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Query: UNIPROT:P08908 (5-HT1A)
5,574 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of 5-hydroxytryptamine on the membrane potential and input resistance of 86 dorsal horn neurons were studied using intracellular recordings in isolated, hemisected spinal cords of adult frogs (Rana pipiens). Bath application of serotonin (5-100 microM) caused membrane depolarizations in 58 (67%) neurons, hyperpolarizations in 12 (14%) cells, biphasic responses in nine (11%) neurons, and no detectable change in seven (8%) cells. In some neurons depolarized by serotonin, the amine's responses could be mimicked by the selective 5-HT2 agonist (+/-)-1(2,5-dimethoxy-4-iodophenyl)-2-aminopropane hydrochloride and the 5-HT1C/2 agonist alpha-methyl-5-hydroxytryptamine, and blocked by the 5-HT1C/2 antagonists ketanserin and mianserin. In other neurons depolarized by serotonin, the 5-HT3 agonist 2-methyl-5-hydroxytryptamine mimicked, and the 5-HT3 antagonist, 3-tropanyl-3,5-dichlorobenzoate, blocked the serotonin-induced responses. Depolarizing responses due to activation of 5-HT1C/2 receptors were generally accompanied by increases in the membrane input resistance, whereas depolarizations mediated by 5-HT3 receptors were associated with a decreased membrane input resistance. Superfusion with tetrodotoxin or low-Ca2+/high-Mg(2+)-containing media abolished about half of the depolarizing responses. Hyperpolarizations caused by serotonin were associated with a decrease in membrane input resistance, and might have been due to activation of a potassium conductance. These responses persisted in bathing solutions containing tetrodotoxin or low-Ca2+/high-Mg2+. The 5-HT1A agonist 8-hydroxy-2-(di-N-propylamine)tetralin hydrobromide mimicked, whereas the 5-HT1A antagonist spiroxatrine blocked, these hyperpolarizing responses. Other antagonists selective for 5-HT1C/2 or 5-HT3 receptors were without effect. Serotonin-produced biphasic responses consisted of either an initial depolarization followed by a hyperpolarization or the reverse. The selective 5-HT2 agonist (+/-)-1(2,5-dimethyoxy-4-iodophenyl)-2-aminopropane hydrochloride could only mimic the depolarizations, whereas the 5-HT1A agonist 8-hydroxy-2-(di-N-propylamine)tetralin hydrobromide produced only the hyperpolarizations. Spiroxatrine, a 5-HT1A antagonist, blocked only the hyperpolarizations without affecting the depolarizations, and methysergide, a non-specific 5-HT receptor antagonist, depressed both the depolarizations and hyperpolarizations. Serotonin also appeared to affect spinal dorsal horn neurons indirectly because it produced excitatory postsynaptic potentials, inhibitory postsynaptic potentials, and a mixture of both.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Diverse actions of 5-hydroxytryptamine on frog spinal dorsal horn neurons in vitro. 143 88

1. The actions of serotonin (5-HT) and noradrenaline (NA) in the cat perigeniculate nucleus (PGN) and the guinea-pig nucleus reticularis thalami (NRT) were investigated with extracellular and intracellular recordings obtained from neurones in thalamic slices maintained in vitro. 2. Single, local application of either 5-HT or NA resulted in pronounced (5-50 Hz) and prolonged (2-10 min) excitation associated with the occurrence of single-spike activity. Serotoninergic excitation was specifically blocked by the 5-HT2/5-HT1C antagonists ketanserin and ritanserin, but not by the 5-HT1A antagonist pindolol or the 5-HT3 antagonist ICS 205-930. Furthermore, the 5-HT response was mimicked by alpha-methyl-5-HT, but not by the 5-HT1A agonist 8-hydroxydipropylaminotetralin (8-OHDPAT) or the 5-HT3 agonist 2-methyl-5-HT. Together, these results indicate that this excitatory response is mediated through 5-HT2 receptors with the possible involvement of 5-HT1C receptors. 3. Noradrenergic excitation was specifically blocked by the alpha 1-antagonist prazosin, but not by the beta-antagonist propranolol or the alpha 2-antagonist yohimbine. Similarly, the response was mimicked by the alpha-agonist phenylephrine, but not by the beta-agonist isoprenaline. These results indicate that the noradrenergic excitation is mediated by alpha 1-adrenoceptors. 4. Block of synaptic transmission either by lowering external calcium concentration ([Ca2+]o) to 0.5 mM and raising external magnesium concentration ([Mg2+]o) to 10 mM or by local application of tetrodotoxin failed to block the excitatory or depolarizing response to 5-HT or NA indicating that these responses are direct and not mediated through the release of other neurotransmitters. 5. Intracellular recordings revealed that the 5-HT- and NA-induced excitations are mediated by a pronounced slow depolarization associated with an apparent decrease in input conductance and an increase in the membrane time constant. Current versus voltage plots obtained under voltage clamp before and during the presence of 5-HT and NA revealed that these neurotransmitters induced an inward current which reversed to an outward current at -107 and -110 mV, respectively, in 2.5 mM external potassium concentration ([K+]o). This reversal potential was identical to that associated with an increase in potassium conductance activated by acetylcholine (-110 mV) in the same neurones. Plots of the amplitude of the 5-HT- or NA-induced current versus membrane potential revealed a linear relationship in the voltage range from -140 to -60 mV.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Serotonin and noradrenaline excite GABAergic neurones of the guinea-pig and cat nucleus reticularis thalami. 166 58

1. The effects of serotonin (5-HT) on visually identified motoneurones were investigated using the whole-cell recording technique in a neonatal rat spinal cord slice preparation. 2. In current-clamp recordings, bath application of 5-HT depolarized motoneurones. This effect was observed after synaptic inputs were abolished by replacing external Ca2+ with Mg2+. 3. In voltage-clamp recordings at holding potentials of -70 to -90 mV, 5-HT induced an inward current (I5-HT) in motoneurones in a Ca2(+)-free-Mg2+ solution containing tetrodotoxin. This inward current was accompanied by an increase in membrane conductance, which was prominent at voltages negative to the holding potential. 4. The inward I5-HT response declined with repeated short applications of 5-HT. I5-HT produced by a single prolonged application (5 min) was only slightly diminished during the application period. 5. The minimum effective dose of 5-HT for initiating the inward I5-HT was less than 10 nM. At 10 microM, I5-HT approached maximal levels. The averaged dissociation constant (Kd) for 5-HT was approximately 120 nM. 6. Application of spiperone, the mixed 5-HT1A, 5-HT2 receptor antagonist, blocked the inward I5-HT. Application of (+)-8-OH-dipropylaminotetralin (8-OHDPAT), a 5-HT1A agonist, mimicked the action of 5-HT. 7. Various K+ channel blockers including tetraethylammonium chloride (30 mM), 4-aminopyridine (4 mM) and apamin (100 nM) did not abolish I5-HT. Application of extracellular Cs+ (10 mM) blocked I5-HT. 8. Peak inward I5-HT became larger with increasing extracellular K+. With low Cl- pipette solution (less than 1 mM), or in low extracellular Na+ solution (26 mM), the inward I5-HT was not abolished. 9. The current-voltage relation of I5-HT displayed inward rectification. In high external K+ concentration (20 mM), the reversal potential was about -29 mV, which is close to that of the inward rectifier evoked in motoneurones by membrane hyperpolarization. 10. The current generated by 5-HT displayed similar characteristics to the inward rectifying current induced in motoneurones by membrane hyperpolarization. It is thus suggested that the 5-HT-induced current is possibly mediated by the intrinsic inward rectifier conductance.
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PMID:Direct excitation of rat spinal motoneurones by serotonin. 169 89

1. Current and voltage recordings were made from antidromically identified motoneurones (MNs) in transverse thoracolumbar spinal cord slices of neonatal rats. 2. Applied by superfusion (10-100 microM) or pressure ejection, 5-hydroxytryptamine (5-HT) elicited a slow depolarization (or inward current) in 81% and a hyperpolarization (or outward current) in 9% of responsive MNs; the responses persisted in a low-Ca2+, high-Mg2+ or tetrodotoxin (TTX)-containing solution. 3. 5-HT induced the occurrence in some MNs of excitatory postsynaptic potentials (EPSPs) or inhibitory postsynaptic potentials (IPSPs), which were reversibly eliminated by TTX, low-Ca2+, high-Mg2+ solution or by the 5-HT2 receptor antagonists ketanserin and spiperone. Also, kynurenic acid and strychnine abolished, respectively, the 5-HT-induced EPSPs and IPSPs. 4. The 5-HT depolarization was associated with increased membrane resistance, was reduced by hyperpolarization and nullified near -100 mV. The extrapolated reversal potential was shifted to a positive direction in elevated [K+]o. 5. The depolarizing response was mimicked by the 5-HT2 receptor agonist (+2-)-1(2,5-dimethyoxy-4-iodophenyl)-2-aminopropane hydrochloride (DOI) and blocked by 5-HT antagonists methysergide and cyproheptadine and by 5-HT2 antagonists ketanserin and spiperone; methiothepin and MDL 72222 were without effect. 6. The 5-HT hyperpolarization was associated with decreased membrane resistance. The 5-HT1A agonist 8-hydroxy-2-(di-N-propylamino) tetralin hydrobromide (8-OH-DPAT) mimicked the hyperpolarizing response. 7. Single or repetitive (10-30 Hz) electrical stimuli elicited in about 30% of MNs, in addition to a fast EPSP, a slow EPSP with electrophysiological characteristics similar to that of 5-HT induced depolarization. Methysergide and spiperone abolished the slow EPSPs evoked in some of these MNs. 8. It is suggested that 5-HT, acting on 5-HT2 and 5-HT1A receptors, depolarizes and hyperpolarizes the MNs by decreasing and increasing K+ conductance. Additionally, 5-HT activates, via 5-HT2 receptors, excitatory and inhibitory interneurones, thereby indirectly affecting the activity of MNs. More importantly, 5-HT released from intraspinal nerves appears to be the mediator of a slow EPSP in a population of MNs.
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PMID:5-Hydroxytryptamine responses in neonate rat motoneurones in vitro. 215 Aug 62

In the presence of a 30 nM prazosin mask, [3H]-2-(2,6-dimethoxyphenoxyethyl) aminomethyl-1,4-benzodioxane ([3H]WB4101) can selectively label 5-HT1 serotonin receptors. Serotonin exhibits high affinity (Ki = 2.5 nM) and monophasic competition for [3H] WB4101 binding in cerebral cortex. Furthermore, we have found a significant correlation (r = 0.96) between the affinities of a number of serotonergic and nonserotonergic compounds at [3H]WB4101-binding sites in the presence of 30 nM prazosin and [3H] lysergic acid diethylamide ([3H]LSD)-labeled 5-HT1 serotonin receptors in homogenates of rat cerebral cortex. Despite similar pharmacological profiles, distribution studies indicate that, in the presence of 5 mM MgSO4, the Bmax of [3H]WB4101 is significantly lower than the Bmax of [3H]LSD in various brain regions. WB4101 competition for [3H] LSD-labeled 5-HT1 receptors fits best to a computer-derived model assuming two binding sites, with the KH for WB4101 being similar to the KD of [3H]WB4101 binding derived from saturation experiments. This suggests that [3H]WB4101 labels only one of the subtypes of the 5-HT1 serotonin receptors labeled by [3H]LSD. Interestingly, the selective 5-HT1A serotonin receptor antagonist, spiperone, and the selective 5-HT1A agonist, 8-hydroxy-2-(di-n-propylamino) tetraline, exhibit high affinity and monophasic competition for [3H]WB4101 but compete for multiple [3H]LSD 5-HT1 binding sites. These data indicate that [3H]WB4101 selectively labels the 5-HT1A serotonin receptor, whereas [3H] LSD appears to label both the 5-HT1A and the 5-HT1B serotonin receptor subtypes. The divalent cations, Mn2+, Mg2+, and Ca2+ were found to markedly increase the affinity and Bmax of [3H]WB4101 binding in cerebral cortex. Conversely, the guanine nucleotides guanylylimidodiphosphate and GTP, but not the adenosine nucleotide ATP, markedly reduce the Bmax of [3H]WB4101 binding. These characteristics are typical of agonists interacting with receptors which modulate cellular function via a guanine nucleotide-regulatory subunit.
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PMID:[3H]WB4101 labels the 5-HT1A serotonin receptor subtype in rat brain. Guanine nucleotide and divalent cation sensitivity. 286 62

The specific binding of [3H]8-hydroxy-2-(di-n-propylamino)tetralin ([ 3H]8-OH-DPAT) to 5-hydroxytryptamine (5-HT)-related sites was investigated in several regions of the rat brain. Marked differences were observed in the characteristics of binding to membranes from hippocampus, striatum, and cerebral cortex. Hippocampal sites exhibited the highest affinity (KD approximately 2 nM) followed by the cerebral cortex (KD approximately 6 nM) and the striatum (KD approximately 10 nM). Ascorbic acid inhibited specific [3H]8-OH-DPAT binding in all three regions but millimolar concentrations of Ca2+, Mg2+, and Mn2+ enhanced specific binding to hippocampal membranes, whereas only Mn2+ increased it in the cerebral cortex and all three cations inhibited specific binding to striatal membranes. Guanine nucleotides (0.1 mM GDP, GTP) inhibited binding to hippocampal and cortical membranes only. As intracerebral 5,7-dihydroxytryptamine markedly decreased [3H]8-OH-DPAT binding sites in the striatum, but not in the hippocampus, the striatal sites appear to be on serotoninergic afferent fibers. In contrast, in the hippocampus the sites appear to be on postsynaptic 5-HT target cells, as local injection of kainic acid decreased their density. Both types of sites appear to be present in the cerebral cortex. The postsynaptic hippocampal [3H]8-OH-DPAT binding sites are probably identical to the 5-HT1A subsites, but the relationship between the presynaptic binding sites and the presynaptic autoreceptors controlling 5-HT release deserves further investigation.
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PMID:[3H]8-hydroxy-2-(di-n-propylamino)tetralin binding to pre- and postsynaptic 5-hydroxytryptamine sites in various regions of the rat brain. 315 80

The serotonin-1A agonists buspirone (BU) and ipsapirone (IPSA) have been demonstrated to exert antidepressant and anxiolytic effects. Since some antidepressant drugs and the antiepileptic substance carbamazepine have calcium antagonistic properties, the interaction of BU and IPSA with carbamazepine and the organic calcium channel blocker verapamil was analyzed in the low Mg2+ induced model epilepsy which has been shown to be suppressed specifically by organic calcium antagonists. BU and IPSA reduced the frequency of occurrence of low magnesium induced field potentials in CA1 and CA3 areas of the hippocampus slice preparation (guinea pigs) in a dose dependent manner. The subthreshold concentrations which yielded no effect were 5 mumol/l for BU and IPSA, 10 mumol/l for carbamazepine and 2 mumol/l for verapamil. Combinations of these subthreshold concentrations elicited a reduction in the repetition rate of field potentials. The results indicate that BU and IPSA behave additively with verapamil and carbamazepine, which may be due to a common action on the same subtype of calcium channels. It may be assumed that besides their action on 5-HT1A receptors BU and IPSA may also have calcium antagonistic properties.
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PMID:Effects of the serotonin-1A agonists buspirone and ipsapirone on field potentials in the hippocampus slice: comparison with carbamzepine and verapamil. 761 4

1. Radioligand binding with [125I]-cyanopindolol in the presence of isoproterenol was used to define the distribution of 5-HT1B receptors in the superior colliculus (SC) of adult hamsters. There was a high density of these receptors in the stratum griseum superficiale (SGS), and they were much less dense in other SC laminae. Enucleation of one eye produced a marked reduction in the density of these receptors in the contralateral SGS, suggesting that they are located primarily on retinotectal axon terminals. 2. Intracellular recording techniques were used to evaluate the effects of serotonin (5-HT) on the excitatory postsynaptic potentials (EPSPs) evoked in SC cells of adult hamsters by stimulation of the optic tract (OT) in vitro. Application of 5-HT produced a reduction of > or = 50% in OT-evoked EPSPs in 79% of the 67 cells tested. The average EPSP amplitude was 7.8 +/- 2.1 (SD) mV under control conditions and 2.7 +/- 1.9 mV in the presence of 5-HT (P < 0.01). For most of these neurons, application of 5-HT had little effect on their membrane potential or input resistance. The average percent change in membrane potential for cells tested with 5-HT was 0.5 +/- 6.0% and the average percent change in input resistance was 0.6 +/- 22.9%. 3. For four of six cells tested, application of 5-HT had no significant effects on the responses evoked by application of glutamate, either under normal bathing conditions or when the medium included low Ca2+ and high Mg2+. 4. Pharmacologic experiments indicated that the effects of 5-HT on retinotectal transmission were mimicked by the 5-HT1B agonists 1-[3-(trifluoromethyl)phenyl]-piperazine and 7-trifluoromethyl-4(4-methyl-1-piperazinyl) [1,2-a]-quinoxaline maleate and antagonized by the 5-HT1A/1B antagonists (-)-pindolol and methiothepin. The effects of 5-HT on the OT-evoked EPSP were not antagonized by either spiperone, ketanserin, 1-(2-methoxyphenyl)-4-[4-(2-phthalimido)butyl]-piperazine HBr, or [1-H-3 alpha-5 alpha-tropan-3-yl]-3,5-dichlorobenzoate. 5. Both the anatomic and physiological results are consistent with the conclusion that 5-HT presynaptically inhibits retinotectal transmission and that this effect is mediated by the 5-HT1B receptor.
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PMID:Modulation of retinotectal transmission by presynaptic 5-HT1B receptors in the superior colliculus of the adult hamster. 796 14

The mixed inhibitory and excitatory effects of 5-HT on hippocampal pyramidal cells were studied on hippocampal slices perfused with a low-Ca2+/high Mg2+ solution that blocked synaptic activity and induced spontaneous pyramidal cell discharge. Extracellular recordings of the spontaneous discharge revealed that, in 65% of the cells, 5-HT (0.5-10 microM) initially inhibited and then, upon washout, facilitated spontaneous discharge. Sometimes the off-stimulation persisted for the duration of the experiment. In 17% of the cells the response to 5-HT was only stimulatory, and in 15% the response was exclusively inhibitory. The 5-HT1 agonists, 8-hydroxy-dipropylamino-tetraline, and 5-carboxamidotryptamine produced inhibition with no excitatory responses upon washout. The inhibition was blocked by spiroxatrine indicating it was mediated by 5-HT1A receptors. The 5-HT3 agonist, 2-methyl 5-HT, had no effect, and the 5-HT2 antagonist, ketanserin, did not alter the excitatory responses to 5-HT. This indicates the excitatory response is not mediated by 5-HT2 or 3 receptors. Cisapride, a 5-HT4 agonist increased pyramidal cell discharge. The 5-HT3 & 4 antagonist, ICS 205-930 antagonized the excitatory responses to 5-HT, alpha-methyl 5-HT, and cisapride, indicating the excitatory response is mediated, in part, by 5-HT4 receptors. The phosphodiesterase inhibitor, isobutyl-methyl-xanthine, stimulated pyramidal cell discharge and potentiated the response to cisapride. This further suggests 5-HT4 receptor involvement since these receptors are positively coupled to adenylyl cyclase.
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PMID:5-HT1A and 5-HT4 receptor colocalization on hippocampal pyramidal cells. 798 94

Insect cell expression systems are used to characterize signaling components such as G protein-coupled receptors. As such, one must know whether endogenous G proteins couple to non-native receptors. We examined G protein linkages after infection of Sporodoptera frugiperda (Sf9) cells with a baculovirus encoding the 5-HT1A receptor. Receptor expression was confirmed by immunoblot. Some of the receptors were functional, showing guanine nucleotide-sensitive binding to the specific agonist ligand [3H]8-hydroxy-2-(di-n-propylamino)-1,2,3,4-tetranaphthalene). Peak expression (approximately 150 fmol/mg of membrane protein) was attained approximately 72-96 h post-infection. 5-HT-increased covalent binding of [32P]GTP-azidoanilide to a 40 kDa band, which was identified as a G protein by nucleotide blocking, Mg2+ dependence, and immunoblot and immunoprecipitation studies. The band comigrated with 1) pertussis toxin substrate(s), and 2) a band recognized by two G(o) alpha antisera and one common to heterotrimeric G protein alpha-subunits, but not by sera specific for Gs alpha or G(i) alpha. Labeled species could be precipitated with a G(o) alpha antiserum. 5-HT-increased labeling of the band was prevented by preincubation with pertussis toxin. These studies suggest that the 5-HT1A receptor couples effectively to native insect cell G(o)-like proteins.
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PMID:Human 5-HT1A receptor expressed in insect cells activates endogenous G(o)-like G protein(s). 817 13


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