UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The carcinoid syndrome can arise when effluent blood from carcinoid tumor tissue gains access to the systemic, as opposed to the portal, venous system. Features include facial flushing, diarrhea, wheezing, right-sided cardiac lesions, and retroperitoneal fibrosis. Attacks of flushing, diarrhea, and wheezing can be provoked by bolus injections of adrenaline, noradrenaline, or pentagastrin. While serotonin usually predominates, carcinoid tumors can also secrete, in varying proportions, 5-hydroxytryptophan, kallikrein, kinins, substance P and other neuropeptides, prostaglandins, catecholamines, and histamine. Of these, serotonin, kinins, histamine, and substance P are possible mediators of flushes; serotonin and substance P of hyperperistalsis; and serotonin, kinins, or histamine of bronchial constriction. Despite the gross excess of circulating serotonin, nearly all is platelet bound and therefore inactive. Very little is free in plasma. Demonstration of a contribution of serotonin to carcinoid attacks requires assay of free plasma serotonin; measurements of whole blood or serum serotonin are of little value. Some, but not all, provoked flushes have been shown to be accompanied by a rise in free plasma serotonin or substance P; an increase in circulating kinins has been more consistently shown. The 5HT2 antagonist ketanserin has been found to inhibit both provoked and spontaneous attacks of flushing, diarrhea, and dyspnea in a proportion of patients with carcinoid syndrome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Carcinoid syndrome and serotonin: therapeutic effects of ketanserin. 228 51

The authors describe the anatomical features and physiological properties of central serotonergic neurons. The central serotonin neurons (part of which store peptides [substance P, TRF, enkephalins] in addition to 5HT) are highly collateralized reticular-type brain stem neurons receiving multi-modal afferent information from ascending sensory and descending motor pathways. They are under control by noradrenergic, peptidergic and and gaba-ergic projection neurons and interneurons. Furthermore, they establish variable synaptoid and synaptic contacts to neuronal, glial and secretory targets throughout the entire neuraxis and send terminal branches into the ventricular CSF space. Firing rate and transmission activity appear to be controlled in a complex and rather rigid manner by 5HT release-dependent dendrodendritic and dendrosomatic inhibition via autoreceptors (which also regulate release at the axon terminals) and via transsynaptic inhibitory feedback circuits which may involve gabaergic projection and interneurons. 3H-imipramine appears to bind to an "imipramine recognition site" in the vicinity of the 5HT carrier, and to a variety of other transport and (postsynaptic) receptor sites (NA uptake, H1, 5HT2- and alpha 1-binding sites). Circumstantial evidence points to an as yet undetermined role of the postsynaptic 5HT-1-binding sites in neurotransmission. 5HT-2-binding sites fulfil the criteria for receptors: binding affinity of antagonists to these sites correlates significantly with their potency to inhibit behavioral excitation in rats elicited by 5-hydroxytryptophan or 5HT agonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Anatomical features and physiological properties of central serotonin neurons. 299 53

1. The effect of 5-hydroxytryptamine (5-HT) was studied on excitatory neurally mediated non-adrenergic non-cholinergic (NANC) contractions evoked by electrical field stimulation (EFS) in guinea-pig isolated bronchi. 2. 5-HT (0.1-100 microM) produced a concentration-dependent inhibition of the excitatory NANC response with 50.9 +/- 5.0% (n = 5, P < 0.01) inhibition at 100 microM. This inhibition was not significantly affected by the 5-HT2 antagonist, ketanserin (1 microM) when inhibitions (+/- ketanserin) at each concentration of 5-HT were compared by unpaired t tests; however, this concentration appeared to produce a leftward shift (approximately 10 fold) of the 5-HT concentration-inhibition curve. Ketanserin (1 microM) was effective in blocking bronchoconstriction evoked by activation of 5-HT2A receptors on airway smooth muscle. In the presence of ketanserin (1 microM) 5-HT (100 microM) evoked an inhibition of 57.4 +/- 5.9% (n = 5, P < 0.01) with an EC50 of 0.57 microM. 3. Inhibition evoked by 5-HT (0.1-100 microM) was unaffected by the alpha-adrenoceptor antagonist phentolamine (1 microM), the beta 2-adrenoceptor antagonist, ICI 118551 (0.1 microM), the 5-HT1A/B antagonist, cyanopindolol (1 microM) or the 5-HT3/4 antagonist, ICS 205-930 (1 microM). 4. Methiothepin (0.1 microM) produced an insurmountable inhibition of the effect of 5-HT (0.1-100 microM), reducing the maximum inhibition produced by 5-HT (100 microM) to 30.2 +/- 5.0% (n = 5, P < 0.001) and suggesting a non-competitive antagonism. Methiothepin inhibited the effect of 5-HT (10 microM) in a concentration-dependent manner with an IC50 of 81 nM. 5. Selective 5-HT receptor agonists were also tested on excitatory NANC responses. 5-Carboxamidotryptamine (5-CT, 0.1-100 MicroM) was the most potent, producing a concentration-dependent inhibition with an EC50 of 0.13 MicroM. Calculation of approximate IC25 values (concentration of the agonist required to give a 25% inhibition of the excitatory NANC response) gave a rank order of potency 5-CT > 5-HT> > 8-hydroxy-dipropylaminotetralin (8-OH-DPAT) >alpha-methyl-5-hydroxytryptamine (alpha-Me-5HT). Sumatriptan, 5-methoxytryptamine (5-MeOT) and 2-methyl-5-hydroxytryptamine (2-Me-5HT) were essentially inactive with IC25> 100 MicroM.6. 5-HT (10 microM) did not significantly affect contractile responses to exogenously applied substance P(1 nM-10 Microm).7. The effect of 5-HT was unchanged after incubation with the nitric oxide (NO) synthase inhibitor L-NG-nitroarginine methyl ester (L-NAME, 100 Microm). However, pretreatment with charybdotoxin (ChTX,0.1-30 nM), a blocker of the large conductance Ca2+-activated K+channel (K+ca), produced a concentration-dependent inhibition of the effect of 5-HT (10 MicroM).8. 5-HT evokes a concentration-dependent inhibition of e-NANC bronchoconstriction in guinea-pig isolated bronchi but does not affect cumulative concentration-dependent contractile responses to substance P, suggesting that inhibition is via a prejunctional receptor. Effects of selective antagonists and agonists suggest that an atypical 5-HT receptor mediates this inhibition. The inhibitory effect of 5-HT does not involve the production of NO, but may involve the opening a ChTX-sensitive K+ca channel.These data suggest that an atypical 5-HT receptor inhibits the release of neuropeptides from sensory C fibres and may act as other inhibitory neuromodulators via the opening of a common K'channel.
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PMID:Inhibition of excitatory non-adrenergic non-cholinergic bronchoconstriction in guinea-pig airways in vitro by activation of an atypical 5-HT receptor. 751 94

There are two primary output pathways from the striatum: a projection to the globus pallidus, and projection to the substantia nigra. Certain striatally expressed neuropeptides are differentially distributed between these two pathways. Specifically, enkephalin is expressed in striatopallidal neurons, whereas substance P and dynorphin are expressed in striatonigral neurons. Several serotonin receptors are also prominently expressed in the striatum, but little is known about how they fit into the molecular neuroanatomy described above. We used double-label in situ hybridization to determine the striatal distribution of the mRNAs of the serotonin2A (5-HT2A), serotonin2C (5-HT2C), and serotonin6 (5-HT6) receptors in relation to enkephalin, substance P, and dynorphin expressing output neurons. Rat brain sections were simultaneously hybridized with an 35S riboprobe for one of the serotonin receptors and a digoxygenin labeled riboprobe for one of the neuropeptides. Sections were examined by using brightfield microscopy, and the degree of colocalization of the two mRNAs determined. All the serotonin receptors colocalized extensively with all three of the neuropeptides examined. None of the serotonin receptors showed preferential colocalization in striatopallidal (enkephalin containing), or striatonigral (substance P or dynorphin containing) cells. The 5-HT2A and 5-HT2C mRNAs displayed a differential distribution with regard to the scattered islands of strongly dynorphin mRNA positive cells, which are thought to reside in the striatal patch compartment. Within these islands, 5-HT2C mRNA expression was much higher than in surrounding areas. 5-HT2A mRNA showed the opposite pattern with decreased expression over dynorphin rich cell clusters.
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PMID:Colocalization of serotonin receptor subtypes 5-HT2A, 5-HT2C, and 5-HT6 with neuropeptides in rat striatum. 879 65

The effects of lowered serotonin (5-hydroxytryptamine; 5-HT) neurotransmission on preprotachykinin (PPT) and preproenkephalin (PPE) mRNA levels were examined in subregions of the striatum. Adult male rats were treated systemically with para-chlorophenylalanine (pCPA; 350 mg/kg single i.p. injection) which reduced forebrain 5-HT amounts to approximately 20% of saline-injected controls at 24 and 48 h. As measured by Northern analysis, PPT and PPE mRNA levels were elevated 50% and 160% respectively in the anterior ventromedial striatum (region included nucleus accumbens). PPT mRNA levels were raised 90% in posterior striatum (at the level of the globus pallidus) by 48 h post-pCPA injection. To determine if increased PPT and PPE mRNA levels represented a transient response to brief 5-HT inhibition, additional experiments were performed to provide continual suppression of 5-HT within the striatum. First, rats received daily intraperitoneal injections of saline or the 5-HT1A receptor agonist, 8-OH-DPAT (1 mg/kg), for 7 days to reduce 5-HT release from raphestriatal terminals. In a parallel experiment, the serotonin neurotoxin, 5,7-dihydroxytryptamine (5,7-DHT, 5 micrograms), was stereotaxically injected into the striatum as a means to permanently remove 5-HT terminals. Although levels of each mRNA species were differentially sensitive to 5,7-DHT or 8-OH-DPAT, PPT and PPE mRNAs were lowered between 30-55% within the anterior dorsolateral and ventromedial striatum. Although these results support previous studies suggesting an overall positive regulatory role of serotonin on striatal tachykinin biosynthesis, PPT and PPE gene regulation in certain striatal subregions may by differentially sensitive to lowered 5-HT neurotransmission. This suggestion is supported by observations that acute systemic stimulation of 5-HT2A/C receptors with DOI (7 mg/kg single i.p. injection) raised PPT and PPE mRNA levels within anterior dorsolateral (30-60%) and posterior (100-200%) striata, but not within the anterior ventromedial striatum.
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PMID:Preprotachykinin and preproenkephalin mRNA expression within striatal subregions in response to altered serotonin transmission. 889 Dec 65

The cholinergic system exerts an important modulatory effect on hippocampal functions. Presynaptic inhibition of hippocampal and neocortical acetylcholine (ACh) release by serotonin (5-HT) has been reported in both rat and human brain. There is some controversy, however, concerning the 5-HT receptor which mediates the inhibitory effects of 5-HT. Using slices of the hippocampal formation of rat prelabelled with [3H]-overflow ([3H]-choline, superfused and depolarized electrically (2 min, 3 Hz, 2 ms, 24 mA) or by K+ (20 mM) we observed that 5-HT inhibits hippocampal and entorhinal [3H]-overflow ([3H]-ACh release) by 5-HT1B receptors located on cholinergic terminals. However, this inhibition requires the functional elimination of substance P/gamma-aminobutyric acid (SP/GABA) interneurons which express 5-HT2A receptors as shown by in situ hybridisation histochemistry. Activation of these somadendritically located 5-HT2a receptors facilitates SP release. SP, in turn, stimulates hippocampal [3H]-ACh release through NK1 receptors present on cholinergic terminals. These findings suggest close links between cholinergic afferents, SP interneurons and 5-HT2 receptors. A loss of cholinergic afferents and 5-HT2 receptors, along with a reduction in substance P-immunoreactive neurons, have been observed in the brains of patients suffering from Alzheimer's disease, suggesting the concept that these three alterations reflect a disruption of a functional unit. The present findings might help to explain early pathological changes in Alzheimer's disease.
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PMID:Modulation of cortical acetylcholine release by serotonin: the role of substance P interneurons. 893 61

The role of 5-hydroxytryptamine (5-HT) receptor subtypes in acetylcholine (ACh) release induced by dopamine or neurokinin receptor stimulation was studied in rat striatal slices. The dopamine D1 receptor agonist SKF 38393 potentiated in a tetrodotoxin-sensitive manner the K(+)-evoked [3H]ACh release while SCH 23390, a dopamine D1 receptor antagonist, had no effect. [3H]ACh release was decreased by the dopamine D2 receptor agonist LY 171555 (quinpirole) and slightly potentiated by the dopamine D2 receptor antagonist haloperidol. The selective neurokinin NK1 receptor agonist [Sar9, met(O2)11]SP also potentiated K(+)-evoked release of [3H]ACh. GR 82334, a NK1 receptor antagonist, blocked not only the effect of [Sar9, met(O2)11]SP but also the release of ACh induced by the D1 receptor agonist SKF 38393. Among the 5-HT agents studied, only the 5-HT2A receptor antagonists ketanserin and ritanserin were able to reduce the ACh release induced by dopamine D1 receptor stimulation. Mesulergine, a more selective 5-HT2C antagonist, showed an intrinsic releasing effect but did not affect K(+)-evoked ACh release induced by SKF 38393. Methysergide and methiothepin, mixed 5-HT1/2 antagonists, as well as ondansetron, a 5-HT3 receptor antagonist, showed an intrinsic effect on ACh release, their effects being additive to that of SKF 38393. 5-HT2 receptor agonists were ineffective. However, the 5-HT2 agonist DOI was able to prevent the antagonism by ketanserin of the increased [3H]ACh efflux elicited by SKF 38393, suggesting a permissive role of 5-HT2A receptors. None of the above indicated 5-HT agents was able to reduce the ACh release induced by the selective NK1 agonist. The results suggest that 5-HT2 receptors, probably of the 5-HT2A subtype, modulate the release of ACh observed in slices from the rat striatum after stimulation of dopamine D1 receptors. It seems that this serotonergic control is exerted on the interposed collaterals of substance P-containing neurons which promote ACh efflux through activation of NK1 receptors located on cholinergic interneurons.
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PMID:5-HT2 receptor regulation of acetylcholine release induced by dopaminergic stimulation in rat striatal slices. 920 Apr 94

We recently described a sensory nerve inhibitory system that mediates relaxation in the airways of Sprague-Dawley rats. Results of several studies have shown that this system protects the lungs against injury induced by toxic stimuli. Whether a similar inhibitory system exists in the airways of Fischer 344 (F344) rats is unknown. Because this rat strain is used extensively in lung toxicological research, the purpose of this study was to determine whether a sensory nerve inhibitory system exists in intrapulmonary bronchi and tracheae isolated from F344 rats. In intrapulmonary bronchi at resting tone, substance P (1.0 microM) evoked a transient contraction that was inhibited by the 5-HT2A receptor antagonist, ketanserin. Exposing airway segments to compound 48/80 to degranulate mast cells also abolished substance P-induced contractions. Inhibition of cyclooxygenase with meclofenamate augmented markedly the contraction to substance P in the intrapulmonary bronchi. In intrapulmonary bronchi that were contracted with bethanechol, substance P evoked a biphasic response characterized by an increase in tension above that induced by bethanechol followed by relaxation. Incubation of the airways with ketanserin abolished the contractile portion of the response; relaxation responses were augmented after ketanserin. In contracted intrapulmonary bronchi that had been treated with compound 48/80, substance P and capsaicin caused relaxation responses that were inhibited markedly or were nearly abolished by the NK1 receptor antagonist, RP67580, by meclofenamate, and by denuding the epithelium. Capsaicin-induced relaxation responses also were abolished by desensitization of C-fibers with capsaicin. Only ketanserin-sensitive contractile responses were observed in response to substance P in tracheal segments. We conclude that a sensory nerve inhibitory system exists in the intrapulmonary airways of F344 rats. The presence of this inhibitory system in F344 rat airways may play a protective role against lung injury induced by inhaled toxicants.
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PMID:Sensory nerve-mediated inhibitory responses in airways of F344 rats. 927 6

We investigated whether the two output pathways of the striatum are differently affected by the novel atypical drug risperidone and the conventional typical antipsychotic drug haloperidol. To this end, changes in mRNA levels of preproenkephalin-A, preproenkephalin-B, and preprotachykinin were determined in the rat striatum following chronic drug treatment for 14 days, using quantitative in situ hybridization. Furthermore, we studied the contribution of the dopamine D2 and serotonin 5-HT2A antagonist components of risperidone in establishing its effects on neuropeptide mRNA levels in the striatum. The results showed that both risperidone and haloperidol had major effects on the preproenkephalin-A mRNA and thus on the indirect striatal output route, whereas they had minor effects on preproenkephalin-B and preprotachykinin mRNA, contained by the direct output route. When both drugs were administered in the same dose, preproenkephalin-A mRNA was much more elevated by haloperidol than by risperidone. However, when doses of risperidone and haloperidol were modified to attain comparable dopamine D2 receptor occupancy, the drugs had comparable effects on preproenkephalin-A mRNA levels. It was further found that 5-HT2A/C receptor blockade with ritanserin had only modest effects on preproenkephalin-B and preprotachykinin mRNA levels and did not affect preproenkephalin-A mRNA levels. We conclude that risperidone and haloperidol, administered in the same dose, differently affect the striatal output routes. Furthermore, the results suggest that the effects of risperidone on neuropeptide mRNA levels are fully accounted for by its D2 antagonism and that no indication exists for a role of 5-HT2A receptor blockade in this action.
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PMID:Effects of risperidone and haloperidol on tachykinin and opioid precursor peptide mRNA levels in the caudate-putamen and nucleus accumbens of the rat. 951 39

Quantitative autoradiography was used to examine possible adaptive changes in serotonin 5-HT1B/1D and 5-HT2A/2C receptor binding sites in adult rat basal ganglia, after partial or severe lesions of serotonergic neurons produced by intraraphe injections of variable amounts of 5,7-dihydroxytryptamine. In controls, the 5-HT1B/1D sites labeled with S-CM-G[125I]TNH2 were evenly distributed in the core and the shell of the nucleus accumbens. The density of 5-HT1B/1D sites was higher in the ventral than dorsal part of the striatum and no regional differences were detected along the rostrocaudal axis of the structure. The 5-HT2A/2C sites labeled with [125I]DOI were preferentially distributed in the mediodorsal striatum and higher densities were detected in the shell than core of the nucleus accumbens. Following 5,7-dihydroxytryptamine injections, there were no changes in binding of either receptor subtype after partial lesions entailing 80-90% 5-HT depletions. After severe 5-HT depletions (over 95%), large increases in 5-HT1B/1D binding were observed in the substantia nigra (78%), but no changes took place in the globus pallidus. Increases in 5-HT1B/1D binding were also detected in the shell of the nucleus accumbens (27%). Similar sized increases in 5-HT2A/2C binding (22%) were restricted to the medial striatum. The present results suggest a preferential association between 5-HT1B/1D receptors and the striatonigral neurons containing substance P, as indicated by the striatal distribution of these receptors and their selective increases in the substantia nigra after severe 5-HT deprivation. We recently proposed a similar relationship between the 5-HT4 receptors and the striatopallidal neurons containing met-enkephalin. Moreover, the increases in 5-HT1B/1D binding in the substantia nigra and in the shell of the nucleus accumbens reinforce the view of an implication of this receptor subtype in motor functions. In contrast, the prominent increases in 5-HT2A/2C binding after severe 5-HT deprivation as restricted to the medial region of the striatum and suggest up-regulation of most probably 5-HT2C receptors in a region implicated in cognitive functions.
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PMID:Selective increases in serotonin 5-HT1B/1D and 5-HT2A/2C binding sites in adult rat basal ganglia following lesions of serotonergic neurons. 963 May 49

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