Antimuscarinic action of liriodenine, isolated from Fissistigma glaucescens, in canine tracheal smooth muscle.

1. The antimuscarinic properties of liriodenine, isolated from Fissistigma glaucescens, were compared with methoctramine (cardioselective M2 antagonist) and 4-diphenylacetoxy-N-methylpiperidine (4-DAMP, smooth muscle selective M3 antagonist) by radioligand binding tests, functional tests and measurements of second messenger generation in canine cultured tracheal smooth muscle cells. 2. Liriodenine, pirenzepine, methoctramine and 4-DAMP displaced [3H]-N-methyl scopolamine ([3H]-NMS) binding in a concentration-dependent manner with Ki values of 2.2 +/- 0.4 x 10(-6), 3.3 +/- 0.7 x 10(-7), 8.9 +/- 2.3 x 10(-8) and 2.3 +/- 0.6 x 10(-9) M, respectively. The curves for competitive inhibition of [3H]-NMS with liriodenine, methoctramine and 4-DAMP were best fitted according to a two site model of binding, but pirenzepine was best fitted according to a model with one site. 3. Liriodenine and 4-DAMP displayed a high affinity for blocking tracheal contraction (pKB = 5.9 and 9.1, respectively) and inositol phosphate formation (pKB = 6.0 and 8.9, respectively), but a low affinity for antagonism of cyclic AMP inhibition (pKB = 4.7 and 7.8, respectively). 4. Methoctramine blocked cyclic AMP inhibition with a high affinity (pKB = 7.4), but it antagonized tracheal contraction and inositol phosphate formation with a low affinity (pKB = 6.1 and 6.0, respectively). 5. In conclusion, both M2 and M3 muscarinic receptor subtypes coexist in canine tracheal smooth muscle and are coupled to the inhibition of cyclic AMP formation and phosphoinositide breakdown, respectively. The antimuscarinic characteristics of liriodenine are similar to those of 4-DAMP. It may act as a selective M3 receptor antagonist in canine tracheal smooth muscle.     

Effects of azelastine on contraction of guinea pig tracheal smooth muscle

Azelastine [4-(p-chlorobenzyl)-2-(hexahydro-1-methyl-1H-azepine-4-yl)-1(2H)-phthalazinone hydrochloride] is a new anti-asthmatic drug. We examined the mechanism of its inhibitory action on guinea pig tracheal smooth muscle contraction by measuring membrane potential and isometric force using intracellular microelectrodes and a micro-force transducer. The mean resting membrane potential of guinea pig tracheal muscle cells was -54 mV. Perfusion with 20 mM tetraethylammonium (TEA) caused membrane depolarization and elicited spontaneous action potentials. Azelastine (1-100 microM) suppressed both the amplitude and maximal rate of rise of the action potentials in a concentration-dependent manner. Complete abolition occurred at 100 microM. Similarly, azelastine (0.1-100 microM) inhibited and abolished 50 mM KCl-induced contractions. These results suggest that azelastine may inhibit voltage-dependent Ca2+ channels. Next, pretreatment of tracheal muscle (for 15 min) with azelastine (0.01-100 microM) inhibited subsequent acetylcholine (ACh) (0.01-100 microM)-induced contractions. Azelastine, 100 microM, completely abolished the ACh-induced contractions. In contrast, high concentrations of Ca2+ channel antagonists diltiazem (10-100 microM) or nifedipine (20 microM), and Ca2(+)-free solution, only partially depressed the ACh contractions suggesting that azelastine has an additional effect on intracellular Ca2+ release. In Ca2(+)-free solution (containing 0.5 mM EGTA), azelastine (1-100 microM) depressed and abolished the transient contractions induced by 10 microM ACh. We conclude that azelastine inhibits airway constriction by inhibiting both voltage-sensitive Ca2+ slow channels on the cell membrane and Ca2+ release from a intracellular storage site.     

Flavoxate, a drug with smooth muscle relaxing activity

Flavoxate hydrochloride is a flavone derivative with smooth muscle relaxing activity. The product has a broad range of indications and has found one major application in the treatment of urge incontinence. Information on different forms of incontinence and epidemiologic data are summarized. Differences between the myolytic agent flavoxate and anticholinergics are highlighted. The vast amount of information deriving from some 20 years of clinical experience is analysed and major conclusions are drawn. The compound has valid therapeutic efficacy and excellent tolerability. By this token flavoxate is the agent of choice for therapy of disorders caused by smooth muscle spasms.     

Relaxant actions of isoprenaline on guinea-pig isolated tracheal smooth muscle.

1. The effects of isoprenaline on membrane potential and intracellular Ca2+ concentration ([Ca2+]i) in guinea-pig isolated tracheal muscle were studied by use of intracellular micro-electrodes and fura-2 signals respectively. Measurements of membrane potential were carried out in the presence of spontaneously-generated muscle tone, whereas fura-2 signals were measured during contraction produced by exogenous prostaglandin E2 (100 nM). The potency of isoprenaline in causing relaxation was the same in these two different situations. 2. Isoprenaline (0.01 microM) produced relaxation accompanied by 5 mV hyperpolarization. A combination of tetraethylammonium (TEA, 10 mM) and verapamil (3 microM) did not alter the effects of isoprenaline. Removal of external K+ did not increase the degree of hyperpolarization produced by isoprenaline. 3. In the presence of TEA (10 mM) and verapamil (3 microM), isoprenaline (0.03-1 microM) reduced [Ca2+]i concentration-dependently. A similar degree of inhibition was observed when isoprenaline was applied during the maintained contraction induced by prostaglandin E2 and against the contraction evoked by the addition of Ca2+ to tissues bathed in a Ca(2+)-free medium and pretreated with both isoprenaline and prostaglandin E2. 4. It is concluded that activation of TEA-sensitive Ca(2+)-dependent K+ channels does not play a significant role in isoprenaline-induced relaxation. We propose that, in the guinea-pig tracheal muscle, isoprenaline may produce relaxation mainly by inhibiting a receptor-operated pathway for Ca2+ influx across the plasma membrane which is normally activated by prostaglandins.     

Mechanism of soman-induced contractions in canine tracheal smooth muscle

The actions of the irreversible organophosphorus cholinesterase (ChE) inhibitor soman were investigated on canine tracheal smooth muscle in vitro. Concentrations of soman 1 nM increased the amplitude and decay of contractions elicited by electric field stimulation. The effect on decay showed a marked dependence on stimulation frequency, undergoing a 2.4-fold increase between 3 and 60 Hz. Soman also potentiated tensions due to bath applied acetylcholine (ACh). Little or no potentiation was observed for contractions elicited by carbamylcholine, an agonist that is not hydrolyzed by ChE. Concentration of soman 3 nM led to the appearance of sustained contractures. These contractures developed with a delayed onset and were well correlated with ChE activity. Alkylation of muscarinic receptors by propylbenzilylcholine mustard antagonized the actions of soman on both spontaneous and electrically-evoked muscle contractions. The results are consistent with a mechanism in which the toxic actions of soman are mediated by accumulation of neurally-released ACh secondary to inhibition of ChE activity. An important factor in this accumulation is suggested to be the buffering effect of the muscarinic receptors on the efflux of ACh from the neuroeffector junction.The opinions or assertions contained herein are the private views of the authors and are not to be construed as official views of the Army or the Department of Defense. In conducting the research described in this report, the investigators adhered to the Guide for the Care and Use of Laboratory Animals as adopted and promulgated by the National Institutes of Health     

The relaxant action of nicorandil in bovine tracheal smooth muscle

The relaxant mechanisms of nicorandil were examined by comparing its effects with those of sodium nitroprusside and cromakalim in bovine tracheal smooth muscle. In preparations contracted with methacholine (0.3 μ mol/l) or high K(+)(40 mmol/l), nicorandil and sodium nitroprusside caused concentration-dependent relaxations. Their relaxant effects on high K(+) -contracted preparations were smaller than those on methacholine-contracted muscle. Cromakalim relaxed methacholine-contracted preparations, whereas it had no effect on high K(+) -contracted muscle. The inhibitor of soluble guanylyl cyclase 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ; 5 mol/l) completely prevented the relaxation induced by lower concentrations ( <30 μ mol/l) of nicorandil,whereas it partially attenuated relaxation caused by higher concentrations. The ATP-sensitive K(+) (K(ATP)) channel blocker glibenclamide only partially attenuated the relaxant responses to nicorandil (at 100 and 300 μ mol/l). Combination treatment with ODQ and glibenclamide almost completely prevented nicorandil-induced relaxations. The large-conductance Ca2(+) -activated K(+) channel (Maxi K(+) channel) inhibitor iberiotoxin significantly prevented the relaxations induced by lower concentrations (3 and 10 μ mol/l) of nicorandil. The preventive effect of iberiotoxin was markedly enhanced under the blockade of K(ATP) channels with glibenclamide. These results suggest that nicorandil relaxes bovine tracheal smooth muscle through 2 mechanisms: opening of K(ATP) channels and activation of the nitric oxide (NO)-cyclic guanosine monophosphate (cGMP) pathway. Nicorandil may also activate Maxi K(+) channels, possibly through the NO-cGMP pathway, and the interaction of K ATP channels and Maxi K(+) channels may affect the relaxant effect of nicorandilin bovine tracheal smooth muscle.     

L-NG-nitro arginine inhibits non-adrenergic, non-cholinergic relaxations of guinea-pig isolated tracheal smooth muscle.

The effects of L-NG-nitro arginine (L-NOARG) on alpha-chymotrypsin-resistant, non-adrenergic, non-cholinergic (NANC) relaxations of guinea-pig tracheal smooth muscle have been examined. L-NOARG (1-100 microM), but not D-NOARG (100 microM), inhibited the NANC relaxations in a concentration-related manner. The effects of L-NOARG were partially reversed by L-arginine but not D-arginine. L-NOARG was without effect on acetylcholine-induced contractile responses of the trachea or on relaxations produced by vasoactive intestinal peptide, sodium nitroprusside or isoprenaline. These results suggest that an endogenous nitrate may contribute to NANC relaxations of tracheal smooth muscle.     

Prostaglandin e1 action on canine isolated tracheal muscle

Prostaglandin E₁ (PGE₁) inhibits contractions of dog isolated tracheal muscle stimulated by different agents, but the degree of inhibition varies with the agent used. Low concentrations of PGE₁ completely block the stimulant effect of 5-hydroxytryptamine, but even large concentrations of PGE₁ do not completely antagonize the contractions caused by acetylcholine. The inhibitory effect of PGE₁ is blocked by methysergide and not by propranolol, morphine or dihydroergotamine. PGE₁ does not relax depolarized smooth muscle, although bradykinin and isoprenaline do. It is concluded that in tracheal smooth muscle, PGE₁ interacts with cell membranes close to the 5-hydroxytryptamine D receptors. This causes activation of the smooth sarcoplasmic reticulum, leading to accumulation of calcium ions and relaxation.     

The excitatory effect of dopamine on isolated canine tracheal smooth muscle

The effect of exogenous dopamine on canine tracheal smooth muscle has been studied in-vitro. Dopamine at concentrations over 10(-5)M induced contractions of tracheal muscle strips and repeated exposures resulted in desensitization (tachyphylaxis) of the muscle. The sensitivity of the response varied dramatically among muscle strips. At lower concentrations, dopamine caused neither muscle relaxation nor inhibition of contractions evoked by 10(-6)M acetylcholine. Both a dopaminergic antagonist, haloperidol (10(-5) and 10(-4)M), and an alpha-adrenoceptor antagonist, phentolamine (10(-7) to 10(-5)M), attenuated the contraction to 10(-3)M dopamine. The beta-adrenoceptor antagonist, propranolol (10(-8) to 10(-6)M), enhanced the contraction. However, the contraction could only be abolished by phentolamine at 10(-4) M. Thus, in canine tracheal smooth muscle, the contractile response to dopamine is predominantly through the activity of alpha-adrenoceptors and the role of dopaminergic receptors is vague. It is suggested that the weakness of the dopamine-induced contraction results from an antagonism between alpha- and beta-adrenoceptor effects and the dopamine tachyphylaxis may reflect a gradually decreased activation of the alpha-adrenoceptor mechanism in comparison with the beta-adrenoceptor mechanism.     

A pertussis toxin-sensitive mechanism of endothelin action in porcine coronary artery smooth muscle.

1. Endothelin-1 (ET-1)-induced contraction of porcine coronary artery strips may be mediated via at least two intracellular signalling mechanisms, the activation of dihydropyridine-sensitive voltage-dependent Ca2+ channels and the stimulation of phosphoinositide breakdown. Here we have investigated the possible involvement of pertussis toxin (PT)-sensitive guanosine-5'-triphosphate (GTP)-binding proteins (G-proteins) in ET-1-induced activation of these two signalling pathways in porcine coronary artery smooth muscle. 2. Increase in extracellular K+ concentration (10, 15 mM) shifted the dose-response relationship for the ET-1-induced contraction to the left. 3. The dihydropyridine Ca2+ channel blocker, nifedipine (10(-8) M), induced a rightward shift in the dose-response curve for ET-1. Pretreatment of the arterial strips with PT (0.1 microgram ml-1) induced a similar rightward shift of the ET-1 dose-response curve but not of the KCl response. Nifedipine (10(-8) M) did not further attenuate the ET-1-induced contraction in the PT-pretreated strips. 4. The pretreatment with PT significantly reduced 45Ca2+ uptake of the arterial strips stimulated by ET-1, but had no effect on ET-1-induced production of inositol phosphates. 5. The contractile response of the arterial strips to phorbol dibutyrate, an active phorbol ester, was not significantly affected by 10(-8) M nifedipine. 6. We confirmed that the pretreatment of the tissue with PT induced ADP-ribosylation of a 41 kDa membrane protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Mechanism of the inhibitory action of indomethacin on smooth muscle

1. Strips of muscle from the wall of the guinea-pig stomach contracted in response to electrical field stimulation (100 ms pulses, 0.2 Hz) or to histamine (1 mug/ml), and these responses were inhibited by indomethacin (2-20 mg/100 ml).2. Glycerol-extracted strips of stomach muscle developed tension when exposed to a mixture of ATP, CP, magnesium chloride and calcium chloride. The tension response was not altered by indomethacin (50 mg/100 ml).3. Indomethacin failed to alter the content of ATP or of CP in strips of stomach muscle.4. The calcium content of strips of stomach muscle increased in response to 30 min of electrical stimulation (100 ms pulses, 0.2 Hz). The uptake of calcium and the contraction of the strips were inhibited by indomethacin (2-20 mg/100 ml) to a similar extent.5. Calcium uptake by electrically stimulated guinea-pig aorta was inhibited by lower concentrations of indomethacin than were required by stomach muscle.     

异甘草素对豚鼠离体气管平滑肌收缩功能的影响

异甘草素(isoliquiritigenin,ISL)是从甘草中提取出的一种黄酮类化合物.本文观察了ISL对豚鼠离体气管条张力的影响,旨在为其治疗支气管哮喘等呼吸道疾病提供实验依据.     

去上皮对离体气管平滑肌反应性的影响(英文)

去上皮致敏豚鼠气管标本对乙酰胆碱。组胺,P物质和氯化钡的敏感性比未去上皮标本为高。上述药物在去上皮标本上得到的EC_(50)仅为未去上皮的1/6—1/30。由抗原抗体反应或电场刺激所引起的去上皮标本的收缩幅度和对照组相比升高了50％—100％。这些实验结果提示,气管上皮对呼吸道,尤其是对其过敏性收缩具有重要调节作用。     

Mechanism of action of hydralazine on vascular smooth muscle

Myofibrils prepared from bovine carotid arteries were used to investigate the hypotensive action of hydralazine. These myofibrils contained an ATPase and Protein Kinase which was half-maximally activated by 1 microM Ca2+. Hydralazine inhibited Ca2+ dependent ATPase and phosphorylation. Half maximal inhibition occurred at 2 X 10(-5) M hydralazine. This inhibition was accounted for by a specific reduction in the phosphorylation of a protein which migrated with the myosin P-light chains (Mr, 20,000). Phosphorylation of the latter protein is generally thought to be obligatory for muscle contraction. Thus an inhibition of this phosphorylation by hydralazine in vivo is likely to contribute to the hypotensive action of the drug.     

A patch-clamp study of K(+)-channel activity in bovine isolated tracheal smooth muscle cells.

1. Single smooth muscle cells were isolated from bovine trachealis by enzymic digestion. The properties of large conductance plasmalemmal K(+)-channels in these cells were studied by the patch-clamp recording technique. 2. Recordings were made from inside-out plasmalemmal patches when [K+] was symmetrically high (140 mM) and when [Ca2+] on the cytosolic side of the patch was varied from nominally zero to 10 microM. Large unitary currents of both Ca(2+)-dependent and -independent types were observed. Measured between + 20 and + 40 mV, the slope conductances of the channels carrying these currents were 249 +/- 18 pS and 268 +/- 14 pS respectively. 3. Lowering [K+] on the cytosolic side of the patches from 140 to 6 mM, shifted the reversal potentials of the two types of unitary current from approximately zero to much greater than + 40 mV, suggesting that both currents were carried by K(+)-channels. 4. The Ca(2+)-dependent and -independent K(+)-channels detected in inside-out plasmalemmal patches could also be distinguished on the basis of their sensitivity to inhibitors (tetraethylammonium (TEA), 1-10 mM; Cs+, 10 mM; Ba2+, 1-10 mM; quinidine, 100 microM) applied to the cytosolic surface of the patches. 5. Recordings were made from outside-out plasmalemmal patches when [K+] was symmetrically high (140 mM) and when [Ca2+] on the cytosolic side of the patch was varied from nominally zero to 1 microM. Ca(2+)-dependent unitary currents were observed and the slope conductance of the channel carrying these currents was 229 +/- 5 pS.(ABSTRACT TRUNCATED AT 250 WORDS)     

骆驼蓬总生物碱对豚鼠离体气管平滑肌收缩功能的影响

目的研究骆驼蓬总生物碱对刺激因素诱发的豚鼠气管平滑肌收缩的影响。方法制备豚鼠离体气管平滑肌螺旋条,于恒温浴槽装置中,用乙酰胆碱、组胺和KCl刺激气管平滑肌,观察药物的作用。结果骆驼蓬总碱和鸭嘴花碱均可使乙酰胆碱、组胺的刺激量-效曲线明显右移,并呈剂量依赖性地抑制乙酰胆碱、组胺和KCl诱发的豚鼠气管平滑肌收缩。结论骆驼蓬总碱、鸭嘴花碱能够明显地抑制刺激因素诱发的豚鼠气管平滑肌收缩。     

The mechanism of action of two bradykinin-potentiating peptides on isolated smooth muscle.

Bradykinin-induced contractions in the guinea-pig ileum were potentiated by the peptides A-VI-5 (Val-Glu-Ser-Ser-Lys) and BPP5a (Pyr-Lys-Trp-Ala-Pro), while the contractions induced by other agonists were not affected. Neither peptide added alone caused any response. Previous addition of the peptides shortened the latent period following the addition of bradykinin to a value corresponding to the contraction height with an equivalent dose of bradykinin added alone. Bradykinin in contact with a piece of ileum was inactivated at a relatively slow rate. This inactivation was not inhibited by either A-VI-5 or BPP5a in doses causing potentiation. Suppression of the cholinergic activity by cooling, atropine, morphine or tetrodotoxin did not influence the potentiating activity. Addition of the peptides at the moment a submaximal contraction due to bradykinin had been fully established, increased the contraction height within seconds. The two peptides caused a parallel shift to the left of the dose-effect curve of bradykinin, whereas the maximum bradykinin effect remained unchanged. It is concluded that sensitization of bradykinin receptors due to an increased affinity of the receptor for bradykinin is the hypothesis which best fits the experimental findings.