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1.
This study was done to determine if pituitary adenylate cyclase-activating peptide (PACAP)-immunoreactive nerve fibers occur in cardiac muscle as well as intracardiac ganglia of rats and guinea pigs and to clarify the chronotropic actions of PACAP27 in the same species using isolated heart preparations. PACAP nerve fibers were not detected in atrial or ventricular muscle of rat or guinea pig but a few stained nerve fibers occurred in the atrioventricular bundle of the guinea pig. Stained nerve fibers were prominent in intracardiac ganglia of both species. PACAP27 caused a dose-dependent tachycardia in isolated rat hearts (+39 +/- 3 beats/min with 1 nmol, n = 6). Positive and/or negative chronotropic responses were evoked by PACAP27 in guinea pig heart, depending on dose and prior exposure to the peptide. PACAP27 also caused arrhythmias in several guinea pig hearts. Treatment with atropine eliminated or prevented PACAP-evoked bradycardia and arrhythmias, implicating cholinergic neurons in these responses. Positive chronotropic responses to PACAP were unaffected by beta-adrenergic receptor blockade in either species, suggesting that tachycardia resulted from a direct action on the heart. These observations support the conclusion that endogenous PACAP could have a role in regulating parasympathetic input to the heart but through different mechanisms in rats versus guinea pigs. A direct positive chronotropic influence of endogenous PACAP is unlikely since atrial muscle lacks PACAP-immunoreactive nerve fibers.  相似文献   

2.
Francis Rioux  H  l  ne Bachelard  Jean Barab    Serge St-Pierre 《Peptides》1986,7(6):1087-1094
Topical application of picomoles of neurotensin (NT) on the surface of the left ventricle (epicardial application) of anesthetized guinea pigs evoked dose-dependent pressor effects and tachycardia. The pressor response to epicardial NT was attenuated by pentolinium, a mixture of phentolamine and propranolol, or by guanethidine. However it was not affected by indomethacin, atropine or by a mixture of mepyramine and cimetidine. The tachycardia caused by epicardial NT was not modified by any of the aforementioned drugs. Both the pressor effects and tachycardia elicited by epicardial application of NT were markedly inhibited by chronic treatment of guinea pigs with capsaicin, and by topical application of lidocaine or tetrodotoxin to the surface of the left ventricle. Epicardial application of calcitonin gene-related peptide (CGRP), substance P (SP) or capsaicin also elicited tachycardia and either a decrease (CGRP and SP) or increase of blood pressure (capsaicin) in anesthetized guinea pigs. Epicardial application of NT, CGRP, or capsaicin in isolated, perfused hearts of guinea pigs also caused tachycardia. Together, these results suggest that the pressor responses to topical application of NT on the surface of the left ventricle in anesthetized guinea pigs are partially reflex in nature and likely to result from the stimulation by NT of cardiac sympathetic, capsaicin-sensitive, sensory nerve endings, whereas the tachycardia caused by epicardial NT appears to be due both to direct and indirect effects of NT on ventricular muscle cells. The possible participation of CGRP and/or SP in the chronotropic effect of NT applied on the epicardium, and their putative role as neurotransmitter of cardiac, capsaicin-sensitive, sensory neurons are discussed.  相似文献   

3.
Intravenous (IV) infusions of neurotensin (NT) in anesthetized guinea pigs elicited dose-dependent pressor effects and tachycardia. Both effects were significantly reduced or abolished in guinea pigs given a chronic treatment with the neurotoxin capsaicin. In guinea pig isolated atria NT evoked a positive inotropic and chronotropic effect. Both effects were completely abolished in atria derived from capsaicin-treated guinea pigs. The positive inotropic and chronotropic effects of NT in guinea pig atria were mimicked by capsaicin and calcitonin gene-related peptide (CGRP). These results were interpreted as an indication that NT produces its cardiovascular effects in guinea pigs by activating capsaicin-sensitive sensory neurons.  相似文献   

4.
The purpose of this study was to determine if endogenous tachykinins can cause bradycardia in the isolated perfused guinea pig heart through stimulation of cholinergic neurons. Capsaicin was used to stimulate release of tachykinins and calcitonin gene-related peptide (CGRP) from cardiac afferents. A bolus injection of 100 nmol capsaicin increased heart rate by 26 +/- 7% from a baseline of 257 +/- 14 beats/min (n = 6, P < 0.01). This positive chronotropic response was converted to a minor bradycardic effect in hearts with 1 microM CGRP-(8-37) present to block CGRP receptors. The negative chronotropic response to capsaicin was markedly potentiated in another group of hearts with the further addition of 0.5 microM neostigmine to inhibit cholinesterases. In this group, capsaicin decreased heart rate by 30 +/- 10% from a baseline of 214 +/- 6 beats/min (n = 8, P < 0.05). This large bradycardic response to capsaicin was inhibited by 1) infusion of neurokinin A to desensitize tachykinin receptors or 2) treatment with 1 microM atropine to block muscarinic receptors. The latter observations implicate tachykinins and acetylcholine, respectively, as mediators of the bradycardia. These findings support the hypothesis that endogenous tachykinins could mediate axon reflexes to stimulate cholinergic neurons of the intrinsic cardiac ganglia.  相似文献   

5.
The present study was done to characterize the effects of endogenous tachykinins on heart rate in urethane-anesthetized guinea pigs. Intravenous injection of capsaicin (32 nmol/kg) was used to evoke release of tachykinins and calcitonin gene-related peptide (CGRP) from cardiac sensory nerve fibers. Such injections caused a brief decrease in heart rate (− 37 ± 7 beats/min, n = 6) that was followed by a more prolonged increase (+ 44 ± 10 beats/min). Blood pressure was lowered by − 11 ± 2 mmHg. Bilateral vagotomy did not affect the chronotropic or depressor responses to capsaicin, but atropine (1 µmol/kg) nearly abolished the bradycardic response (− 8 ± 3 beats/min, n = 7). Combined blockade of NK2 and NK3 receptors, with SR48968 and SR14801 respectively, also caused a significant reduction of capsaicin-evoked bradycardia (− 14 ± 3 beats/min, n = 4) but did not affect bradycardia evoked by vagal nerve stimulation. Blockade of CGRP receptors eliminated capsaicin-evoked tachycardia and prolonged the capsaicin-evoked bradycardia. These findings suggest that capsaicin-evoked bradycardia in the anesthetized guinea pig is mediated by tachykinins that stimulate cardiac cholinergic neurons. This effect appears to be truncated by the positive chronotropic action of CGRP that is also released from cardiac afferents by capsaicin.  相似文献   

6.
1. The chronotropic effect of norepinephrine was studied in isolated spontaneously beating atrial preparations of carp (Cyprinus carpio) heart. 2. Norepinephrine, 0.1 microM, caused a positive chronotropic effect, while at 1 microM it caused either a positive or a negative chronotropic effect. The positive chronotropic effect, observed in 13 preparations, was potentiated by phentolamine and almost completely blocked by propranolol. 3. The negative chronotropic effect observed in the other 5 preparations was greater in the presence of propranolol, reduced by phentolamine and not affected by atropine. 4. These results indicate that alpha- and beta-adrenoceptors may coexist, mediating the negative and positive chronotropic effects, respectively, in isolated atrial preparations of carp heart.  相似文献   

7.
Substance P (SP) evokes bradycardia that is mediated by cholinergic neurons in experiments with isolated guinea pig hearts. This project investigates the negative chronotropic action of SP in vivo. Guinea pigs were anesthetized with urethane, vagotomized and artificially respired. Using this model, IV injection of SP (32 nmol/kg/50 microl saline) caused a brief decrease in heart rate (-30+/-3 beats/min from a baseline of 256+/-4 beats/min, n = 27) and a long-lasting decrease in blood pressure (-28+/-2 mmHg from baseline of 51+/-5 mmHg, n = 27). The negative chronotropic response to SP was attenuated by muscarinic receptor blockade with atropine (-29 +/- 9 beats/min before vs -8 +/- 2 beats/min after treatment, P = 0.0204, n = 5) and augmented by inhibition of cholinesterases with physostigmine (-23 +/- 6 beats/min before versus -74 +/- 20 beats/min after treatment, P = 0.0250, n = 5). Ganglion blockade with chlorisondamine did not diminish the negative chronotropic response to SP. In another series of experiments, animals were anesthetized with sodium pentobarbital or urethane and studied with or without vagotomy. Neither anesthetic nor vagotomy had a significant effect on the negative chronotropic response to SP (F3,24 = 1.97, P = 0.2198). Comparison of responses to 640 nmol/kg nitroprusside and 32 nmol/kg SP demonstrated that the bradycardic effect of SP occurs independent of vasodilation. These results suggest that SP can evoke bradycardia in vivo through stimulation of postganglionic cholinergic neurons.  相似文献   

8.
Stimulation of the vagus nerve with a volley of electric impulses changed the action of grass-snake heart producing a negative chronotropic and inotropic effect. The effect of vagal stimulation was not different from the effect of acetylcholine administration and it was absent in the presence of atropine and hexamethonium. It was not possible to demonstrate sympathetic nervous fibres in the stimulated segment of the vagus nerve and trials of finding a separate nerve increasing the heart rate were unsuccessful. Parasympathicotonic agents caused bradycardia and a fall in the amplitude of cardiac contractions, and in sufficiently high doses they arrested the heart in diastole. The action of muscarine-like agents was stronger than that of nicotine, and the anticholinergic action of tubocurarine was weaker than that of atropine. Catecholamines exerted a positive inotropic and chronotropic effect which was completely blocked by propranolol in some tests only.  相似文献   

9.
Neurotensin (NT) infusions into isolated, electrically-driven hearts of guinea pigs, elicited concentration-dependent reductions of myocardial perfusion pressure accompanied by proportional increases of myocardial tension. The decrease of myocardial perfusion pressure caused by NT (attributed to the coronary vasodilator effect of NT) was highly dependent on basal (pre-NT infusions) levels of perfusion pressure, being larger at high perfusion pressure (e.g., 75 mmHg) values than at lower ones (e.g., 50 and 25 mmHg). The perfusion pressure-lowering effect on NT was potentiated and inhibited by neostigmine and atropine, respectively. It was slightly inhibited by methysergide. However, it was not affected by propranolol, indomethacin or a mixture of diphenhydramine and cimetidine. The decreases of myocardial perfusion pressure caused by NT were abolished by NT receptor desensitization, while those evoked by acetylcholine or vasoactive intestinal peptide (VIP) were minimally affected by the desensitization. These results indicate that NT exerts a vasodilator effect in guinea pig coronary vessels. This effect is likely to involve the participation of acetylcholine released from NT-stimulated cardiac cholinergic (vagal) neurons and/or nerve terminals and to be mediated by specific NT receptors. The possible contribution of intracardiac serotonin and/or its receptors to the coronary vasodilator effect of NT is discussed.  相似文献   

10.
Chronotropic action of isoprenaline on the heart was studied in anesthetized dogs, in euthermic and moderate hypothermic conditions, before and after intravenous administration of atropine and oxprenolol or a cervical bilateral vagotomy. In moderate hypothermia we observed: i) larger duration of the positive chronotropic response to isoprenaline with a delayed and slightly lesser intensity in its maximum; ii) relating to euthermic conditions, delayed but superimposed potentiation of the chronotropic isoprenaline response in atropinized or vagotomized dogs; iii) a small negative chronotropic response to isoprenaline 15 min after oxprenolol, that diminished after atropine; iiii) oxprenolol induced a marked bradycardia nearly twice as intense as in euthermic dogs, almost completely blocked subsequently by atropine. It is concluded that progressive bradycardia in the moderately hypothermic dog is due, among other factors, to a cholinergic action but not to a lesser ability of beta-adrenergic cardiac effectors to chronotropic responses.  相似文献   

11.
We tested the influence of capsaicin (CAP) desensitization on the positive chronotropic and inotropic effects of neurotensin (NT), bradykinin (BK), calcitonin gene-related peptide (CGRP) and noradrenaline (NA) in guinea pig isolated atria. The positive chronotropic and inotropic effects of NT and BK were completely inhibited, whereas those elicited by CGRP and NA were either slightly reduced (CGRP) or unaffected (NA), in CAP-desensitized compared to control atria. Cross-desensitization studies using CAP, NT and BK showed that the positive chronotropic and inotropic effects of CAP are slightly affected, whereas those evoked by BK are markedly reduced in NT-desensitized atria. On the other hand, the positive chronotropic and inotropic effects of CAP and NT were similar in BK-desensitized and control atria. The results were interpreted as an indication that NT, BK and CAP produce their excitatory effects in guinea pig atria by interacting with a common population of CAP-sensitive sensory nerve fibers (presumably substance P (SP)- and CGRP-containing nerve fibers). The absence of cross-desensitization between NT or BK and CAP, or between NT and BK, suggests that the activation and desensitization of atrial, CAP-sensitive sensory nerve fibers by the latter agents involve different receptors and/or mechanisms.  相似文献   

12.
Neurotensin (NT) evoked a transient, dose-dependent histamine release (ED50 170 ng ml-1) from the rat perfused heart. Histamine release by NT occurred within seconds and lasted less than 2 min. The histamine releasing effect of NT was followed by a dose-dependent increase of the perfusion pressure and a slight tachycardia. The histamine releasing effect of NT was completely abolished in hearts derived from rats pretreated for 3 days with high doses of compound 48/80. The coronary vasoconstrictor effect of NT was increased in hearts derived from compound 48/80-pretreated rats. The mast cell inhibitor cromoglycate markedly inhibited NT-induced histamine release without affecting the coronary vasoconstrictor effect of NT. The histamine releasing effect of NT was inhibited, while its coronary vasoconstrictor effect was markedly potentiated, in hearts derived from rats pretreated with the antiallergic and antiinflammatory steroid dexamethasone. The increase of perfusion pressure evoked by NT was not modified by antihistamine drugs. Infusions of exogenous histamine (10(-6)-10(-5) g ml-1) caused a dose-dependent coronary vasodilation in the rat perfused heart. The results suggest that NT stimulates histamine release from cardiac mast cells. These results together with those obtained in previous studies suggest that mast cell mediators (particularly histamine and serotonin) are unlikely to be responsible for the coronary vasoconstrictor effect of NT in the rat perfused heart.  相似文献   

13.
The changes in heart rate induced by the stimulation of arterial chemoreceptors by apneic asphyxia and left atrial - intracarotid injections of sodium cyanide were investigated in anesthetized artificially ventilated and paralysed monkeys. Apneic asphyxia and sodium cyanide injection caused tachycardia, bradycardia, or both in monkeys paralysed with decamethonium bromide and tachycardia only, in monkeys paralysed with gallamine. In both groups, the tachycardia was abolished by prior administration of propranolol and the bradycardia, by atropine. Prior ventilation with 100% O2 abolished the heart rate responses produced by apnea. Recording of phrenic efferent activity showed that the neural discharge increased in response to apneic asphyxia and sodium cyanide injections. It remained so during the manifestation of tachycardia, bradycardia, or no change in heart rate, suggesting that even though "higher centres" may have an important influence in the heart rate responses elicited, central respiratory drive may not be the only mechanism. The present results show that in the nonhuman primate, arterial chemoreceptor stimulation elicits both cardioacceleratory and cardioinhibitory reflexes, and the net effect of their stimulation on heart rate depends upon the balance between these opposing mechanisms.  相似文献   

14.
The changes of chronotropic effect on the isolated sinus node of the frog heart were studied during the separate and simultaneous stimulation of the sympathetic and intracardiac reflex parasympathetic pathways. Intracellular activity of the pacemaker cells was recorded. The separate stimulation of the intracardiac reflex system resulted in bradycardia (in winter) or tachycardia (in summer). Stimulation of sympathetic chain supervening the activation of the intracardiac pathways induced an intensification of both the parasympathetic bradycardia and tachycardia; these effects were cholinergic in nature. The recording of the intracellular pacemaker activity showed the existence of the complicated interaction between the sympathetic and parasympathetic pulse-mediator actions on the heart pacemaker both on the prepulase process and on the membrane polarization and other action potential parameters. Possible mechanisms of this interaction are discussed.  相似文献   

15.
It was shown in experiments on Wistar male rats that ethyl, 3/2, ethyl, 2/2, dimethylhydrazine propionate iodate (EDIHYP), a synthetic acetylcholine analogue, eliminates in situ the fall of the ventricular fibrillation threshold and the extrasystole observed on the background of vagal bradycardia in experimental myocardial infarction and postinfarction cardiosclerosis. The elimination of disturbed heart electric stability was not accompanied by cholinergic, negative chronotropic effect of the drug. In isolated heart, high concentrations of EDIHYP (10(-4) M) had negative chronotropic effect but lacked antiarrhythmic effect in local ischemia and reperfusion. The bradycardia induced by EDIHYP was absent and the antiarrhythmic effect was strikingly pronounced on the background of muscarinic receptors blockade with atropine. Thus EDIHYP realizes its antiarrhythmic effect not via muscarinic receptors but by some other way which requires studying by methods of molecular pharmacology.  相似文献   

16.
Neurotensin (NT) was found to produce a dose-dependent increase of the systolic and diastolic blood pressure, and of the heart rate in anesthetized guinea pigs when injected intravenously (i.v.) as a bolus, or when infused i.v. over a 15 min period. In a small percentage (20%) of animals, bolus injections of NT evoked triphasic variations (e.g. increase followed by a decrease and a further increase) of the blood pressure associated with unpredictable changes of heart rate. The pressor effect of NT was consistently reduced by prior treatment of the animals with pentolinium, a ganglion blocking agent, a mixture of alpha and beta adrenergic receptor blocking drugs, reserpine, a drug known to deplete adrenergic neurons of their neurotransmitters, or guanethidine, a drug known to paralyse adrenergic neurons. NT-induced tachycardia was either unchanged or slightly potentiated following the administration of the latter autonomic blockers. Neither the pressor effect nor the tachycardia evoked by NT was affected by antihistaminics, antiangiotensin or by indomethacin, an inhibitor of prostaglandin synthesis. These results suggest that the pressor effect of NT in anesthetized guinea pigs is likely the result of an interaction (most likely an activation) between the peptide and the sympathetic nervous system. The increase of heart rate induced by NT appears to be due to a direct effect on the heart.  相似文献   

17.
Cardiac and vascular actions of sarafotoxin S6b and endothelin-1   总被引:3,自引:0,他引:3  
Snake venom-derived sarafotoxin S6B (SRT) and porcine endothelium-derived endothelin-1 (ET) have striking structural similarities. In conscious, freely-moving rats, ET (0.67 nmol/kg) produced a transient tachycardia and fall in arterial blood pressure which was followed by a long-lasting increase in arterial pressure, bradycardia, decrease in cardiac output (CO) and marked increase in total peripheral resistance. In contrast, SRT (0.67 nmol/kg) produced only the sustained cardiovascular responses. The sustained cardiovascular effects of SRT or ET were similarly attenuated by nifedipine. SRT and ET (30 nM) produced vasoconstriction in the isolated perfused mesenteric vascular bed without initial vasodilation. SRT and ET had potent positive inotropic and negative chronotropic effects on isolated perfused hearts and induced toxic reactions including coronary vasospasm, arrhythmias, A-V block and ventricular fibrillation. In addition to SRT lacking the initial depressor response in vivo, several differences in the activities of the peptides were also observed. ET produced greater and longer-lasting actions than SRT in producing pressor and vasoconstrictor responses in all 3 preparations, and in its ability to induce toxic effects on the heart.  相似文献   

18.
《Peptides》1986,7(1):27-31
Neuropeptide Y (NPY) infusions into isolated, perfused, spontaneously beating hearts of guinea pigs elicited concentration-dependent increases of myocardial perfusion pressure and decreases of myocardial tension, but no consistent changes of heart rate. The increase of perfusion pressure caused by NPY (attributed to a constrictor effect on coronary vessels) was not affected by atropine, prazosin, yohimbine, propranolol, cimetidine, diphenhydramine, indomethacin or a mixture of methysergide and morphine. However, it was reduced by verapamil, a Ca2+ antagonist. Deletion of the N-terminal amino acid Tyr1 from the NPY molecule caused a 12-fold reduction of NPY potency as a coronary constrictor. Further shortening of the NPY molecule by removal of sequence Tyr1 through Glu15 or Tyr1 through Ala18 caused major losses of potency without detectable reduction of intrinsic activity. The results suggest that the constrictor effect of NPY on guinea pig coronary vessels results from a direct effect on vascular smooth muscle cells, is mediated by specific receptors and is likely to involve the participation of extracellular calcium ions. The results also suggest that the chemical groups responsible for the vasoconstrictor effect of NPY in guinea pig hearts might be scattered in the C-terminal end of the peptide.  相似文献   

19.
Chronotropic actions of cholecystokinin octapeptide on the rat heart   总被引:5,自引:0,他引:5  
Cholecystokinin octapeptide (CCK-8) administered i.v. to urethane-anaesthetized rats or added to the perfusion stream of isolated rat hearts produced an immediate bradycardia. The size of this response was dose-related. Studies in vivo and in vitro using atropine and propranolol indicated that the response to CCK-8 was largely due to a direct action of the peptide on the heart. N-carbobenzoxy-tryptophan (CBZ-Trp), a cholecystokinin receptor antagonist, abolished the response of the isolated heart to CCK-8. Gastrin I did not produce bradycardia. The receptors on rat heart were similar to the classes of cholecystokinin receptors found in brain and exocrine pancreas in that CCK-8 rather than cholecystokinin tetrapeptide (CCK-4) was the preferred agonist.  相似文献   

20.
It has been shown that bromocriptine-induced tachycardia, which persisted after adrenalectomy, is (i) mediated by central dopamine D2 receptor activation and (ii) reduced by 5-day isoproterenol pretreatment, supporting therefore the hypothesis that this effect is dependent on sympathetic outflow to the heart. This study was conducted to examine whether prolonged pretreatment with isoproterenol could abolish bromocriptine-induced tachycardia in conscious rats. Isoproterenol pretreatment for 15 days caused cardiac hypertrophy without affecting baseline blood pressure and heart rate. In control rats, intravenous bromocriptine (150 microg/kg) induced significant hypotension and tachycardia. Bromocriptine-induced hypotension was unaffected by isoproterenol pretreatment, while tachycardia was reversed to significant bradycardia, an effect that was partly reduced by i.v. domperidone (0.5 mg/kg). Neither cardiac vagal nor sympathetic tone was altered by isoproterenol pretreatment. In isolated perfused heart preparations from isoproterenol-pretreated rats, the isoproterenol-induced maximal increase in left ventricular systolic pressure was significantly reduced, compared with saline-pretreated rats (the EC50 of the isoproterenol-induced increase in left ventricular systolic pressure was enhanced approximately 22-fold). These results show that 15-day isoproterenol pretreatment not only abolished but reversed bromocriptine-induced tachycardia to bradycardia, an effect that is mainly related to further cardiac beta-adrenoceptor desensitization rather than to impairment of autonomic regulation of the heart. They suggest that, in normal conscious rats, the central tachycardia of bromocriptine appears to predominate and to mask the bradycardia of this agonist at peripheral dopamine D2 receptors.  相似文献   

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