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)

Release of inflammatory mediators from mast cells following immunoglobulin bridging by specific allergens triggers episodes of asthma and bronchial hyperreactivity. Recent evidence has shown that neuropeptides, such as substance P (SP), may modulate the pulmonary inflammatory response in these airway diseases. This suggests that SP may affect secretory events of mast cells. To investigate these effects, resident peritoneal mast cells were collected from Sprague-Dawley male rats and stimulated with Con A (utilizes surface-bound immunoglobulin), compound 48/80 (acts in a peptide-like manner) and SP. Secretion was assessed as the release of preloaded [14C]serotonin. All secretagogues induced dose-dependent release. Pharmacologic modulation of release was then studied with two drugs employed for treatment of airway disease, hydrocortisone, a classical anti-inflammatory steroid, and disodium cromoglycate (DSCG). Following pretreatment with 5 mumol/l hydrocortisone, serotonin release induced by Con A was inhibited by 59%. No inhibition was noted with compound 48/80 or SP release. Similarly, following DSCG (300 mumol/l) pretreatment, 40% inhibition of release was noted with Con A, but no inhibition occurred following compound 48/80- or SP-stimulated release. Collectively, these results suggest that mast cells possess multiple activation-secretion coupling pathways which respond differently to clinically used pharmacologic agents. Diseases involving SP modulation of mast cell mediator release may not be successfully treated with anti-inflammatory steroids or DSCG.
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PMID:Effect of hydrocortisone and disodium cromoglycate on mast cell-mediator release induced by substance P. 754 Jul 64

In a guinea-pig model of asthma, active immunization against substance P (SP) prevented the development of airways' hyperresponsiveness and reduced bronchospastic responses to SP (i.v.). The rat-mouse heterohybridoma NC1/34 secretes a specific, rat IgG1, anti-substance P antibody (alpha-SP Ab) which was isolated and purified by passing supernatant from cultures through thiophilic gel. Purity of antibody was about 50% (SDS-PAGE). The relative affinities of the alpha-SP Ab for SP, neurokinin A (NKA) and calcitonin gene-related peptide (CGRP) were estimated by ELISA using a constant amount of SP coupled (glutaraldehyde) to bovine serum albumin (BSA) to capture the antibody, alone and in the presence of increasing concentrations of the neuropeptides. At alpha-SP Ab dilutions of 1 in 5,000 to 1 in 32,000, CGRP did not prevent antibody binding to SP-BSA conjugate bound to the plates, but both SP and NKA prevented binding. In this system, the relative affinity of the alpha-SP Ab, at dilutions of 1 in 5,000 and 1 in 10,000, was about 50 times greater for SP than NKA. Whether passive immunization with alpha-SP Ab prevented bronchospastic responses to SP and NKA (i.v.), in vivo, was determined in groups of anesthetized guinea-pigs by recording pulmonary flow resistance (RL) and dynamic pulmonary elastance (EL). Injection of alpha-SP Ab (i.v., 5:1 molar ratio: alpha-SP Ab:SP total dose) did not alter baseline values of RL and EL, but markedly inhibited increases in RL and EL induced by SP and NKA (i.v.) without affecting responses to methacholine (i.v.). A control, "irrelevant" rat IgG-type antibody at a similar concentration had no effect on responses to SP or NKA. These findings indicate that passive immunization with a monoclonal alpha-SP Ab can prevent the bronchospastic effects of exogenous SP and NKA in guinea-pigs.
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PMID:Passive immunization with an anti-substance P antibody prevents substance P- and neurokinin A-induced bronchospasm in anesthetized guinea-pigs. 754

Contractions induced by electrical field stimulation of sensory non-cholinergic excitatory nerves in guinea-pig isolated bronchi are due to the release of substance P (SP) and related tachykinins. Release of such neuropeptides are thought to play a pathophysiological role in asthma. Two K+ channel openers cromakalim (pD2 = 6.45; Emax = 95%) and pinacidil (pD2 = 6.06; Emax = 87%) were shown to concentration-dependently inhibit non-cholinergic nerve-mediated contractions in guinea-pig bronchi in vitro. Cromakalim (pD2 = 6.27; Emax = 25%) and pinacidil (pD2 = 6.03; Emax = 25%) each had a much lower inhibitory efficacy against contractions induced by exogenously applied SP but the same potency as found against contractile responses to non-cholinergic neurostimulation. Also the beta 2-adrenoceptor agonist terbutaline (pD2 = 8.29; Emax = 83%), the xanthine derivative theophylline (pD2 = 4.19; Emax = 100%) and the Ca2+ blocker verapamil (pD2 = 5.55; Emax = 100%) suppressed responses to non-cholinergic neurostimulation. Terbutaline (pD2 = 6.32; Emax = 74%), theophylline (pD2 = 3.25; Emax = 71%) and verapamil (pD2 = 4.01; Emax = 100%) had a 10-100-fold lower inhibitory potency against SP-induced contractions but each drug showed about the same efficacy as found against nerve-mediated contractions. Glibenclamide (1 microM) reversed the inhibitory effects of cromakalim and pinacidil on neurally-mediated contractions but did not influence the effects of terbutaline, theophylline and verapamil. The results demonstrate that cromakalim, pinacidil, terbutaline, theophylline and verapamil inhibit non-cholinergic excitatory neurotransmission in guinea-pig bronchi and suggest that they act preferentially at a pre-junctional site.
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PMID:Inhibition by cromakalim, pinacidil, terbutaline, theophylline and verapamil of non-cholinergic nerve-mediated contractions of guinea-pig isolated bronchi. 754 49

The tachykinin neuropeptides substance P and neurokinin (NK) A have been postulated to participate in the inflammatory reaction in airways of smokers and asthmatics. We have examined the hypothesis that the expression of one or more of the three cloned tachykinin receptors (NK1, NK2, and NK3) is increased in inflammatory airway disorders, which could result in augmentation of the effect of released tachykinin neuropeptides. NK1 receptor and NK2 receptor but not NK3-receptor mRNA were detected by ribonuclease protection assay in RNA from both cartilaginous and membranous bronchi and subpleural lung. In lung samples containing membranous airways, NK2-receptor mRNA expression was increased fourfold in asthmatics compared with nonsmoking controls, whereas NK1-receptor mRNA levels were similar in the two groups. NK1- and NK2-receptor mRNA expression was increased twofold in smokers without airflow obstruction compared with nonsmokers, whereas NK1-receptor mRNA expression was significantly lower in patients with chronic obstructive pulmonary disease compared with smoking controls. In situ hybridization indicated NK1-receptor mRNA was expressed in submucosal glands and airway epithelial cells, whereas NK2-receptor and NK3-receptor mRNA were not detected. These observations have implications for the pathophysiology and treatment of both asthma and tobacco smoke-induced airway inflammation.
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PMID:Substance P (NK1)- and neurokinin A (NK2)-receptor gene expression in inflammatory airway diseases. 757 63

The tachykinins, substance P (SP) and neurokinins A (NKA) and B (NKB), have been identified in the respiratory tract and implicated in mediating neurogenic inflammation of the airways. To the extent that these neuropeptides may be involved in the pathogenesis of asthma, a condition associated with hyperplasia of airway smooth muscle (ASM), we examined the mitogenic effects and mechanisms of action of tachykinins in cultured rabbit ASM cells. SP was found to elicit dose-dependent (10(-14) to 10(-4) M) stimulation of ASM cell proliferation, with a mean (+/- SE) maximal increase in cell number of 169 +/- 6.1% of control. In contrast, NKA and NKB had little and no effect on ASM cell growth, respectively. Because SP is nonselective in its binding to the tachykinin receptors, to identify the specific NK receptor subtype(s) mediating the promitogenic action of SP, in separate studies we found that 1) the NK1-receptor-specific agonist, [beta-Ala4, Sar9, Met(O2)11]SP-(4-11) induced stimulation of ASM cell growth similar in magnitude to that elicited by SP; 2) in contrast, neither the NK1- nor NK2-receptor-specific agonists, [beta-Ala8]NKA-(4-10) and [MePhe7]NKB, respectively, had any effect on ASM cell growth; and 3) the promitogenic action of SP was inhibited by the NK1-receptor antagonist, GR-82,334. Moreover, in extended experiments, we found that the phospholipase C and phospholipase A2 inhibitors, neomycin and quinacrine, respectively, each inhibited SP-induced ASM cell proliferation by approximately 45%. Collectively, these observations provide new evidence that the tachykinin SP induces ASM cell proliferation, and that this action is mediated by transmembrane signaling coupled to selective activation of the NK1 receptor.
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PMID:Tachykinin regulation of airway smooth muscle cell proliferation. 757 67

The tachykinin substance P (SP) is present in lung sensory nerve endings and may be released after neurogenic stimulation. Its role in the pathogenesis of asthma is still unclear. Nevertheless, it may play a major role in airway neurogenic inflammation. Alveolar macrophages are the predominant cells of the airway space and are involved in various types of airway inflammation. We studied guinea pig alveolar macrophage response to SP and other related peptide (C- and N-terminal sequences, NK1-receptor agonist) stimulation. Alveolar guinea pig macrophages were recovered by bronchoalveolar lavage (BAL). Macrophage reactive oxygen intermediate (ROI) production was studied by luminol-dependent chemiluminescence with several concentrations of SP and related peptides. Eicosanoid synthesis after stimulation was evaluated by thin-layer chromatography (TLC) and enzyme-linked immunosorbent assay (ELISA). SP, C-terminal sequence, and NK1-receptor agonist significantly increased ROI production by alveolar macrophages (P < 0.01). NK1-agonist and C-terminal sequence modified arachidonic acid metabolism and induced a significant increase in prostaglandin (PG)D2 synthesis (211% and 66%, respectively). We concluded that SP and related peptides directly affect guinea pig alveolar macrophages by inducing the production of inflammatory metabolites.
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PMID:Substance P and alveolar macrophages: effects on oxidative metabolism and eicosanoid production. 757 17

Neurogenic switching is proposed as a hypothesis for a mechanism by which a stimulus at one site can lead to inflammation at a distant site. Neurogenic inflammation occurs when substance P and other neuropeptides released from sensory neurons produce an inflammatory response, whereas immunogenic inflammation results from the binding of antigen to antibody or leukocyte receptors. There is a crossover mechanism between these two forms of inflammation. Neurogenic switching is proposed to result when a sensory impulse from a site of activation is rerouted via the central nervous system to a distant location to produce neurogenic inflammation at the second location. Neurogenic switching is a possible explanation for systemic anaphylaxis, in which inoculation of the skin or gut with antigen produces systemic symptoms involving the respiratory and circulatory systems, and an experimental model of anaphylaxis is consistent with this hypothesis. Food-allergy-iducing asthma, urticaria, arthritis, and fibromyalgia are other possible examples of neurogenic switching. Neurogenic switching provides a mechanism to explain how allergens, infectious agents, irritants, and possibly emotional stress can exacerbate conditions such as migraine, asthma, and arthritis. Because neurogenic inflammation is known to be triggered by chemical exposures, it may play a role in the sick building syndrome and the multiple chemical sensitivity syndrome. Thus neurogenic switching would explain how the respiratory irritants lead to symptoms at other sites in these disorders.
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PMID:Neurogenic switching: a hypothesis for a mechanism for shifting the site of inflammation in allergy and chemical sensitivity. 762 26

To investigate the role of NK1 receptors in the pathogenesis of bronchoconstriction and cough in asthma, we performed a randomized, double-blind, crossover study on the effects of a selective non-peptide tachykinin NK1 receptor antagonist (CP-99,994) on baseline measures of lung function and on hypertonic saline-induced bronchoconstriction and cough in 14 male subjects with mild asthma. CP-99,994 (250 micrograms/2 hours) and placebo were administered intravenously in 2-h infusions during consecutive visits 5 to 7 d apart. Specific airway resistance (SRaw) was measured and spirometry was performed at baseline and at 35 and 60 min. Next, hypertonic saline challenge was performed by delivering 10 breaths of saline of increasing concentration (0.9 to 7% in 1% increments at 5-min intervals) via an ultrasonic nebulizer until SRaw increased from baseline by 200% or 20 units, whichever was greater. Throughout the challenge cough was counted from a taped record made from two microphones placed close to the subject's larynx. We found that CP-99,994 did not significantly affect SRaw or spirometric measures of lung function during the first hour of infusion. Although CP-99,994 infusion markedly attenuated the bronchoconstrictor response to the saline challenge in two subjects, it did not significantly decrease the area under curves obtained for SRaw and cough during saline challenge for the group as a whole (p = 0.9 for SRaw;p = 0.8 for cough). We conclude that administration of 250 micrograms/kg of CP-99,994 over 2 h does not significantly inhibit hypertonic saline-induced bronchoconstriction or cough in subjects with mild asthma and does not have acute bronchodilator activity in these subjects.
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PMID:Effect of an NK1 receptor antagonist (CP-99,994) on hypertonic saline-induced bronchoconstriction and cough in male asthmatic subjects. 766 99

Studies of IgE-mediated asthma in rhesus monkeys have shown that the animals have individual characteristics analogous to the individuality of human asthmatic patients. In the current study we evaluated the effect of aerosolized substance P (SP) and an allergen, ascaris antigen (A), on monkeys that had cutaneous and/or airway reactivity to A. When SP and A were aerosolized sequentially in the same experiment in two monkeys that had had IgE-mediated airway responses that had disappeared with time and in one monkey that had only had cutaneous reactivity to A, an airway response to A occurred. Furthermore, on subsequent challenges, the airway response persisted in the absence of SP exposure. In two other monkeys, SP and A given sequentially in the same experiment induced airway responses to A using a concentration of A that was too dilute to give a reaction in either monkey in previous experiments. The airway response to dilute A then persisted for months in the absence of further SP exposure. We conclude that bronchial challenge of SP in combination with allergen induces an immediate response that would not occur with allergen alone and that this heightened airway response to allergen persists for months as a result of interaction of the neurokinin SP and an IgE-mediated immunologic reaction in the airway.
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PMID:Substance P and IgE-mediated allergy. I. Transient increase in airway responsiveness to allergen in primates. 768

1. We compared the effects of two novel tachykinin receptor antagonists, FK888 (selective at the tachykinin NK1 receptor) and FK224 (dual antagonist at NK1 and NK2 tachykinin receptors) on stimulus-evoked airway plasma exudation, bronchoconstriction and systemic hypotension in guinea-pigs in vivo. Plasma exudation was induced by substance P (SP), synthetic tachykinin receptor agonists, platelet activating factor (PAF), electrical stimulation of the cervical vagus nerves or by inhalation of cigarette smoke. Changes in airway tone and in carotid artery blood pressure (BP) were induced by synthetic tachykinin agonists, PAF and vagal stimulation. 2. Both FK224 and FK888 dose-dependently inhibited SP-induced plasma exudation in the lower trachea and main bronchi (ID50 values respectively of 1.1 and 0.1 mumol kg-1 in lower trachea, and of 0.5 and 0.1 mumol kg-1 in main bronchi) with complete inhibition at both airway levels at 10 mumol kg-1 for FK224 and at 2 mumol kg-1 for FK888. 3. The NK1-selective tachykinin receptor agonist, [Sar9,Met(O2)11]substance P ([Sar]SP), induced plasma exudation, a response which was blocked by both FK888 and FK224. The NK2-selective agonist, [beta-Ala8]neurokinin A-(4-10) ([beta-Ala]NKA), did not induce plasma exudation: neither FK888 nor FK224 affected this lack of response to [beta-Ala]NKA. 4. [beta-Ala]NKA induced bronchoconstriction, a response which was blocked by FK224 but which was completely unaffected by FK888. [Sar]SP induced a small but significant bronchoconstriction which was completely inhibited by both tachykinin antagonists. 5. In animals pretreated with capsaicin to deplete sensory neuropeptides, PAF induced both plasma exudation and bronchoconstriction. Neither response to PAF was inhibited by either FK888 or FK224.6. Both FK888 and FK224 inhibited plasma exudation induced by vagus nerve stimulation or by cigarette smoke, with FK888 more potent than FK224.7. FK224 inhibited non-cholinergic bronchoconstriction induced by vagal stimulation, whereas FK888,at doses inhibiting vagally-induced plasma exudation, did not.8. Decreases in BP induced by SP or [Sar]SP were blocked by both FK888 and FK224. In contrast,neither antagonist had any significant inhibitory effect on the decrease in BP induced by vagal stimulation (in the presence of atropine) or PAF. [beta-Ala]NKA did not decrease BP and neither tachykinin antagonist had any significant effect on this lack of response.9. We conclude that in guinea-pig airways, plasma leakage induced by endogenous tachykinins is mediated predominantly via NK1-receptors, whereas bronchoconstriction is mediated predominantly via NK2-receptors. In addition, SP-evoked decreases in BP are also mediated via NK1 receptors, whereas the contribution of endogenous tachykinins to vagally-induced decreases in BP appears to be minimal.Development of selective tachykinin receptor antagonists will be important in understanding the involvement of tachykinins in airway physiology and pathophysiology, whereas potent dual tachykinin receptor antagonists such as FK224 may have greater therapeutic potential in certain airway diseases in which tachykinins have been implicated in pathogenesis, including asthma and chronic bronchitis associated with cigarette smoking.
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PMID:Effects of two novel tachykinin antagonists, FK224 and FK888, on neurogenic airway plasma exudation, bronchoconstriction and systemic hypotension in guinea-pigs in vivo. 768 42

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