID:Presynaptic 5-HT3 receptor-mediated modulation of synaptic GABA release in the mechanically dissociated rat amygdala neurons. 1110 47

Rat brain presynaptic 5-HT3 serotonin receptors, members of the ligand-gated ion channel superfamily, induce changes in nerve terminal [Ca2+]i in a manner distinct from that found for somatic 5-HT3 receptors. Here, we assessed the role of postsynaptic target in regulating the nature of presynaptic receptor-induced responses, using the hybrid neuroblastoma cell line NG108-15 as a model neuronal system that expresses 5-HT3 receptors. Using immunocytochemistry, 5-HT3 receptors were found to be present on the presynaptic-like varicosities of differentiated NG108-15 cells, indicating that these receptors possess an inherent ability to localize to potential presynaptic sites. In the absence of postsynaptic target, 5-HT3 receptors localized to the varicosities induce rapid but transient changes in [Ca2+]i that were initiated by voltage-gated Ca2+ channels, as assessed using Ca2+ channel blockers, these properties being typical of those found for somatic 5-HT3 receptors. In co-cultures containing rat myotubes, with which NG108-15 cells form functional cholinergic synapses, the 5-HT3 receptor-induced changes in [Ca2+]i in the axonal varicosities shifted over time (three to 10 days) to that found for brain nerve endings: sustained responses that were insensitive to blockade by antagonists of voltage-gated Ca2+ channels. The effect of co-culturing myotubes with the NG108-15 cells was mimicked by conditioned media from myotube cultures. These results indicate that regulatory molecules from the target postsynaptic cell dictate the functional responses elicited by presynaptic 5-HT3 receptors. Because the target-induced changes required several days before they were evident, we hypothesize that changes in protein expression, perhaps the consequence of altered gene regulation, underlie the changes in the responses to 5-HT3 receptor activation in the axonal varicosities of this neuronal cell line.
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PMID:Postsynaptic target regulates functional responses induced by 5-HT3 serotonin receptors on axonal varicosities of NG108-15 hybrid neuroblastoma cells. 1118 59

We investigated the mechanisms of 5-HT-induced tachycardia, which we reported previously to be triggered by 5-HT3 receptor stimulation, in the isolated guinea pig atrium in comparison with that induced by isoproterenol and histamine. We found that 5-HT-induced tachycardia was completely inhibited by ruthenium red. 5-HT-induced tachycardia was reduced in the capsaicin pre-treated atrium as well as in the presence of capsaicin. The effects of isoproterenol and histamine were not affected by ruthenium red or capsaicin treatment. Furthermore, 5-HT-induced tachycardia was found to be potentiated by thiorphan, an inhibitor of peptide degeneration. Calcitonin gene-related peptide (CGRP) (1-37), a full agonist of CGRP1-like receptors, was found to act selectively as a potent stimulator of chronotropic action. CGRP (8-37), an antagonist of CGRP1-type receptors, inhibited 5-HT-induced tachycardia as well as effects induced by CGRP (1-37). The observation that tetrodotoxin failed to affect 5-HT-induced tachycardia excluded the involvement of 5-hydroxytryptaminergic interneurons. Thus, we confirmed that the mechanism of 5-HT-induced tachycardia is distinct from that induced by isoproterenol and histamine. In conclusion, the activation of 5-HT3 receptors on the sensory nerve terminals brought about ruthenium red-sensitive Ca2+ influx and resulted in the release of CGRP from capsaicin-sensitive stores, and then CGRP stimulated CGRP1-like receptors to produce 5-HT-induced tachycardia.
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PMID:5-HT-induced, 5-HT3 receptor-mediated, and ruthenium red- and capsaicin-sensitive positive chronotropic effects in the isolated guinea pig atrium. 1218 29

Antidepressants are commonly supposed to enhance serotonergic and/or noradrenergic neurotransmission by inhibition of neurotransmitter reuptake through binding to the respective neurotransmitter transporters or through inhibition of the monoamine oxidase. Using the concentration-clamp technique and measurements of intracellular Ca2+, we demonstrate that different classes of antidepressants act as functional antagonists at the human 5-HT3A receptor stably expressed in HEK 293 cells and at endogenous 5-HT3 receptors of rat hippocampal neurons and N1E-115 neuroblastoma cells. The tricyclic antidepressants desipramine, imipramine, and trimipramine, the serotonin reuptake inhibitor fluoxetine, the norepinephrine reuptake inhibitor reboxetine, and the noradrenergic and specific serotonergic antidepressant mirtazapine effectively reduced the serotonin-induced Na(+)- and Ca(2)(+)-currents in a dose-dependent fashion. This effect was voltage-independent and, with the exception of mirtazapine, noncompetitive. Desipramine, imipramine, trimipramine, and fluoxetine also accelerated receptor desensitization. Moclobemide and carbamazepine had no effect on the serotonin-induced cation current. By analyzing analogues of desipramine and carbamazepine, we found that a basic propylamine side chain increases the antagonistic potency of tricyclic compounds, whereas it is abolished by an uncharged carboxamide group. The antagonistic effects of antidepressants at the 5-HT3 receptor did not correlate with their effects on membrane fluidity. In conclusion, structurally different types of antidepressants modulate the function of this ligand-gated ion channel. This may represent a yet unrecognized pharmacological principle of antidepressants.
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PMID:Antidepressants are functional antagonists at the serotonin type 3 (5-HT3) receptor. 1464 97

(1) Serotonin (5HT)-mediated calcium signaling was investigated in hypoglossal motoneurons (HGMs) in brain stem slices of neonatal mice. Electrical activity and associated calcium signaling were studied by simultaneous patch clamp recordings and high resolution calcium imaging. (2) Bath application of 5HT (5-50 microM) depolarized membrane potential of HGMs and generated action potential discharges that were accompanied by elevations in intracellular calcium concentrations ([Ca2+]i) in the soma and dendrites. Current-evoked bursts of action potentials were more intense in the presence of 5HT; however, the corresponding calcium signals were reduced. (3) The 5HT2 receptor agonist alpha-Methyl-5HT (25, 50 microM) had effects on membrane potential, discharge properties and [Ca]i that were identical to those observed for 5HT, whereas the 5HT3 receptor agonist 1-(m-chlorophenyl) biguanide (50 microM) had no effect on membrane properties or intracellular calcium levels. (4) 8-OHDPAT (25, 50 microM), a 5HT1A receptor agonist, was without effect on steady-state membrane potential or basal [Ca]i. Similar to 5HT and alpha-Methyl-5HT, 8-OHDPAT depressed stimulus-evoked calcium transients in current and voltage clamp mode. (5) Our results suggest that calcium profiles in hypoglossal motoneurons are differentially regulated by 5HT1A and 5HT2 receptors. Activation of 5HT1A receptors primarily reduced voltage-activated Ca2+ signals without a significant impact on basal [Ca]i. In contrast, activation of 5HT2 receptors initiated a net inward current followed by membrane depolarization, where the resulting pattern of action potential discharges represents the essential determinant of global elevations in [Ca2+]i. Taken together, our results therefore identify 5HT-dependent signal pathways as a versatile tool to modulate hypoglossal motoneuron excitability under various physiological and pathophysiological conditions.
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PMID:Serotonergic modulation of intracellular calcium dynamics in neonatal hypoglossal motoneurons from mouse. 1497 49

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