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)

Isbufylline (1,3-dimethyl-7-isobutylxanthine) is a new xanthine derivative claimed to possess remarkable antibronchospastic properties coupled to reduced pro-convulsive side-effects. In guinea-pig bronchial preparations, isbufylline showed a differential and more pronounced, as compared to theophylline, relaxant activity on tonic bronchial contractions evoked by exogenous administration of equieffective concentrations of capsaicin (0.3 microM), neurokinin A (0.1 microM) and carbachol (0.3 microM) (in the presence of indomethacin 5 microM and thiorphan 10 microM). Isubfylline gave an IC50 of 21 (19-25, 95% confidence limits) microM on capsaicin-evoked contractile effects, and 36 (30-43) microM on carbachol-produced contractile effects, whilst it was almost ineffective in inhibiting neurokinin A-induced bronchospasm (IC50 not evaluable, > 100 microM). 'In vitro' studies were also performed using electrical field stimulation (EFS) to produce non-adrenergic non-cholinergic (NANC)- or cholinergic nerves-mediated contractions in guinea-pig isolated bronchi or trachea. Isbufylline (10-90 microM) produced a concentration-dependent inhibition of the NANC response (EFS: 20 Hz, supramaximal voltage, 0.5 ms pulse, width for 10 s) of bronchi (IC50 = 47 microM) without affecting the cholinergic contractile response in tracheal smooth muscle (EFS: 0.5 up to 32 Hz, supramaximal voltage, 0.5 ms pulse, for 15 s every min). The activity of isbufylline was also confirmed in anaesthetized guinea-pig showing a greater antibronchospastic activity towards capsaicin (8 nmol/kg i.v.) or vagal non-cholinergic (10 V, 1 ms, 20 Hz for 20 s) stimulation as compared to the inhibition exerted against acetylcholine (50 nmol/kg i.v.) or neurokinin A (1 nmol/kg i.v.).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isbufylline, a xanthine derivative, inhibits bronchoconstrictor responses produced by stimulation of capsaicin-sensitive sensory nerves in guinea-pig: 'In vitro' and 'in vivo' evidence. 751 49

Intravenous administration of the undecapeptide [Sar9]substance P (SP) sulfone (1.5 nmol/kg) and the hexapeptide [Glp6,Pro9]SP(6-11) (septide; 0.4 nmol/kg) produced a comparable (about 30-40% of maximal effect) increase of insufflation pressure (bronchospasm) in anesthetized guinea-pigs. The non peptide NK-1 receptor antagonist, (+/-)CP 96,345 and the peptide NK-1 receptor antagonist, GR 82,334 antagonized dose-dependently the response to both agonists. Both antagonists were more potent against septide than against [Sar9]SP sulfone (9 and 4 fold difference in ED50 for (+/-)CP 96,345 and GR 82,334, respectively). These findings indicate that a 'septide-sensitive' mechanism mediates bronchoconstriction in vivo and it influences the estimate of the potency of NK-1 receptor antagonists.
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PMID:In vivo evidence for the activation of a septide-sensitive tachykinin receptor in guinea pig bronchoconstriction. 751 7

We examined the effect of dexamethasone on A23187-induced bronchospasm, pulmonary inflammation and airway responses to substance P. Guinea pigs, dosed orally once a day for 4 days with dexamethasone (3.0, 10.0 or 30.0 mg/kg) or saline, were exposed to an aerosol of A23187 for 12 min or until labored breathing began. Postmortem pulmonary gas trapping was used as an indicator of in vivo airway obstruction and changes in bronchial responses. Dexamethasone did not alter airway obstruction or inflammation 1 h after A23187 exposure. However, dexamethasone reduced the enhanced airway responses to substance P and bronchiolar/peribronchiolar inflammation 24 h post-A23187. It is possible that glucocorticosteroid suppression of A23187-induced pulmonary inflammation was important in reducing the increased airway responses to substance P.
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PMID:Effect of dexamethasone on A23187-induced airway responses in the guinea pig. 751 51

1. The antibronchospastic activity against acetylcholine, capsaicin, electrical vagal stimulation and the selective tachykinin agonists ([beta Ala8]NKA-(4-10) and [Sar9]SP sulfone) of a novel NK2 receptor antagonist, MEN10,627 and/or the known NK1 receptor antagonist (+/-)-CP96,345 was studied in anaesthetized guinea-pigs. 2. MEN10,627 (0.1 mumol kg-1 i.v.) and (+/-)-CP96,345 (3 mumol kg-1 i.v.) selectively reduced the bronchospasm induced by NK2 and NK1 tachykinin receptor agonists, respectively, without affecting the other tachykinin receptor agonist- or acetylcholine-induced bronchospastic response. 3. MEN10,627 (0.1 mumol kg-1 i.v.), in a dose-dependent manner, reduced the non-cholinergic response induced by bilateral stimulation of the vagi or by intravenous capsaicin. 4. The administration of (+/-)-CP96,345 (3 mumol kg-1 i.v.) alone did not affect these responses but, when administered in association with the NK2 antagonist, (+/-)-CP96,345, was able to potentiate its inhibitory effect. 5. It is concluded that both NK1 and NK2 receptors are involved in the non-cholinergic bronchoconstriction induced by capsaicin or by stimulation of the vagi, although the NK2 receptor contribution is prominent.
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PMID:Tachykinin NK1 and NK2 receptors mediate the non-cholinergic bronchospastic response to capsaicin and vagal stimulation in guinea-pigs. 753 36

The antibronchospastic activity against acetylcholine, antigen, histamine plus platelet-activating factor (PAF) or the selective tachykinin neurokinin (NK)1 and NK2 receptor agonists of the novel tachykinin NK2 receptor antagonist, MEN10,627 (cyclo(Met-Asp-Trp-Phe-Dap-Leu)cyclo(2 beta-5 beta)), was studied in anesthetized guinea-pigs. MEN10,627 (30-100 nmol/kg i.v.) reduced in a dose-dependent manner the bronchospasm induced by the tachykinin NK2 receptor agonist [beta Ala8]neurokinin A-(4-10) and the effect of the highest dose lasted up to 5 h from its administration. Conversely, airway constriction induced by the NK1 receptor agonist [Sar9]substance P sulfone or acetylcholine was unaffected by MEN10,627 up to a dose of 3 mumol/kg i.v. In animals sensitized with ovalbumin and pretreated with the endopeptidase inhibitor phosphoramidon, the aerosolized antigen produced a bronchospasm which was inhibited by MEN10,627 (30-100 nmol/kg i.v.) but not by the tachykinin NK1 receptor antagonist, (+/-)-CP96,345 ([2R,3R-cis- and [2S,3S)-cis-2-(diphenylmethyl)-N-[(2-methoxyphenyl)-methyl]-1- azabicyclo[2.2.2]octan-3-amine]) (3 mumol/kg i.v.). Both MEN10,627 (30-100 nmol/kg i.v.) and (+/-)-CP96,345 (30-300 nmol/kg i.v.) reduced the PAF-induced hyperresponsiveness to histamine, without affecting the hypotension induced by PAF or the bronchospasm induced by histamine in guinea-pigs not exposed to PAF, showing the involvement of both tachykinin NK1 and NK2 receptors in this model. In summary, MEN10,627 behaves as a potent, selective and long-lasting tachykinin NK2 receptor antagonist in vivo. Further, tachykinin NK2 receptors could be activated during allergic responses and in the development of airway hyperresponsiveness.
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PMID:Antibronchospastic activity of MEN10,627, a novel tachykinin NK2 receptor antagonist, in guinea-pig airways. 773 6

The influence of Evan's blue dye on capsaicin-induced bronchoconstrictor and cough responses was investigated in the guinea pig. Evan's blue (30 mg kg-1 i.v.) pretreatment shifted the bronchoconstrictor dose-response to capsaicin (0.3-100 micrograms kg-1 i.v.) to the right by 10-fold, but had no effect on the bronchospasm elicited by neurokinin A (0.3-10 micrograms kg-1 i.v.). Evan's blue (0.3-30 mg kg-1 s.c.) also inhibited capsaicin-induced cough in a dose-dependent manner. Evan's blue blocked capsaicin responses by the intravenous, subcutaneous, or inhaled routes of administration. We conclude bronchoconstrictor responses and cough in vivo.
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PMID:Evan's blue dye blocks capsaicin-induced cough and bronchospasm in the guinea pig. 778 78

gamma-Aminobutyric acid (GABA), an important inhibitory neurotransmitter in the mammalian CNS, is also found in peripheral tissues, including the lung. Recent pharmacological studies using selective ligands for GABAA and GABAB receptors demonstrate that of these two, the GABAB receptor is the important receptor subtype controlling lung functions. GABAB agonists inhibit a variety of responses in the airways, including neuronally induced cholinergic- and tachykinin-mediated smooth muscle contraction, microvascular leakage, anaphylactic bronchospasm and cough. Because these conditions are seen in certain respiratory diseases, such as asthma, a selective GABAB agonist may have therapeutic potential for the treatment of this respiratory disorder.
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PMID:GABAB receptors in the lung. 838 86

The role of airway inflammation, induced by weekly antigen challenge, in the airway hyperresponsiveness to vagal (whole and NANC components) nerve stimulation and to neurotransmitters (acetylcholine and selective agonists for tachykinin NK1 and NK2 receptors) has been studied in the guinea-pig. Primarily, the time course (3, 7 and 14 days following the last challenge) of the effects of repeated aerosol antigen challenge on airway inflammation and bronchoalveolar fluid cellular composition was investigated. At 7 days following the last antigen challenge a maximal (as compared to 3 and 14 days) inflammatory response, in terms of a diffuse mild to marked infiltration of eosinophils, neutrophils and lymphocytes, was evident throughout pulmonary tissues. Only at this time some evidence of eosinophilia and neutropenia was detectable in BAL fluids. In these animals there was a normal bronchial responsiveness to iv administration of acetylcholine, selective synthetic agonists for the tachykinin NK2 receptors and capsaicin. On the other hand a remarkable airways hyperresponsiveness to iv administration of selective agonists for tachykinin NK1 receptors, as well as electrical stimulation of the vagal nerves (in presence and in absence of atropine), was detected. As a whole, these data indicate that at the peak of the inflammatory airway response following multiple antigen challenge there is a selective hyperresponsiveness to stimulation of vagal (mainly the non-adrenergic, non-cholinergic component) nerves associated with an increase in tachykinins (NK-1)-mediated bronchospasm.
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PMID:Hyperresponsiveness to non-adrenergic, non-cholinergic vagal stimulation following multiple antigen challenge in guinea-pigs. 853 95

Previous studies from our laboratory using exogenously administered neurokinin (NK) agonists have shown that both NK1- and NK2-receptor subtypes are involved in plasma extravasation in the guinea-pig airways. In the present study, we have extended these observations using antidromic vagal stimulation to stimulate sensory c-fibres as a means of eliciting the release of endogenous tachykinins in propranolol- and atropine-treated guinea-pigs. Antidromic vagal stimulation (5 ms, 30 s) induced frequency-dependent (1-10 Hz) bronchoconstriction that was completely abolished by co-administration of the NK1-selective antagonist CP-99,994 ((2s-methoxy-benzyl)-(2-phenyl-piperidin-3s-yl)-amine), and the NK2-selective antagonist SR-48,968 ((S)-N-methyl-N-[4-(4-acetylamino-4-phenyl piperidino)-2-(3,4-dichlorophenyl) butyl]benzamide), each at a dose sufficient to block NK1 and NK2 receptors, respectively (each at 0.3 mg kg-1, i.v.). In contrast, SR-48,968 when given alone only partially blocked the vagal stimulation-induced bronchospasm, whereas CP-99,994 had no effect. Significant increases (2-3-fold) in plasma extravasation of [125I]fibrinogen in the trachea, main bronchi, distal airways and oesophagus following vagal stimulation (5 Hz, 5 min, 10 V, 5 ms) were observed. Pretreatment with the neutral endopeptidase inhibitor, thiorphan (1 mg kg-1, i.v.), and the angiotensin-converting enzyme inhibitor, enalapril (1 mg kg-1, i.v.), potentiated both vagal stimulation-induced bronchoconstriction and plasma leakage in all tissues examined. This potentiation was due to reduced metabolism of endogenously released tachykinins since enhanced plasma overflow of immunoreactive substance P was observed following vagal stimulation in thiorphan- and enalapril-treated guinea-pigs. CP-99,994 substantially blocked plasma leakage in all parts of the airways and in the oesophagus. In comparison, SR-48,968 had no significant effect in the trachea and the oesophagus but partially inhibited plasma leakage in the main bronchi and distal airways. Co-administration of both CP-99,994 and SR-48,968 abolished the residual plasma leakage in these two regions. These results support the hypothesis that both NK1 and NK2 receptors are involved in tachykinin-induced pulmonary responses in the airways.
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PMID:Involvement of NK1 and NK2 receptors in pulmonary responses elicited by non-adrenergic, non-cholinergic vagal stimulation in guinea-pigs. 870 85

The effect of angiotensin-converting enzyme (ACE) inhibition on bronchial responsiveness has not been clearly established. Because ACE degrades bradykinin and substance P, inhibition of the enzyme may lead to accumulation of these potent bronchoconstrictors in the lung, potentially leading to enhanced bronchial reactivity or bronchospasm. Previous studies of the effect of ACE inhibition on airway responsiveness have yielded conflicting results. A randomized, double-blind, placebo-controlled study was therefore conducted to evaluate the effect of a 14-day course of oral lisinopril (10 mg for days 1-3, 20 mg for days 4-14) on bronchial responsiveness to inhaled methacholine in a group of healthy volunteers. No significant change in methacholine responsiveness occurred in any of the participants receiving lisinopril. The mean ( +/- SD) concentration of methacholine producing a decrease in FEV1 of 20% from baseline (PC20; mg/mL) was 23.3 +/- 5.0 before the study and 23.5 +/- 4.5 at the end of the study for the lisinopril group, and 23.0 +/- 4.6 before the study and 21.8 +/- 6.9 after the study for the placebo group. The 14-day course of ACE inhibitor therapy did not enhance nonspecific bronchial responsiveness in healthy volunteers.
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PMID:Effect of angiotensin-converting enzyme inhibition on bronchial responsiveness. 872 51


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