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)

Axon reflex mechanisms may be involved in the pathogenesis of asthma, but there has been no direct evidence that endogenous tachykinins cause bronchoconstriction in asthmatic subjects. We have studied the effect of a tachykinin receptor antagonist (FK-224) on bronchoconstriction induced by inhalation of bradykinin in asthmatic patients. In a double-blind, placebo-controlled, crossover trial, ten subjects with stable asthma were given FK-224 (4 mg) or placebo by inhalation 20 min before challenge with bradykinin (0-1250 micrograms/ml, five breaths of each concentration) given with 5 min intervals. Bradykinin caused dose-dependent bronchoconstriction in all subjects. FK-224 significantly opposed the bronchoconstrictor effect; the geometric mean of the cumulative concentration required to elicit a 35% fall in specific airway conductance was 5.3 micrograms/ml after placebo and 40 micrograms/ml after FK-224 (p < 0.001). Inhalation of bradykinin caused coughing in three subjects, which was inhibited by FK-224 in all three. Antagonism of the tachykinin receptor by FK-224 greatly inhibited both bronchoconstriction and coughing induced by bradykinin in asthmatic patients, suggesting that tachykinin release from the airway sensory nerves is involved in responses to bradykinin. Tachykinin receptor antagonists may be useful in the treatment of asthma.
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PMID:Protection against bradykinin-induced bronchoconstriction in asthmatic patients by neurokinin receptor antagonist. 135 19

Idrapril is the prototype of a new chemical class of angiotensin converting enzyme (ACE) inhibitors, the hydroxamic non-amino acid derivatives. Idrapril strongly inhibited rat and human plasma ACE and rabbit lung ACE (IC50: 7-12 nM) as well as the pressor response induced by angiotensin I in anesthetized rats (ED50: 63 nmol/kg i.v.). Idrapril (0.04-23 mumol/kg i.v.) lowered the blood pressure dose dependently, up to 20-35%, in different models of hypertension (sodium-depleted spontaneously hypertensive rat, two-kidney-one-clip renal hypertensive rat, and aortic-coarctated rat), its profile being similar to that of captopril in terms of potency and efficacy. Idrapril and captopril reduced the blood pressure and potentiated substance P-induced bronchoconstriction in the guinea pig to the same extent, suggesting a similar degree of ACE inhibition in the circulation. However, idrapril potentiated capsaicin-induced bronchoconstriction (a model that has been related to the liability of ACE inhibitors to produce cough in patients) less effectively than captopril. We conclude that effective ACE inhibition in vitro and in vivo can be obtained with this novel class of compounds.
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PMID:Pharmacology of idrapril: a new class of angiotensin converting enzyme inhibitors. 138 23

Imbalance between peptides such as substance P and bradykinin, and related enzymes degrading these peptides may cause the development of cough in various pathological conditions. On the other hand, lack of cough reflex may cause aspiration pneumonia. Down and up regulation by peptides may be useful for treatment of cough and prevention of aspiration pneumonia.
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PMID:[Cough reflex in respiratory disease]. 169 91

It has been proposed that angiotensin converting enzyme (ACE) may play a part in the metabolism of substance P. Reduced metabolism following treatment with ACE inhibitors may cause accumulation of substance P to produce the adverse effect of cough. It has been shown in this study that, in contrast to angiotensin I and bradykinin, inhibition of local vascular ACE does not interfere with the vascular effects of substance P on forearm resistance vessels when this peptide is infused into the brachial artery of normal volunteers. These results suggest that endothelial ACE plays little part in the metabolism of intravascular substance P.
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PMID:The effect of local converting enzyme inhibition on the dilator response to substance P in the human forearm. 169 17

1. The effects of intravenous captopril and enalaprilic acid on the increase in pulmonary inflation pressure induced by different bronchoconstrictor agents were evaluated in the anaesthetized guinea-pig. 2. Captopril and enalaprilic acid (1.6-200 micrograms kg-1) enhanced dose-dependently the bronchoconstriction (BC) induced by substance P. The threshold effective dose was 1.6 micrograms kg-1 and maximal potentiation over the control response was more than 400% for both agents. Enalaprilic acid was also assayed for serum and lung angiotensin converting enzyme (ACE) inhibition in anaesthetized guinea-pigs. This drug produced a dose-dependent inhibition of ACE in both tissues, with ED50 s of 7.6 and 9.4 micrograms kg-1, respectively: this inhibitory activity was positively correlated to substance P potentiation. 3. Captopril (8-1000 micrograms kg-1) enhanced dose-dependently the BC induced by capsaicin. The threshold effective dose was 40 micrograms kg-1 and maximal potentiation about 90%. 4. Captopril (200-1000 micrograms kg-1) did not affect BC induced by bradykinin. However, this response was markedly enhanced (about 200%) by captopril 200 micrograms kg-1 in propranolol-pretreated animals. 5. Captopril and enalaprilic acid (200-1000 micrograms kg-1) slightly (20-40%) but significantly enhanced the BC induced by 5-hydroxytryptamine. However, this response was potentiated to the same extent by a dose of prazosin, which produced a degree of hypotension similar to that observed after administration of the ACE inhibitors. 6. In conclusion, ACE inhibitors potentiate the BC induced by substance P and, to a minor extent, that induced by capsaicin in the anaesthetized guinea-pig. Potentiation of substance P is well correlated with ACE inhibition in guinea-pig serum and lungs. These experimental results may offer a mechanistic interpretation of cough and bronchial hyperreactivity observed in patients receiving treatment with ACE inhibitors.
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PMID:Angiotensin converting enzyme inhibitors potentiate the bronchoconstriction induced by substance P in the guinea-pig. 169 96

The subjects, six asthmatic patients with mild essential hypertension, were aged 48 to 63 years and each was being treated with theophylline. Five patients received 10 mg of enalapril daily for two weeks and one received 5 mg for four weeks. Their bronchial responses to inhaled methacholine were measured with a modification of the 3-Hz oscillation method before and after the enalapril treatment. The patients' mean blood pressures decreased significantly from 180.7/100.3 to 152.0/93.3 mmHg after treatment. No treatment-associated changes in the frequency of coughing, the number of asthmatic attacks, or use of antiasthmatic drugs were noted. The results of the bronchial provocation tests revealed no changes in bronchial sensitivity or reactivity during treatment. Serum substance P levels were 61.3 pg/ml before treatment and 60.2 pg/ml after treatment. It is concluded that therapeutic doses of enalapril did not exacerbate asthmatic attacks or increase bronchial hypersensitivity in these asthmatic, hypertensive patients.
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PMID:Bronchial responses to enalapril in asthmatic, hypertensive patients. 169 64

We studied the effects of angiotensin converting enzyme (ACE) inhibitors on cough responses to bradykinin (BK), substance P (SP) and citric acid in a double blind, random study on 10 hypertensive patients receiving ACE inhibitors. Of these patients, five had reported cough with ACE inhibitors. Cough responses to citric acid were similar between patients with and without cough, and SP up to 10(-5) M did not cause cough in any of the subjects. BK caused cough at 13.4 +/- 1.2 (-log M) in 5 patients with cough associated with ACE inhibitors, but it did not cause cough at concentrations up to 10(-5) M in other 5 patients. One month after the withdrawal of ACE inhibitors, 5 patients were free from cough symptoms, and BK did not cause cough up to 10(-5) M in these patients, except for one who coughed at 10(-9) M, without changes in responses to citric acid. BK caused cough at 14.3 +/- 0.7 (-log M) although BK1-7, a major metabolite of BK by ACE, caused cough at 5.7 +/- 0.7 (-log M) in another 3 patients with cough associated with ACE inhibitor. These results suggest that impaired metabolism of BK induced by ACE inhibitors may relate to the manifestation of cough in hypertensive patients receiving ACE inhibitors.
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PMID:Bradykinin-induced cough reflex markedly increases in patients with cough associated with captopril and enalapril. 172 Dec 46

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

Angiotensin converting enzyme inhibitors (ACEI) are used widely in the treatment of both hypertension and congestive heart failure. Although usually well tolerated, these medications may produce side effects that may be encountered by the allergist, including cough, angioedema, and rhinitis symptoms. The severity of ACEI-induced cough may vary, and is associated with increased bronchial hyperreactivity in some (but not all) patients as judged by methacholine sensitivity. Angiotensin converting enzyme inhibitor-induced cough may have its onset from one day to 12 months after initiation of therapy, and is not dose dependent. Angioedema caused by ACEI is usually mild and clears with discontinuation of the drug, however cases requiring intubation and tracheostomy have been reported. The mechanism of ACEI-induced cough remains unclear, but could be in part due to accumulation of substances whose degradation may also be impeded by ACEI, such as substance P, bradykinins, and/or prostaglandins. Knowledge of the side effects produced by this class of medication may help patients avoid unnecessary, costly, and often invasive diagnostic evaluations.
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PMID:Angiotensin converting enzyme inhibitors and the allergist. 222 91


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