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)

In addition to the classical transmitters noradrenaline and acetylcholine, other transmitters have been identified in perivascular nerves, including 5-hydroxytryptamine, ATP and a number of peptides. This paper discusses pre- and postjunctional neuromodulation of vascular transmission, and cotransmission involving noradrenaline, ATP and neuropeptide Y in sympathetic nerves, acetylcholine and vasoactive intestinal polypeptide in parasympathetic nerves, and substance P, calcitonin gene-related peptide and ATP in 'sensory-motor' nerves. Vasomotor nerves derived from intrinsic neurones, for example in the heart and gut, are also discussed. Subpopulations of endothelial cells store and release a variety of substances, including acetylcholine, substance P, ATP, 5-hydroxytryptamine, vasopressin and angiotensin II, that act on receptors on endothelial cells and lead to the production of endothelium-derived relaxing factor (identified as nitric oxide) which, in turn, produces vasodilation in response to changes in flow and hypoxia. Endothelium-derived contracting factors such as endothelin may also be released. There appears to be a resting dynamic balance between endothelium-derived vasodilator tone and sympathetic vasoconstrictor tone, which is altered under different physiological and pathophysiological circumstances. Long-term (trophic) interactions between perivascular nerves and endothelial cells are discussed, as are the changes in vascular control mechanisms that occur with ageing and hypertension and in the nerves that remain following trauma or surgery.
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PMID:Local mechanisms of blood flow control by perivascular nerves and endothelium. 198 71

The effect of a potassium channel activator, cromakalim (BRL 34915), on excitatory nonadrenergic noncholinergic (e-NANC) and cholinergic neural bronchoconstriction was studied in guinea pigs. We monitored airway opening pressure as an index of airway caliber. After atropine (1 mg/kg iv.) and propranolol (1 mg/kg iv.), bilateral vagal stimulation evoked an e-NANC response. Cromakalim did not alter basal airway caliber, but reduced the e-NANC response to vagal stimulation in a dose-dependent manner, with a maximal inhibition of 71.9 +/- 9.2% (mean +/- S.E.) at 400 micrograms/kg i.v. (P less than .01). Pretreatment with phentolamine (2.5 mg/kg i.v.) had no effect on the inhibitory response produced by cromakalim but glibenclamide (25 mg/kg iv.), an inhibitor of ATP-sensitive potassium channels, blocked its effect. Cromakalim had no inhibitory effect on exogenous substance P (5-25 micrograms/kg i.v.)-induced bronchoconstriction. In animals depleted of tachykinins by capsaicin (50 mg/kg s.c.) pretreatment, cromakalim had an inhibitory effect on both vagalcholinergic and exogenous acetylcholine (0.3-2 micrograms/kg i.v.)-induced bronchoconstriction, although the inhibitory effect was significantly greater on neural stimulation. We conclude that potassium channels modulate both e-NANC and cholinergic neurotransmission, and to a lesser extent acetylcholine-induced bronchoconstriction in guinea pig airways.
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PMID:A potassium channel activator modulates both excitatory noncholinergic and cholinergic neurotransmission in guinea pig airways. 210 38

Potassium (K+) channels are present on airway smooth muscle cells, and their activation results in hyperpolarization and relaxation. Because these effects may have therapeutic relevance to asthma, we examined the activity of the active L-enantiomer of cromakalim, BRL 38227 (lemakalim), a selective K+ channel activator, against a variety of spasmogens in human bronchi in vitro. BRL 38227 produced relaxation of bronchi with either resting tone or tone induced by histamine, carbachol, neurokinin A, or KCl (20 mM) with an efficacy (%Emax) of 60 to 80% of that of isoproterenol and an EC50 (the concentration producing 50% of the maximal response) of 0.2 to 0.6 microM. However, BRL 38227 had a significantly lower potency and efficacy against 80 mM KCl than against the other spasmogens (%Emax, 12% of isoproterenol and EC50, 7.2 microM; p less than 0.005 and p less than 0.001, respectively), supporting the view that BRL 38227 acts on K+ channels. The D-enantiomer BRL 38226 was less potent (EC50, 2.6 microM) than BRL 38227 and produced only 43% of the isoproterenol relaxation. BRL 38227-induced relaxation was significantly inhibited by the ATP-sensitive K+ channel antagonist glibenclamide (0.1 and 1 microM), with a three-fold and eight-fold shift to the right of the dose-response curve, respectively. In the presence of a maximal relaxation induced by the calcium voltage-dependent channel antagonist verapamil, BRL 38227 was able to produce an additional 37% relaxation response. Thus, BRL 38227 is an effective relaxant of human airway smooth muscle, and this activity results from an action at K+ channels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The action of a potassium channel activator, BRL 38227 (lemakalim), on human airway smooth muscle. 212 15

The recent discoveries of vascular neuroeffector control mechanisms, involving a wide variety of neurohumoral agents, pre- and postjunctional neuromodulation, and cotransmission, leave the field poised for growth in new directions. Some of these are outlined in this article, including: the development of methods for quantitation of the pattern and density of different types of perivascular nerves; exploration of the potent actions of purine nucleotides and nucleosides on vascular smooth muscle and/or endothelial cells, particularly in relation to the development of drugs of therapeutic potential; expansion of studies of the regulatory implications of cotransmitter release of ATP together with noradrenaline from some sympathetic perivascular nerves and of VIP together with acetylcholine from some parasympathetic nerves; autoradiographic localization of receptors for monoamines, peptides of and purines in blood vessels; wider studies of "axon reflex" control of the circulation and of the roles of substance P; investigation of development, aging, and regeneration of different perivascular nerve types, and the long-term "trophic" actions of some neurohumoral agents. Lastly, the time is ripe to study abnormalities in neurohumoral control of vessels in disease and after chronic exposure to drugs.
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PMID:Neurohumoral control of blood vessels: some future directions. 240 87

ATP and substance P were examined as possible mediators of non-adrenergic, non-cholinergic excitatory transmission in chicken rectum. ATP and the non-degradable ATP analogue, alpha, beta-methylene ATP, mimicked the response to nerve stimulation. Substance P either produced a maintained contraction after a long latency or was inactive. After desensitization of the P2-purinoceptor by alpha, beta-methylene ATP, the responses to ATP and nerve stimulation were abolished, while the response to carbachol was little affected. It is concluded that ATP may be the transmitter in non-adrenergic, non-cholinergic excitatory nerves supplying the chicken rectum.
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PMID:Investigations into the identity of the non-adrenergic, non-cholinergic excitatory transmitter in the smooth muscle of chicken rectum. 241 Jan 83

In the guinea-pig bladder, contractile responses to substance P (0.3 microM) and VIP (3 microM) were unaffected by P2-purinoceptor desensitization with alpha,beta-methylene ATP (3 X 10(-6) M), while the responses to stimulation of the non-cholinergic excitatory nerves (4-16 Hz) were abolished. The evidence presented suggests that ATP or a related purine nucleotide, and not VIP or substance P, is responsible for the non-cholinergic excitatory component of the nerve-mediated response.
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PMID:Evidence against VIP or substance P being the transmitter in non-cholinergic excitatory nerves supplying the guinea-pig bladder. 241 May 87

Human lung bronchiolar segments (about 2 mm long and with a diameter of 0.6-1.5 mm) were dissected and circular muscle tension recorded. Airways were identified by histology and in some preparations by relaxant responses to noradrenaline (0.1-10 microM). Adenosine (1-100 microM) produced only very weak contractions, whereas carbachol (EC50 = 0.40 microM), histamine (EC50 = 0.63 microM), prostaglandin D2 (EC50 = 0.50 microM), substance P (EC50 = 4.6 microM) and ATP (1-100 microM) produced much greater ones. The contractions generally developed rapidly and were stable. The mean maximum increase in tension achieved with the most efficient constrictor, carbachol, was 0.5 g. ATP was the least efficient producing only about 40% of carbachol's maximum. Terbutaline, theophylline and enprofylline relaxed carbachol (2.0 microM = EC70)-contracted preparations. Terbutaline (3-3000 nM) relaxed 4 out of 11 bronchioles. Theophylline (10-4000 microM) and enprofylline (1-400 microM) consistently relaxed the bronchiolar preparations including those exhibiting little responsiveness to the beta 2-adrenoceptor agonist. Since enprofylline (which does not block adenosine receptors) was a five times more potent relaxant than theophylline and since adenosine produced only weak contractions, antagonism of adenosine receptors is probably not involved in relaxation of the small airways. It is suggested that the present data, which apparently differ from those obtained with lung parenchymal strips, are of relevance for human small airways responsiveness.
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PMID:Effects of bronchoconstrictors and bronchodilators on a novel human small airway preparation. 241 19

The effects of the putative neurotransmitters acetylcholine, adrenaline, adenosine, ATP, bombesin, 5-hydroxytryptamine, met-enkephalin, neurotensin, somatostatin, substance P and VIP have been investigated in the perfused intestine of the cod, Gadus morhua. The presence and distribution of the different types of nerves was investigated with immunohistochemistry and Falck-Hillarp fluorescence histochemistry. A spontaneous rhythmic activity of the perfused preparations usually occurred within a few minutes from the start of the experiment. This activity was diminished or abolished by addition of atropine, methysergide or tetrodotoxin to the perfusion fluid. Acetylcholine, 5-hydroxytryptamine or substance P caused a contraction of the intestinal wall. The response to acetylcholine was blocked by atropine but not by tetrodotoxin, while the response to 5-hydroxytryptamine was blocked by methysergide and usually also by tetrodotoxin. This indicates that the effect of acetylcholine is direct on the muscle cells, while the effect of 5-hydroxytryptamine may be at least partly via a second neuron. All adrenergic agonists (adrenaline, isoprenaline and phenylephrine) had a dominating inhibitory effect on the intestine. Experiments with antagonists showed that the inhibition is due to stimulation of both alpha-adrenoceptors and beta-adrenoceptors. ATP, adenosine and somatostatin also caused a relaxation of the intestinal wall, often followed by a contraction. Met-enkephalin produced variable responses, either a relaxation, a contraction or both. Bombesin caused a weak inhibition, if anything. Neurotensin and VIP did not visibly affect the intestinal motility. 5-HT-, substance P- and VIP-like immunoreactivity and catecholamine fluorescence were observed in the myenteric plexus, submucosa and muscle layers in all parts of the intestine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neurotransmitters in the intestine of the Atlantic cod, Gadus morhua. 241 59

In helical strips cut from the small mesenteric artery of guinea-pig (GPSMA) (0.3-0.6 mm o.d.) relaxations induced by substance P were more susceptible to damage of the endothelium by rubbing than were relaxations evoked by carbachol. Relaxations induced by 2-nicotin-amidoethyl nitrate (SG75) were unaffected by this procedure. Relaxations evoked by the calcium ionophore A23187 persisted when those to substance P had been abolished by rubbing the endothelium in GPSMA, rabbit mesenteric and rabbit ear arteries. In guinea-pig pulmonary artery and aorta relaxations to A23187 were lost after this treatment. Carbachol and SG75 were more effective in inhibiting phasic than tonic tension induced by noradrenaline in GPSMA, but substance P was more effective against tonic tension. In the GPSMA, carbachol and substance P inhibited tension produced by noradrenaline to similar extents. However, carbachol was less, and substance P much less effective in inhibiting tension evoked by high-potassium solution than by noradrenaline. Susceptibility of relaxations to blockade by haemoglobin in GPSMA was: substance P greater than carbachol greater than ATP greater than SG75. The membrane potential of smooth muscle cells in the media of the GPSMA was recorded by microelectrode. Carbachol, but not substance P, hyperpolarized the cells both in the presence and absence of noradrenaline at concentrations which relaxed the muscle. These results suggest a heterogeneity in the mechanisms of endothelial-dependent relaxations induced by various vascular relaxants.
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PMID:Endothelial-dependent relaxant actions of carbachol and substance P in arterial smooth muscle. 242 70

The apomorphine-induced inhibition of histamine release in rat peritoneal mast cells was studied by means of secretagogues stimulating different pathways of mast cell activation. Apomorphine inhibited the mast cell response to all releasing agents (lysophosphatidylserine plus nerve growth factor, compound 48/80, substance P, ATP, tetradecanoylphorbolacetate, melittin). The IC50 ranged from 4 microM to 24 microM at concentrations of secretagogues releasing 30-50% of mast cell histamine. However, the potency of the drug decreased at higher secretagogue concentrations. Mast cells, pretreated with apomorphine and washed, released little histamine upon stimulation. The secretory response could be partially restored on increasing the concentration of secretagogues. The results suggest that apomorphine affects a regulatory step controlling the terminal sequence of mast cell secretory activity. As indicated by the reduced potency of the drug, the control by the apomorphine-sensitive reaction loses efficiency under conditions of massive histamine release.
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PMID:Apomorphine-induced inhibition of histamine release in rat peritoneal mast cells. 242 81

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