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)

Several new drugs are now under development for the treatment of asthma, either as improvements to existing classes of therapy or as novel agents. Amongst bronchodilators, long-acting inhaled beta 2-agonists (salmeterol and formoterol) look very promising and there is also interest in selective phosphodiesterase inhibitors, K+ channel-openers and nitrodilators. There are several new inhaled corticosteroids under development and more selective agents include leukotriene antagonists, 5-lipoxygenase inhibitors, bradykinin and tachykinin antagonists and immunomodulators. In the future, adhesion molecule inhibitors and cytokine inhibitors may be developed.
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PMID:New drugs for asthma. 135 72

The effect of ozone (3 ppm, 15-120 min) on bronchial reactivity in the guinea-pig was studied. Ozone induced marked (6-250-fold) bronchial hyperreactivity (BHR) to a range of inhaled, but not intravenous bronchoconstrictors. The degree of BHR was related to the duration of prior ozone exposure. The glutathione redox status was shifted to a more oxidized state in lung after 120 min ozone treatment, although no changes were found in the energy status of lung tissue, as judged by the concentrations of adenosine phosphates. Ascorbic acid pretreatment prevented BHR induced by 30 min ozone exposure. Neutral endopeptidase inhibitors elicited BHR to both substance P and histamine, but did not further enhance bronchoconstriction to substance P after ozone exposure for 120 min. Neither mepyramine, fentanyl, indomethacin nor a 5-lipoxygenase inhibitor (BW B70C), given prior to ozone exposure prevented the induction of BHR to histamine. Atropine or bilateral vagotomy reduced BHR after a 120-min, but not 30-min exposure to ozone. We conclude that in the guinea-pig, ozone induces non-specific, route-dependent BHR by oxidative injury, reducing airway NEP activity and enhancing the cholinergic and peptidergic component to bronchoconstriction. Neither cyclooxygenase nor 5-lipoxygenase products appear to play a role in ozone-induced BHR in this animal model.
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PMID:Mechanisms contributing to ozone-induced bronchial hyperreactivity in guinea-pigs. 137 22

1. Intravenous administration of substance P (SP) or of the NK1 selective agonist [beta-Ala4, Sar9, Met (O2)11] SP-(4-11) increased vascular permeability in the urinary bladder of urethane-anaesthetized rats, providing evidence for an NK1 receptor-mediated inflammatory response. 2. BW 755C, a dual inhibitor of arachidonate cyclo-oxygenase and lipoxygenase, significantly reduced the plasma extravasation induced by SP, but did not modify the effect of [beta-Ala4, Sar9, Met (O2)11] SP-(4-11). 3. SP-induced microvascular leakage was also inhibited by systemic pretreatment with indomethacin or with the prostaglandin receptor antagonist SC-19220, while it was unaffected by the selective 5-lipoxygenase inhibitor BW A4C or the leukotriene antagonist FPL 55712. 4. Pretreatment of rats with the mast cell degranulating agent compound 48/80 significantly attenuated the inflammatory effect of SP. Indomethacin administration to 48/80-pretreated animals failed to produce further inhibition. 5. These findings indicate that intravascular SP promotes plasma exudation in rat urinary bladder through an NK1-mediated effect on venular permeability and the release of cyclo-oxygenase metabolites of arachidonic acid. The latter effect largely derives from the interaction of the neuropeptide with mast cells.
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PMID:Microvascular leakage induced by substance P in rat urinary bladder: involvement of cyclo-oxygenase metabolites of arachidonic acid. 138 Sep 64

During anaphylaxis the sensitized liver can have substantial capacity for leukotriene production. However, the intrahepatic cellular source for these potent eicosanoid mediators has been unclear so far. We therefore analyzed the appropriate role of resident liver cells in organ-specific generation of leukotrienes by immunohistochemical localization of 5-lipoxygenase, by measurement of cysteinyl leukotriene production in animals or isolated livers and by histochemical monitoring of mast cells in rat, guinea pig and mouse livers, respectively. During anaphylaxis in vivo, these species all generated large amounts of leukotrienes. Immunohistochemistry with rat liver demonstrated resident mast cells as the predominant cell type in liver containing 5-lipoxygenase. Rat and guinea pig livers contained numerous mast cells and produced substantial amounts of leukotrienes on antigen challenge; in contrast, mouse livers neither showed detectable mast cells nor generated leukotrienes when stimulated analogously. Infusion of histamine or serotonin (1 mmol/L each) or of the degranulating substance P (8 mumol/L) did not elicit leukotriene generation in rat livers. Furthermore, substantial degranulation of liver mast cells by compound 48/80 (0.5 mg/kg body mass) was paralleled by only modest leukotriene formation (63 +/- 10 pmol in bile/kg body mass/30 min). These results indicate that during anaphylaxis mast cells are the main intrahepatic cells initiating leukotriene production and that such leukotriene generation is likely to be independent of mast cell degranulation or the release of histamine or serotonin.
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PMID:Resident mast cells are the main initiators of anaphylactic leukotriene production in the liver. 144

The presence and the possible mechanism of action of the inhibitory nonadrenergic, noncholinergic nerve system (i-NANC) were investigated in guinea pig pulmonary artery (PA) precontracted with U44069 (a thromboxane analog). In the presence of alpha adrenergic blockage, electrical field stimulation induced a frequency-dependent, tetrodotoxin-sensitive relaxation. This relaxation was reduced by 9.1 +/- 1.9 and 19.4 +/- 2.8% by atropine (1 microM) and combined atropine and propranolol (both 1 microM), indicating that the main component is mediated by i-NANC neural mechanisms. In the branch PA rings, this i-NANC relaxation was unaffected by pretreatment with a cyclooxygenase inhibitor (indomethacin, 10 microM), 5-lipoxygenase inhibitor (A63162, 1 microM) or substance P desensitization, but was inhibited markedly by the P2y-purinoceptor antagonist reactive blue 2 (30 microM) and slightly potentiated by the peptidase alpha-chymotrypsin (2 U/ml). L-NG-monomethyl-arginine(L-NMMA), a nitric oxide synthesis inhibitor, caused a concentration-dependent inhibition of the i-NANC relaxation (53.9 +/- 4.1% at 100 microM), but had no effect on equivalent nitroprusside-induced relaxation. The inhibitory effect of L-NMMA was reversed completely by L-arginine (300 microM), but not by D-arginine (300 microM). Removal of vascular endothelium greatly reduced the i-NANC relaxation in the branch PA rings, but had no effect on i-NANC relaxation in main PA rings. Both in vivo capsaicinization and in vitro desensitization with capsaicin (1 microM) caused a significant reduction of the i-NANC relaxation in main PA, but had no significant effect in the branch PA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelium-dependent nonadrenergic, noncholinergic neural relaxation in guinea pig pulmonary artery. 173 4

1. Functional studies have been performed to evaluate the potential involvement of capsaicin-sensitive nerves in the bronchomotor responses evoked by lipid mediators produced from the metabolic breakdown of arachidonic acid (AA) in the guinea-pig bronchus. 2. In the presence of indomethacin, the exogenous administration of AA (0.01-1 mM) produced a concentration-dependent contractile response in guinea-pig isolated bronchial rings. AA-induced contractions were augmented by epithelium-removal and by thiorphan (10 microM), an inhibitor of tachykinin breakdown. A sustained downward and rightward displacement of the complete concentration-response curve to AA was observed after in vitro capsaicin desensitization. 3. BWA4C (1 microM), a selective inhibitor of 5-lipoxygenase, shifted the AA concentration-response curve to the right. In the presence of this inhibitor, capsaicin desensitization did not have any further inhibitory action. 4. A potent, concentration-dependent and capsaicin-sensitive bronchoconstrictor effect was also observed with the polypeptide, melittin (10 nM-1 microM), an activator of phospholipase A2, which therefore should generate endogenous AA. 5. In vitro capsaicin-desensitization produced a significant reduction of the bronchomotor responses evoked by lipoxin A4 (1-6 microM), but not of those elicited by other lipoxygenases products such as leukotriene D4 (1-100 nM) or by 15-hydroxyeicosatetraenoic acid (15-HETE, 1-6 microM). 6. These findings indicate that lipoxin A4 but not leukotriene D4 or 15-HETE, might be one of the lipoxygenase mediators of excitatory effects of AA on capsaicin-sensitive sensory nerves.
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PMID:Involvement of capsaicin-sensitive nerves in the bronchomotor effects of arachidonic acid and melittin: a possible role for lipoxin A4. 190 31

The great discovery by Furchgott of the relaxing factor released from the endothelium (EDRF) awakened us to the necessity to reevaluate the functional importance of endothelial cells that have been chemically or physically stimulated. EDRF was first demonstrated to be released by acetylcholine, substance P, bradykinin and calcium ionophore A23187; thereafter, many substances have been found to release EDRF. This factor is quite unstable, is not produced by cyclooxygenase, and is an activator of soluble guanylate cyclase that synthesizes cyclic GMP; its action is suppressed by antioxidants via the superoxide anions produced, potentiated by superoxide dismutase and abolished by methylene blue and oxyhemoglobin. Recently, the role of lipoxygenase products in the production of EDRF was evaluated with new 5-lipoxygenase inhibitors without antioxidant activity. During the last couple of years, the actions and chemical properties of EDRF were verified to be quite similar to those of nitric oxide (NO); therefore, the hypothesis of "EDRF = NO" is widely being accepted. NO is produced from L-arginine via catalysis by an enzyme that is activated by Ca2+. The enzyme activity is inhibited by L-monomethyl arginine and other L-arginine analogs. Chemical and physical stimulations increase intracellular Ca2+ in endothelial cells that seems to be associated with K(+)-channel opening and hyperpolarization. Current interests are directed to the possible roles of NO in the regulation of nerve function. There are evidences suggesting that NO modulates adrenergic nerve function in blood vessels and some brain cell functions regulated by cellular cyclic GMP. Particularly, NO may be a transmitter substance in non-adrenergic, non-cholinergic vasodilator nerves innervating the cerebral arteries. Future investigations will determine the physiological roles of EDRF or NO and its relationships to pathophysiology of vascular dysfunctions, such as vasospasm and those related to hypertension, diabetes, aging, etc., and the extended roles of NO in nerve function, inflammation, immune reactions, etc. would be clarified more extensively by accelerated progress in this field of research.
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PMID:[Endothelium-derived relaxing factor (EDRF)]. 216 93

Acetylcholine and substance P applied to the donor tissue, dog femoral artery segments with endothelium, produced moderate relaxations of the assay tissue, endothelium-denuded dog coronary artery strips. The relaxation was attenuated markedly by treatment of the assay tissue with hydroquinone and abolished by oxyhemoglobin or methylene blue. In this bioassay system, the effect of AA861 and TMK777, new 5-lipoxygenase inhibitors, was evaluated. When the donor tissue was treated with AA861 or TMK777, the responses to acetylcholine and substance P were attenuated moderately, whereas the relaxation by nitroglycerin was not influenced by AA861. However, the inhibitors when infused just below the donor tissue did not attenuate relaxant responses to acetylcholine and substance P. Application of superoxide dismutase (SOD) to the donor tissue caused a relaxation of the assay tissue, and potentiated the relaxation by acetylcholine and substance P. AA861 and TMK777 suppressed the relaxant responses to acetylcholine and substance P, respectively, in the presence and absence of SOD to a similar extent and abolished the SOD-induced relaxation. Pyrogallol abolished the relaxation by acetylcholine, but did not inhibit the response when the donor tissue was pretreated with SOD. Therefore, it appears that AA861 and TMK777 do not degrade endothelium-derived relaxing factor (EDRF) in the perfusate via generation of superoxide anion or block the action of EDRF on vascular smooth muscle, but interfere with the synthesis and/or release of EDRF. The findings obtained so far support the idea that lipoxygenase products participate in the generation of EDRF.
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PMID:Possible involvement of 5-lipoxygenase products in the generation of endothelium-derived relaxing factor. 247 45

Three major lines of evidence support a role of eicosanoids and PAF in shock. Formation of each of the cyclooxygenase metabolites of arachidonate is enhanced at some point during the shock; these metabolites include PGE2, PGF2 alpha, PGI2, and TXA2. Enhanced formation of 5-HETE and the cysteinyl-LTs provides evidence for activation of the 5-lipoxygenase pathway of arachidonate metabolism, and preliminary biochemical evidence suggests that formation of PAF in anaphylactic and endotoxic shock is also enhanced. Second, TXA2, cysteinyl-leukotrienes, and, to an even greater extent, PAF are able to produce shock and death in intact animals. Third, pharmacological studies show that selective antagonists or synthesis inhibitors modify the course of the shock. While any of these lines of evidence may not by itself provide proof for a cause-effect relationship, the data taken together strongly suggest that vasoactive lipids might be involved in fundamental processes in the pathophysiology of shock. However, the role of vasoactive lipids might vary in different shock paradigms, change at various time points during the evolution of the shock, and depend on the species studied. Moreover, while the majority of the reports tend to focus on a specific substance, the metabolism of all of the eicosanoids mentioned, as well as PAF and probably other arachidonate metabolites (e.g. 15-lipoxygenase products such as lipoxins), changes during shock states. This fact probably causes most of the discrepancies in studies using specific antagonists or synthesis inhibitors to modify the state of shock. Thus, while blockade of one mediator might provide some protection, it might not be sufficient to halt or reverse the main course of the pathophysiological process. For example, the increase in vascular permeability, a fundamental phenomenon in trauma, anaphylaxis, or endotoxemia, might be mediated by PAF, LTs, PGs, peptides (e.g. kinins, substance P, CGRP) and amines (e.g. histamine in some species). Attempting to reverse such a complex phenomenon by blocking one specific factor might not be productive unless the specific substance played a key role in generation of the other factors. It seems, however, that while interactions between PGs, LTs, and PAF do occur (31, 32, 70), none of the shock states are crucially dependent on one class of the vasoactive lipids. Therefore, the therapeutic strategy should be based on multiple sites of action, either by drug combinations or multiple actions of a specific drug.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Prostaglandins, leukotrienes, and platelet-activating factor in shock. 303 39

Somatostatin enhances an inward rectifier K conductance in cultured locus coeruleus neurons, while substance P reduces an inward rectifier K conductance in cultured nucleus basalis and locus coeruleus neurons. The role of arachidonic acid metabolites in these responses was studied. The somatostatin-induced response was reduced by phospholipase A2 inhibitors, non-specific lipoxygenase inhibitors and specific 5-lipoxygenase inhibitors. A cyclooxygenase inhibitor and a 12-lipoxygenase inhibitor had no effect. 5(S)-HPETE occasionally increased the K conductance, but failed to occlude the somatostatin response. The substance P response was suppressed by a 5-lipoxygenase inhibitor but not by a 12-lipoxygenase inhibitor. These results suggest that the 5-lipoxygenase pathway is not a specific messenger of either one of these responses, but that it plays a more general role in maintaining or enhancing the effectiveness of both somatostatin and substance P responses.
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PMID:The role of arachidonic acid metabolism in somatostatin and substance P effects on inward rectifier K conductance in rat brain neurons. 753 42

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