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)

Metoclopramide has a dual effect on intestinal smooth muscle. Low concentrations of metoclopramide cause potentiation of the responses to substance P, acetylcholine, histamine and barium chloride on the guinea-pig ileum. Higher concentrations produce a depression of smooth muscle responses which is characteristic of the tertiary amine local anesthetics. Neural pathways are involved in the mechanism of potentiation, since the enhancement of the responses to the agonists is abolished by tetrodotoxin. Atropine partially antagonizes the potentiating effect of metoclopramide implying that activation of muscarinic receptors is a contributing factor, but this does not fully explain the potentiation.
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PMID:The effects of metoclopramide in modifying the response of isolated guinea-pig ileum to various agonists. 0 87

The effect of various local anesthetics and other substances known to modify calcium fluxes in cells, on submaximal responses of guinea-pig ileum to substance P, acetylcholine, histamine and barium chloride was determined. Procaine caused a dose-related depression of the response to all the agonists but the response to substance P was far less susceptible to this depression. Lidocaine, bupivacaine, pramoxine and W 6211 also caused a lower degree of attenuation of the response to substance P than the responses to acetylcholine, histamine and barium chloride. Verapamil caused a dose-related depression of responses to all the agonists equally. The use of calcium-free solutions abolished responses to substance P, acetylcholine and histamine. The response to barium chloride was less affected by calcium withdrawal but was reduced markedly. In the presence of 10 mM lanthanum chloride, the response to all the agonists was abolished. The relative resistance of the substance P responses to antagonism by local anesthetics suggests that different and more efficient channels for calcium entry into the smooth muscle cell are involved.
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PMID:Interactions between local anesthetics and spasmogens on the guinea-pig ileum. 93 95

1. Intracellular recordings were made from myenteric AH neurones of the guinea-pig ileum in vitro. Some experiments were done with a single-electrode voltage clamp to measure membrane currents. 2. Substance P (SP) applied by superfusion (10 nM-300 nM), pressure ejection (100 nM-10 microM, 760 mmHg, for 10-20 ms) or ionophoresis (1 mM, 100 nA, for 0.2 s) caused a membrane depolarization and an inward current, associated with a decrease in potassium conductance. 3. The SP-induced depolarization was abolished within 15 min by superfusion with calcium-free/high-magnesium (10 mM) solution or solutions containing cobalt, manganese or nickel at 1-3 mM. The response persisted even after 40-60 min of superfusion with calcium-free/normal-magnesium (1.2 mM) solution. In all these solutions, synaptic potentials were abolished within 5 min. 4. SP inhibited a slowly developing outward current and an outward tail current during and after a long depolarizing command pulse (2-10 s), and an outward after-current following single or multiple brief depolarizing command pulses (10-50 ms). These outward currents were suppressed in calcium-free/high-magnesium solution. 5. SP depressed both a calcium-dependent slow after-hyperpolarization following the action potential and an outward after-current preceded by a brief depolarizing command. Both the SP-induced depolarization and the SP-induced inward current were augmented when the peptide was pressure-ejected during the recovery phase of the slow after-hyperpolarization and during that of the slow outward after-current, but both of them were inhibited or almost abolished when SP was applied immediately after spike initiation or a brief depolarizing command. 6. The SP-induced response was depressed by barium (1-2 mM). The SP response was not inhibited by tetraethylammonium at low concentrations (5-10 mM), but was depressed at high concentration (20 mM). 7. Superfusion (1-10 nM) or pressure application of a calcium ionophore, A23187, inhibited or even reversed the SP depolarization and the SP-induced inward current. 8. These results indicate that SP inhibits activation of a calcium-dependent potassium conductance which contributes to both the slow after-hyperpolarization and the resting membrane potential. SP may affect the process by which calcium activates this potassium conductance.
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PMID:Substance P inhibits activation of calcium-dependent potassium conductances in guinea-pig myenteric neurones. 137 30

1. Whole-cell recording was used to investigate the effects of substance P on cultured neurones from the rat nucleus basalis. 2. Brief applications of substance P produced a reduction, about 1 min in duration, of resting membrane conductance. The concentration producing a half-maximal effect was approximately 40 nM, with the continuous presence of substance P resulting in desensitization of the response. 3. The control current-voltage relation exhibited inward rectification over the voltage range -70 to -150 mV, and hyperpolarization produced a time-dependent decrease of current (inactivation). 4. The substance P-sensitive current, obtained by subtracting the current during the presence of the tachykinin from the control current, showed no time-dependent inactivation, though its current-voltage relation also revealed inward rectification, with the reversal potential being approximately equal to the potassium equilibrium potential, Vk. 5. The relation between the substance P-sensitive chord conductance and voltage could be fitted by a Boltzmann equation, with changes in [K+]o shifting this relation along the voltage axis roughly in parallel with the shift in Vk. The maximum conductance was proportional to [( K+]o). 6. Cs+ (0.1 mM) blocked the substance P-sensitive current in a voltage-dependent manner, with an equivalent valency for Cs+ of 1.9. Barium blockage of the substance P-sensitive current was less voltage dependent. 7. Replacement of external Na+ by tetramethylammonium (TMA+) ions reduced the substance P-sensitive current by only 18%. 8. These results indicate that substance P inhibits potassium channels with inward rectifier properties very similar to those of skeletal muscle. 9. Application of sodium nitroprusside did not alter the effect of substance P, suggesting that cyclic GMP plays no role in the channel modulation.
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PMID:Modulation of inwardly rectifying channels by substance P in cholinergic neurones from rat brain in culture. 170 Jan 8

The effect of barium on isolated acini was tested. Barium in the 0.1-10 mM concentration range non-competitively inhibited the efflux of 86Rb+ stimulated by carbamylcholine or substance P. This inhibition was independent of the presence of calcium in the extracellular medium. In the same preparation, barium did not affect the efflux of 45Ca2+ but, at a 10 mM concentration, it increased amylase release by 70%. Removal of extracellular calcium decreased basal amylase release and the response to carbamylcholine. Adding back calcium or barium to the incubation medium increased basal and carbamylcholine-stimulated amylase secretion, but calcium was more effective than barium. These results suggest that barium has two opposite effects on calcium-regulated processes in rat parotid gland: (1) it is an inhibitor of calcium-activated potassium channels; (2) it is a partial agonist of calcium-activated amylase secretion.
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PMID:Response of rat parotid acini to barium. 171 13

Intracellular recordings were made from neurones in the myenteric plexus of the guinea-pig ileum. Presynaptic nerves were excited by a focal stimulating electrode on an interganglionic strand. Fast excitatory postsynaptic potentials (e.p.s.ps) were depressed in amplitude by morphine and [Met5]enkephalin in the concentration range of 1 nM-1 microM. Nicotinic depolarizations evoked by exogenously applied acetylcholine (ACh) were not affected by these opioids. Hyperpolarization of the presynaptic fibres probably contributed to the depression of the fast e.p.s.p. because fast e.p.s.ps evoked by low stimulus voltages were more depressed than those evoked by high stimulus voltages and fast e.p.s.ps resulting from activation of a single presynaptic fibre were blocked in a non-graded manner. Opioids depressed the slow e.p.s.p. in those neurones in which they did not change the resting membrane potential. The slow e.p.s.p. was increased in amplitude in those neurones hyperpolarized by opioids. Depolarizations resulting from application of barium, substance P or ACh were also enhanced by opioids. Equivalent circuit models in which opioids increase, and substance P or ACh decrease, the same potassium conductance could account for this enhancement. The actions of opioids were prevented or reversed by naloxone (1 nM-1 microM). It is concluded that morphine and enkephalin inhibit the release of ACh and a non-cholinergic transmitter from fibres of the myenteric plexus, and that this may involve a hyperpolarization of presynaptic fibres. Additionally, opioids can interact postsynaptically with other substances which affect membrane potassium conductances.
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PMID:Opioid inhibition of synaptic transmission in the guinea-pig myenteric plexus. 241 22

A kinin-potentiating peptide (KPP) generated from human plasma proteins on trypsin incubation was partially purified by ultrafiltration and ion-exchange chromatography and was characterized through some of its pharmacological properties. KPP itself was devoid of any action but it potentiated the guinea-pig ileum contractions elicited by several kinins, including an analog resistant to angiotensin-converting enzyme (ACE). In contrast, contractions induced by angiotensin II, histamine, acetylcholine, barium chloride and substance P were not potentiated. Not only did KPP have high specificity towards kinins, but its action started immediately and induced kinin potentiation in a dose-dependent and reversible manner. Furthermore KPP potentiated the bradykinin contracting effects on the rat uterus, a preparation with very poor ACE activity, and on guinea-pig ileum previously incubated with 1.10-phenanthroline, a metal chelator able to inhibit ACE and kininase I activities and with phosphoramidon, a specific inhibitor of neutral endopeptidase (NEP). The results suggest that the potentiating effect of KPP is due to a mechanism different from the inhibition of kinin metabolism by ACE, NEP and kininase I.
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PMID:Pharmacological properties of a new kinin-potentiating peptide generated from human serum proteins. 260 51

The responsiveness (grams per millimeter squared) and sensitivity (pD2 value) of various agonists were examined in isolated stored human bronchial and pulmonary arterial and venous preparations. In isolated bronchial muscles, large preparations (internal diameter about 6 mm) were less responsive (grams per millimeter squared) to contractile agents than smaller preparations (internal diameter approximately 2 mm). Noncumulative concentration-effect curves were produced in bronchial preparations using histamine, acetylcholine, carbachol and barium chloride. Histamine contracted both bronchial and vascular preparations whereas 5-hydroxytryptamine contracted only vascular tissues. The latter effect was always blocked by either methysergide or ketanserin. 5-hydroxytryptamine relaxed bronchial tissues that were contracted with either histamine, acetylcholine or prostaglandin E2. This relaxation was not antagonized by methysergide, ketanserin, propranolol or indomethacin. Dimaprit and 4-methyl histamine were without effect in isolated contracted bronchial preparations. Vasoactive intestinal peptide, Substance P and platelet-activating factor when added to preparations at resting tone failed to induce a contraction. These agents did not relax histamine-contracted isolated human pulmonary muscle preparations. Anti-immunoglobulin E antibody sometimes contracted isolated human bronchial muscle but not pulmonary vascular preparations. However, these data were difficult to assess because of the variations observed. Anti-immunoglobulin G antibody was inactive. Noradrenaline did not elicit a physiological response in isolated bronchial muscle preparations at concentrations which always induced a contraction in the pulmonary vascular preparations. In the presence of propranolol, noradrenaline neither contracted nor relaxed isolated human bronchial preparations. We also determined the sensitivity of isolated bronchial muscle preparations to isoproterenol, salbutamol and theophylline.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Response and sensitivity of isolated human pulmonary muscle preparations to pharmacological agents. 398 55

1. Strips of longitudinal muscle can be obtained from guinea-pig ileum either retaining or free from Auerbach's plexus.2. The denervated strip is unresponsive to electrical stimulation by brief shocks, whether given singly or in trains; it also fails to respond to nicotine or dimethylphenylpiperazinium iodide (DMPP), and eserine causes no spasm.3. Denervated strips neither contain detectable acetylcholine (< 0.4 ng/mg), nor release it spontaneously (< 5 pg/mg/min) or in response to stimulation (< 31 pg/mg/min). The acetylcholine metabolism of the innervated strip is therefore that of the adherent Auerbach's plexus. Innervated strips had a mean acetylcholine content of 28 ng/mg, a mean resting output of 94 pg/mg/min and an output in response to stimulation at 10 c/s of 700-1200 pg/mg/min.4. By comparing the responses of innervated and denervated strips it was concluded that arecoline, methylfurmethide, alpha,beta-ethylal-gamma-tri-methylammonium propanediol iodide (2268 F), muscarine, histamine, tremorine, oxytocin, and substance P, like acetylcholine, act primarily on the smooth muscle directly; and that angiotensin, barium, potassium, m-bromophenyl choline ether and 5-hydroxytryptamine have a progressively increasing proportionate effect on the nerve plexus. Nicotine and DMPP were inactive in the absence of the plexus.5. The longitudinal muscle with its accompanying plexus contains about one quarter of the acetylcholine of the whole ileum, and is responsible for about one fifth of the output to electrical stimulation.6. The volley output of acetylcholine by the innervated strip declines sharply as rate of stimulation increases. Output of acetylcholine was reduced by morphine and by cocaine, particularly when resting or when stimulated at low rates.7. Acetylcholine output by whole ileum from guinea-pig declines in the absence of glucose, but is insulin-independent. Output by strips of ileum from rats made diabetic with alloxan was similar to that from normal rats.8. The similarity in properties of acetylcholine output from innervated strips, where it must come from nervous tissue, to that from whole ileum, and the insulin-independence of output from whole ileum suggest that the whole of the acetylcholine output of intestine is nervous in origin.9. Comparison of the acetylcholine metabolism of the innervated strip with that of the superior cervical ganglion suggests that the typical features of the former (high resting output, high volley output at low rates, low minute output at high rates of stimulation, and sensitivity to morphine) may be linked with the absence of specialized neuro-effector junctions and represent a relatively primitive transmission process.
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PMID:The origin of acetylcholine released from guinea-pig intestine and longitudinal muscle strips. 429 53

Sensitized guinea pig tracheal preparations with epithelium removed were more sensitive to acetylcholine, histamine substance P, and barium chloride than those with epithelium intact. EC50 of them obtained in the preparations with epithelium removed dramatically decreased to 1/6-1/30 vs that obtained in epithelium intact ones. The amplitudes of contractions of epithelium-removed preparations induced by antigen-antibody reaction or electric field stimulation increased by 50%-100% vs the control. These results indicated that the epithelium had important modulative effects on the airway, especially on its allergic contractions.
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PMID:Influence of epithelium removal on allergic contraction of isolated tracheal smooth muscle. 752 59

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