Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

1. Toluene diisocyanate produced concentration-dependent contractions of the rat isolated urinary bladder. 2. The contractions were tetrodotoxin-resistant and were abolished by previous exposure of the strips to capsaicin. 3. Indomethacin (5 microM) and ruthenium red (30 microM) inhibited toluene diisocyanate-induced contractions. Responses expressed as a percentage of the response obtained with substance P, 30 nM, were respectively 141.6 +/- 24.8% and 20.1 +/- 5.1% in control and indomethacin-treated strips (P less than 0.005); 123.0 +/- 30.2% and 14.0 +/- 6.5% in control and ruthenium red-treated strips (0.01 less than P less than 0.05). 4. These results suggest that toluene diisocyanate-induced contractions of the rat isolated bladder are the result of the release of cyclo-oxygenase products which may act by activating the capsaicin receptor.
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PMID:Pharmacological modulation of the contractile response to toluene diisocyanate in the rat isolated urinary bladder. 169 99

This study was designed to evaluate the mechanism of action of toluene diisocyanate (TDI) and the role of endogenous neutral endopeptidase in modulating in vitro contractile responses to TDI in guinea pigs. TDI (0.01-1 mM) produced a concentration-dependent contraction of the guinea pig main bronchi. Sensory nerve desensitization with capsaicin greatly reduced and in some cases almost abolished TDI-induced contractions. The neutral endopeptidase inhibitor phosphoramidon significantly increased the contractile response to TDI. Pretreatment with the substance P antagonist (D-Arg1,D-Pro2,D-Trp7,9,Leu11)-substance P greatly reduced TDI-induced contractions. These results suggest that TDI activates the "efferent" function of capsaicin-sensitive sensory nerves and that neutral endopeptidase may play a role in modulating the response in guinea pigs.
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PMID:Toluene diisocyanate contracts guinea pig bronchial smooth muscle by activating capsaicin-sensitive sensory nerves. 170 29

A noncholinergic, nonadrenergic nervous system has been described, involving the sensory nerves in the airways. Chemicals, dusts and other irritants stimulate these sensory nerves to release substance P and related neuropeptides. These neuropeptides have the remarkable ability to affect multiple cells in the airways and to provoke many responses including cough, mucus secretion, smooth muscle contraction, plasma extravasation and neutrophil adhesion. This series of effects is termed "neurogenic inflammation." An enzyme exists on the surfaces of all lung cells that contain receptors for these neuropeptides. This enzyme, neutral endopeptidase (NEP), by cleaving and thus inactivating the neuropeptides, limits the concentration of the neuropeptide that reaches the receptor on the cell surface. Thus, neurogenic inflammatory responses are normally mild and presumably protective in nature. However, when NEP is inhibited pharmacologically (with NEP inhibitors) or by cigarette smoke, respiratory viral infection, or by inhalation of the industrial pollutant toluene diisocyanate, neurogenic inflammatory responses are exaggerated. Delivery of exogenous human recombinant NEP inhibits neurogenic inflammation. Finally, evidence is provided that corticosteroids suppress neurogenic plasma extravasation and that this drug can upregulate NEP in human airway tissue. Neutral endopeptidase cleaves multiple peptides. Thus, its selectivity resides, at least in part, on its fixed location on the surfaces of specific cells where it can modulate effects of peptides exposed to the cells' surfaces.
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PMID:Neutral endopeptidase modulates neurogenic inflammation. 188 1

Tachykinins, including substance P, are contained in sensory nerves of airways. Sensory nerve stimulation causes release of the tachykinins, thus producing a pattern of responses (smooth muscle contraction, submucosal gland secretion, increased vascular permeability, neutrophil adhesion, and cough) collectively referred to as "neurogenic inflammation". The responses to either exogenously or endogenously-released tachykinins are modulated selectively by neutral endopeptidase (NEP), an enzyme that exists on the membranes of cells that contain tachykinin receptors (e.g. submucosal glands, smooth muscle, postcapillary venous endothelium). By cleaving and thus inactivating the tachykinins, NEP limits their action on receptors. The reduced NEP activity associated with respiratory viral infections and inhaled irritants (e.g. toluene diisocyanate, cigarette smoke) potentiates neurogenic inflammatory responses. Exogenously delivered human recombinant NEP reduces responses to tachykinins. Thus, reduced NEP activity in tissues, by exaggerating inflammatory responses resulting from sensory nerve stimulation, may play an important role in the pathogenesis of inflammatory diseases in airways and in other tissues.
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PMID:Neutral endopeptidase modulation of neurogenic inflammation in airways. 207 58

The presence of substance P in numerous mammalian pineal glands prompted us to search for its binding sites in the bovine pineal gland. The binding assays to pineal membrane were carried out in polypropylene microcentrifuge tubes in a final volume of 500 microliters of 50 mM Tris-HCl buffer (pH 7.4) containing aliquots of 200-500 micrograms protein, 0.02% BSA, 6 micrograms/ml chymostatin, 4 micrograms/ml leupeptin, 40 micrograms/ml bacitracin, 5 mM MnCl2, and 50 microliters of [3H]substance P (3H-SP, 45.7 Ci/mmol to yield a final concentration of 0.02-20 nM) to start the reactions, which were incubated for 20 min at 20 degrees C. The reactions were terminated by centrifugation in a Fisher Microcentrifuge Model 235A for 30 seconds at 13,000 X g, and the pellets were washed twice with 1 ml of ice-cold 50 mM Tris-HCl buffer containing 0.02% BSA, 6 micrograms/ml chymostatin, 4 micrograms/ml leupeptin, 40 micrograms/ml bacitracin, 5 mM MnCl2, 120 mM NaCl, 5 mM KCl, 1 mM MgCl2, and 1 mM CaCl2. The bottoms of the tubes were cut, the membrane pellets were dissolved in 5 ml of Triton X-100/toluene fluor (1:3) scintillation fluid, and the radioactivity was counted. The specific [3H]-substance P binding at 1-2 nM was 40-50% of the total binding, and the non-specific binding was assessed by using 2 microM of unlabelled substance P. These studies identified in bovine pineal gland a high affinity receptor site for [3H]SP with a KD value of 0.43 nM and a Bmax value of 71.14 fmol/mg protein. The relative affinity of various substance P analogues or fragments was: substance P greater than physalaemin greater than SP2-11 greater than SP3-11 greater than SP4-11 greater than SP6-11 greater than substance K = eledoisin greater than kassinin greater than SP7-11 greater than SP free acid. Substance P did not alter the basal or the norepinephrine-induced stimulation of the activity of serotonin N-acetyltransferase in rat pineal gland in culture.
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PMID:Studies on high-affinity [3H]substance P binding sites in bovine pineal gland. 243 Jul 88

Exposing guinea pigs to toluene diisocyanate (TDI) causes an acute increase in airway responsiveness to inhaled acetylcholine. The mechanism of this increase in airway responsiveness is unknown. Capsaicin-sensitive afferent nerves and the tachykinins they release upon activation are important in controlling bronchomotor tone in guinea pigs. To determine whether tachykinins are important in TDI-induced airway hyperresponsiveness, we studied the effects of tachykinin depletion, using capsaicin, and competitive tachykinin antagonism, using (D-Arg1, D-Pro2, D-Trp7.9, Leu11) substance P, on TDI-induced airway hyperresponsiveness. In 9 of 9 untreated animals, TDI exposure caused a large and significant increase in airway responsiveness to acetylcholine. The mean concentration of acetylcholine required to decrease specific airway conductance by 50% below baseline (the PD50) was 1.51% before TDI exposure and 0.17% after TDI exposure (p less than 0.0005). Capsaicin treatment had no effect on the PD50 but prevented the TDI-induced increase in airway responsiveness in 10 of 12 animals. (The PD50 was 1.03% before TDI and 1.27% after TDI exposure.) Treatment with the tachykinin antagonist (D-Arg1, D-Pro2, D-Trp7.9, Leu11) substance P also abolished the TDI-induced increase in airway responsiveness in all 5 animals treated. Although TDI exposure also causes airway edema, the effect of capsaicin treatment on TDI-induced airway hyperresponsiveness did not result from prevention of airway edema. TDI exposure caused a marked increase in tracheal extravasation of intravenously administered Evans blue dye that was not prevented by capsaicin treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tachykinins mediate the acute increase in airway responsiveness caused by toluene diisocyanate in guinea pigs. 244 Mar 57

Substance P and related tachykinins contribute to the airway hyperresponsiveness caused by toluene diisocyanate (TDI) in guinea pigs. Neutral endopeptidase (NEP) is an important modulator of substance P-induced responses. To test the hypothesis that exposure to TDI would increase responsiveness to substance P by inhibiting activity of this enzyme, we determined the dose of substance P required to increase pulmonary resistance by 200% above baseline (PD200) before and after administration of the pharmacologic inhibitor phosphoramidon in guinea pigs studied 1 h after a 1-h exposure to air or 3 ppm TDI. TDI exposure increased responsiveness to substance P significantly. However, phosphoramidon caused a significantly greater leftward shift of the substance P dose-response curve in air-exposed animals than it did in TDI-exposed animals, so that after phosphoramidon, mean values of PD200 in animals exposed to air or TDI did not differ. Tracheal NEP activity was significantly less after exposure to TDI than after exposure to air, whereas activity in the esophagus was the same in both groups. These results suggest that TDI exposure increases the bronchoconstrictor responsiveness of guinea pigs to substance P, in large part through inhibition of airway NEP.
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PMID:Toluene diisocyanate increases airway responsiveness to substance P and decreases airway neutral endopeptidase. 245 Aug 92

We have previously shown that tachykinin depletion or antagonism prevented the increase in airway responsiveness to inhaled acetylcholine caused by exposure to toluene diisocyanate (TDI) in awake guinea pigs. To insure that the effects of tachykinins were not limited to the extrathoracic airways and were not dependent on effects of TDI on baseline airway caliber, we determined airway responsiveness to acetylcholine inhaled through a tracheostomy in anesthetized and ventilated guinea pigs that were exposed to TDI or air after treatment with the tachykinin antagonist spantide, the tachykinin metabolism inhibitor phosphoramidon, or the vehicles for each drug. When these drugs were administered before and during TDI exposure, spantide significantly inhibited the TDI-induced increase in acetylcholine responsiveness and phosphoramidon significantly potentiated this effect, whereas neither drug altered acetylcholine responsiveness in air-exposed animals. To determine whether tachykinins were exerting their effect primarily during TDI exposure or during the subsequent acetylcholine challenge, we also examined the effect of each drug on acetylcholine responsiveness when the drugs were given after TDI exposure. At that time, spantide did not inhibit TDI-induced acetylcholine hyperresponsiveness and phosphoramidon did not potentiate it. Neither drug nor TDI increased pulmonary resistance measured through a tracheostomy in these anesthetized and ventilated animals. These results suggest that the TDI-induced increase in acetylcholine responsiveness is mediated by release of tachykinins into the intrathoracic airways during exposure to TDI.
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PMID:A tachykinin receptor antagonist inhibits and an inhibitor of tachykinin metabolism potentiates toluene diisocyanate-induced airway hyperresponsiveness in guinea pigs. 246 79

The role of neuropeptides in nasal hyperreactivity was examined in guinea pigs by histochemical and pharmacological study. Intranasal application of toluene diisocynate (TDI) induced nasal hyperreactivity symptoms: sneezing and watery rhinorrhea, and decreased histamine content in the nasal mucosa in guinea pigs sensitized with TDI. The immunoreactivity of substance P (SP) and calcitonin gene-related peptide (CGRP) in the nerve terminals in the nasal mucosa was increased after intranasal application of TDI. We also observed a decrease in the immunoreactivity of SP and CGRP, and an increase in their mRNA expression in trigeminal ganglion neurons. These findings indicate that exposure to TDI enhanced the biosynthesis of both SP and CGRP in the trigeminal ganglion neurons and their axonal transportation to the terminals in the nasal mucosa. In animals pretreated with capsaicin before sensitization, TDI did not induce nasal allergy-like behavior and histamine release in the nasal mucosa. Since capsaicin depletes SP and CGRP in the sensory nerves, this finding indicates neuropeptide-mediated histamine release in the nasal mucosa. All these findings suggest that, on exposure to TDI, the antidromic release of SP and CGRP in the nasal mucosa triggers the release of histamine, resulting in the development of symptom of nasal hyperreactivity.
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PMID:[Neurogenic inflammation in nasal hyperreactivity]. 751 48

Toluene diisocyanate contracts guinea-pig bronchial smooth muscle through a mechanism involving capsaicin-sensitive sensory nerves. In the present study, we investigated the effects of toluene diisocyanate, capsaicin and tachykinins on isolated human bronchi. In 44 rings, toluene diisocyanate (0.3 mM) produced a relaxation which averaged 16.9 +/- 1.1%, in ten rings it produced a shortening that was 15.1 +/- 3.3% and in ten preparations it gave no response. A second administration of toluene diisocyanate (0.3 mM) always produced a relaxation (n = 13, 18.1 +/- 3.9%). Capsaicin (0.03 mM) produced shortening in 15 (35 +/- 6.6%) and relaxation in 11 preparations (41 +/- 6.8%), whereas a second administration caused shortening in nine (25.1 +/- 6.1%) and relaxation in 16 rings (36.4 +/- 4.9%). When toluene diisocyanate was given after two consecutive capsaicin administrations, we observed shortening in two rings (10.0 +/- 3.6%), relaxation in ten rings (15.9 +/- 3.6%), and no response in four preparations. To test the role of NK1 and NK2 receptors in these conflicting responses, we performed concentration-response curves to different tachykinins. Substance P, neurokinin A and neurokinin A-(4-10), a specific NK2 receptor agonist, gave a concentration-dependent shortening, with neurokinin A being the most effective and neurokinin A-(4-10) the least. The specific NK1 receptor agonist, [Sar9, Met(O2)11]substance P, produced both shortening and relaxation. We conclude that toluene diisocyanate and capsaicin may produce both shortening and relaxation in isolated human bronchi through NK1 receptors.
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PMID:The effects of toluene diisocyanate and of capsaicin on human bronchial smooth muscle in vitro. 751 77


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