UMLS:C0010200 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0010200 (cough)
23,843 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To investigate the genetic susceptibility associated with cough related to angiotensin-converting enzyme inhibitor (ACEI) therapy in patients with type 2 diabetes, 189 non-insulin-dependent diabetes mellitus (NIDDM) patients with proteinuria or hypertension treated with perindopril were studied. Cough was considered to be present if the patients had been bothered by a cough during treatment and if they had had related symptoms for at least 2 weeks without an identifiable cause. Polymerase chain reaction (PCR) coupled with single-strand conformation polymorphism (SSCP) was used to detect polymorphisms of ACE and bradykinin B2-receptor genes. After 8 weeks of treatment, 49.2% (93 of 189) of our NIDDM patients were found to be suffering from ACEI-related cough. ACEI-related cough was mainly associated with female patients, with 71.7% (76 of 106) of female and only 20.5% (17 of 83) of male patients experiencing cough after ACEI treatment. There was a significant association of ACE II genotype with ACEI-related cough. The genotype frequencies were 58.2% for II, 47.8% for ID, and 16.7% for DD in patients with ACEI-associated cough and 41.8% for II, 52.2% for ID, and 83.3% for DD in subjects without ACEI-associated cough (chi(2) = 10.268; df = 2, P =.006). As female patients made up the majority of the subjects suffering from ACEI-related cough, we further analyzed the association of ACE I/D genotype with ACEI-related cough separately by sex. Male patients with ACEI-related cough were not associated with ACE I/D genotype distribution, while female patients were strongly associated with ACE I/D genotype polymorphism (chi(2) = 16.12; df = 2; P <.001). There was no association between the bradykinin B2 receptor gene -58T/C polymorphism with ACEI-related cough. In conclusion, our results indicate that Chinese diabetic female subjects are susceptible to ACEI-related cough, and this susceptibility may be genetically predetermined.
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PMID:Angiotensin-converting enzyme gene insertion/deletion, not bradykinin B2 receptor -58T/C gene polymorphism, associated with angiotensin-converting enzyme inhibitor-related cough in Chinese female patients with non-insulin-dependent diabetes mellitus. 1169 55

In asthma patients, microaspiration of acid into the lower airways (ie, airway acidification) causes such respiratory responses as cough and bronchoconstriction. The mechanism of bronchoconstriction induced by airway acidification is unknown, although evidence is emerging that increasing proton concentrations in airway tissues can activate a subpopulation of primary sensory neurons, so-called capsaicin-sensitive primary sensory neurons, that contain such neuropeptides as the tachykinins substance P (SP) and neurokinin A (NKA). Protons activate a capsaicin-operated channel/receptor, located in the afferents of capsaicin-sensitive neurons, with the subsequent opening of ion channels that are permeable to sodium, potassium, and calcium ions. This event initiates a propagated action potential that antidromically depolarizes collateral fibers and triggers neuropeptide release from nerve fiber varicosities. The tachykinins SP and NKA, released from terminals of primary sensory neurons in peripheral tissues, cause all the major signs of inflammation (neurogenic inflammation) by means of activation of NK(1) and NK(2) receptors. Exposure of the airways to acidic solutions stimulates sensory nerve endings of capsaicin-sensitive sensory neurons and causes different airway responses, including bronchoconstriction. Recently, the NK(2), and to a lesser extent the NK(1), receptors have been shown to be involved with citric acid-induced bronchoconstriction in the guinea pig, which is in part mediated by endogenously released bradykinin. Tachykinins and bradykinin, released by airway acidification, could also modulate citric acid-induced bronchoconstriction by their ability to subsequently release the epithelially derived bronchoprotective nitric oxide (NO). Further study with selective tachykinin NK(1) and NK(2) agonists demonstrated that only the septide-insensitive tachykinin NK(1) receptor releases NO. Thus, bronchoconstriction induced by citric acid inhalation in the guinea pig, mainly caused by the tachykinin NK(2) receptor, is counteracted by bronchoprotective NO after activation of bradykinin B(2) and tachykinin NK(1) receptors in airway epithelium. If a similar mechanism is involved in the pathogenesis of bronchial asthma associated with gastroesophageal reflux in the respiratory tract, new therapeutic strategies should be investigated.
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PMID:Mechanisms of citric acid-induced bronchoconstriction. 1174 19

Perindopril is a long-acting ACE inhibitor, acting through its only active metabolite perindoprilat. It inhibits the renin-angiotensin system by preventing both the conversion of angiotensin I to angiotensin II and the degradation of bradykinin, thereby reducing the vasoconstriction and left ventricular remodelling characteristic of heart failure. Perindopril 4mg significantly improved a range of haemodynamic parameters in single-dose and long-term (8 weeks and 3 months) studies involving patients with congestive heart failure (CHF), with little or no effect on blood pressure or heart rate. In randomised, double-blind, placebo-controlled clinical trials conducted over 3 months and a large noncomparative study (up to 30 months), perindopril 4mg once daily significantly increased exercise tolerance and reduced symptoms of heart failure in patients with mild to moderate CHF. Perindopril 4mg once daily is generally well tolerated in patients with mild to moderate CHF. In a large noncomparative study the most commonly reported adverse clinical event was cough, which led to 2.8% of patients discontinuing treatment. In short-term comparative trials there was a significantly lower incidence of first-dose hypotension following the recommended starting dose of perindopril 2mg than after the equivalent starting doses of captopril, enalapril and lisinopril.
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PMID:Perindopril: in congestive heart failure. 1207 91

Cough is initiated by activation of afferent nerve fibers with rapidly adapting receptors (RAR) that conduct action potentials in the Adelta range. In addition, various stimuli that activate airway unmylenated C-fibres evoke cough reflexes. We have used a vagally innervated, larynx-trachea-bronchus preparation, isolated from guinea pigs, to study the pharmacology of RARs and C-fibres in vitro. In this preparation afferent fibres with the RAR phenotype are exquisitely sensitive to mechanical perturbation of their receptive fields, but are unaffected by a variety of mediators (e.g. prostaglandins, histamine, bradykinin, serotonin) and by capsaicin. By contrast, C-fibres are much less sensitive to mechanical stimulation, but can be activated by capsaicin and bradykinin. Preliminary evidence supports the hypothesis that bradykinin activate C-fibre by stimulating the capsaicin (vanilloid) receptor VR1. Acids activate both C-fibres and RARs. Acids stimulate RAR fibres by a mechanism that is rapidly inactivated. C-fibres are stimulated by both a rapidly inactivating mechanism, as well as a slowly inactivating mechanism. Drugs that block VR1 inhibit the latter mechanism. Airway inflammation substantially increases the mechanical sensitivity of RAR fibres without affecting their adaptive properties. Airway inflammation also causes a phenotypic switch in neuropeptide innervation of the airways that RAR neurons begin to synthesis neurokinins and calcitonin gene related peptide. In non-inflamed animals these peptides are expressed only in C-fibre neurons. Thus, airway inflammation may not only increase the sensitivity of cough fibres, but may also qualitatively change the role played by sensory neuropeptides in cough reflexes.
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PMID:Physiology and plasticity of putative cough fibres in the Guinea pig. 1209 67

In comparison with a series of reference compounds, (2R-trans)-4-[1-[3,5-bis(trifluoromethyl)benzoyl]-2-(phenylmethyl)-4-piperidinyl]-N-(2,6-dimethylphenyl)-1-acetamide (S)-Hydroxybutanedioate (R116301) was characterized as a specific, orally, and centrally active neurokinin-1 (NK(1)) receptor antagonist with subnanomolar affinity for the human NK(1) receptor (K(i): 0.45 nM) and over 200-fold selectivity toward NK(2) and NK(3) receptors. R116301 inhibited substance P (SP)-induced peripheral effects (skin reactions and plasma extravasation in guinea pigs) and a central effect (thumping in gerbils) at low doses (0.08-0.16 mg/kg, s.c. or i.p.), reflecting its high potency as an NK(1) receptor antagonist and excellent brain disposition. Higher doses blocked various emetic stimuli in ferrets, cats, and dogs (ED(50) values: 3.2 mg/kg, s.c.; 0.72-2.5 mg/kg, p.o.). Even higher doses (11-25 mg/kg, s.c.) were required in mice (capsaicin-induced ear edema) and rats (SP-induced extravasation and salivation), consistent with lower affinity for the rodent NK(1) receptor and known species differences in NK(1) receptor interactions. R116301 inhibited the ocular discharge (0.034 mg/kg) but not the dyspnoea, lethality, or cough (>40 mg/kg, s.c.) induced by [betaALA(8)]-neurokinin A (NKA) (4-10) in guinea pigs, attesting to NK(1) over NK(2) selectivity. R116301 did not affect senktide-induced miosis (>5 mg/kg, s.c.) in rabbits, confirming the absence of an interaction with the NK(3) receptor. R116301 was inactive in guinea pigs against skin reactions induced by histamine, platelet-aggregating factor, bradykinin, or Ascaris allergens (>10 mg/kg, s.c.). In all species, R116301 showed excellent oral over parenteral activity (ratio, 0.22-2.7) and a relatively long duration (6.5-16 h, p.o.). The data attest to the specificity and sensitivity of the animal models and support a role of NK(1) receptors in various diseases.
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PMID:Pharmacological profile of (2R-trans)-4-[1-[3,5-bis(trifluoromethyl)benzoyl]-2-(phenylmethyl)-4-piperidinyl]-N-(2,6-dimethylphenyl)-1-acetamide (S)-Hydroxybutanedioate (R116301), an orally and centrally active neurokinin-1 receptor antagonist. 1213 Jul 34

Bradykinin (BK) and related kinins are autocoid peptides that play integral roles in many pathophysiological processes such as cough. In this study, the inhibitory effect of noscapine, the antitussive opioid alkaloid, on BK receptors, was tested in the guinea-pig ileum. Contractions of the isolated ileum of the guinea-pig in response to BK were inhibited by noscapine (10-1,000 nM) in a concentration-dependent manner. Concentration-response curves (CRCs) to BK were slightly shifted to the right with a concomitant decrease in the maximum effect. A pA2 value of 6.68 was calculated for noscapine. The slope of the Schild plot of the antagonism was found to be 0.56. Noscapine had no effect on contractions induced by KCl, acetylcholine, histamine, 5-hydroxy tryptamine or angiotensin II. In conclusion, noscapine has a specific antagonistic effect on BK receptors and the mode of inhibition was found to be non-competitive.
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PMID:Efffect of noscapine, the antitussive opioid alkaloid, on bradykinin-induced smooth muscle contraction in the isolated ileum of the guinea-pig. 1216 81

Angiotensin II receptor antagonists block angiotensin II type 1 (AT1) receptors and reduce the pressor effects of angiotensin in the vasculature. By this mechanism, they induce similar pharmacological effects to angiotensin-converting enzyme (ACE) inhibitors, resulting in a lowering of blood pressure (BP). However, AT1 antagonists differ from ACE inhibitors with respect to side effects, and induce less cough, which is related to bradykinin activation. Within the class of angiotensin II antagonists, eprosartan differs from other currently clinically available agents in terms of its chemical structure and its dual pharmacological mode of action. Eprosartan acts not only at vascular AT1 receptors but also at presynaptic AT1 receptors, causing inhibition of sympathetically stimulated noradrenaline release. Eprosartan is not metabolized by cytochrome P450 enzymes and therefore has a low potential for metabolic drug interactions, which may be of importance when treating the elderly and patients on multiple drugs. In clinical trials eprosartan has proven to be at least as effective as the ACE inhibitor enalapril in reducing BP, but with a significantly lower incidence of side effects. Eprosartan is safe, effective and well tolerated in long-term treatment, either as monotherapy or in combination with other antihypertensive drugs such as hydrochlorothiazide.
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PMID:The clinical profile of the angiotensin II receptor blocker eprosartan. 1218 62

Angioedema and cough are known side effects of angiotensin-converting enzyme (ACE) inhibitors. Angiotensin-converting enzyme is a potent inhibitor of kinase II, which facilitates the breakdown of bradykinin. An increase in bradykinin levels results in continued prostaglandin E2 synthesis, vasodilation, increased vascular permeability, and increased interstitial fluid. In contrast, the angiotensin II receptor blockers (ARBs) do not increase bradykinin levels. Angioedema as a complication of ACE inhibitor therapy is not widely recognized; this complication is even less recognized with second-line ARBs. We report angioedema associated with losartan (an ARB) in a patient who had experienced angioedema secondary to enalapril (an ACE inhibitor). Almost half of patients with ARB-associated angioedema also had developed angioedema while receiving ACE inhibitor therapy. Clinicians should exercise caution when using ARBs in patients with a history of angioedema secondary to ACE inhibitors.
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PMID:Angiotensin II receptor blocker-associated angioedema: on the heels of ACE inhibitor angioedema. 1222 53

1. Bradykinin (BK) is a nine amino acid peptide (Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg) formed from the plasma precursor kininogen during inflammation and tissue injury. The actions of BK are mediated by G protein-coupled cell surface receptors, designated B1 and B2. 2. BK has a plethora of effects in the airways including bronchoconstriction, bronchodilation, stimulation of cholinergic and sensory nerves, mucus secretion, cough and oedema resulting from promotion of microvascular leakage. These airway effects are mediated in the main by the B2 receptor subtype. 3. BK acts mainly indirectly, primarily through airway nerve activation, but also by the release of prostanoids, thromboxanes and nitric oxide (NO). 4. Airway responses to BK have been studied in detail in guinea-pigs, mice, sheep and rats. This review describes the effects of BK in these species and draws comparison with its effects in normal humans and patients with respiratory diseases. 5. Despite its many and varied effects in the airways of animals and man, the exact contribution of BK to airways disease remains unclear.
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PMID:Species differences in bradykinin receptor-mediated responses of the airways. 1242 22

Both angiotensin-converting enzyme (ACE) inhibitors and AT-1 receptor antagonists reduce the effects of angiotensin II, however they may have different clinical effects. This is because the ACE inhibitors, but not the AT-1 receptor antagonists, increase the levels of substance P, bradykinin and tissue plasminogen activator. The AT-1 receptor antagonists, but not the ACE inhibitors, are capable of inhibiting the effects of angiotensin II produced by enzymes other than ACE. On the basis of the present clinical trial evidence, AT-1 receptor antagonists, rather than the ACE inhibitors, should be used to treat hypertension associated with left ventricular (LV) hypertrophy. Both groups of drugs are useful when hypertension is not complicated by LV hypertrophy, and in diabetes. In the treatment of diabetes with or without hypertension, there is good clinical support for the use of either an ACE inhibitor or an AT-1 receptor antagonist. ACE inhibitors are recommended in the treatment of renal disease that is not associated with diabetes, after myocardial infarction when left ventricular dysfunction is present, and in heart failure. As the incidence of cough is much lower with the AT-1 receptor antagonists, these can be substituted for ACE inhibitors in patients with hypertension or heart failure who have persistent cough. Preliminary studies suggest that combining an AT-1 receptor antagonist with an ACE inhibitor may be more effective than an ACE inhibitor alone in the treatment of hypertension, diabetes with hypertension, renal disease without diabetes and heart failure. However, further trials are required before combination therapy can be recommended in these conditions.
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PMID:Angiotensin AT-1 receptor antagonism: complementary or alternative to ACE inhibition in cardiovascular and renal disease? 1243 89

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