Sensitivity of cultured chick embryo heart cells to acetylcholine. Evidence for nicotinic and muscarinic receptors

Sensitivity of cultured chick embryo heart cells to acetylcholine changes with time in culture. In 24 h cultures, about 25% of the cells exhibit a positive chronotropic response to acetylcholine. This effect is no longer observed after 48 h in culture. Positive and negative chronotropic effects of acetylcholine can be related to the presence of nicotinic and muscarinic receptors evidenced by autoradiography. Some data suggest a possible relationship between the type of sensitivity to acetylcholine and the changes in cell membrane properties occurring in culture.     

Multiple inhibitory actions of lidocaine on Torpedo nicotinic acetylcholine receptors transplanted to Xenopus oocytes

Lidocaine is a local anaesthetic that blocks sodium channels, but also inhibits several ligand-gated ion-channels. The aim of this work was to unravel the mechanisms by which lidocaine blocks Torpedo nicotinic receptors transplanted to Xenopus oocytes. Acetylcholine-elicited currents were reversibly blocked by lidocaine, in a concentration dependent manner. At doses lower than the IC(50) , lidocaine blocked nicotinic receptors only at negative potentials, indicating an open-channel blockade; the binding site within the channel was at about 30% of the way through the electrical field across the membrane. In the presence of higher lidocaine doses, nicotinic receptors were blocked both at positive and negative potentials, acetylcholine dose-response curve shifted to the right and lidocaine pre-application, before its co-application with acetylcholine, enhanced the current inhibition, indicating all together that lidocaine also blocked resting receptors; besides, it increased the current decay rate. When lidocaine, at low doses, was co-applied with 2-(triethylammonio)-N-(2,6-dimethylphenyl) acetamide bromide, edrophonium or 1,5-bis(4-allyldimethylammoniumphenyl)pentan-3-one dibromide, which are quaternary-ammonium molecules that also blocked nicotinic receptors, there was an additive inhibitory effect, indicating that these molecules bound to different sites within the channel pore. These results prove that lidocaine blocks nicotinic receptors by several independent mechanisms and evidence the diverse and complex modulation of this receptor by structurally related molecules.     

Correction of disorders of electric stability of the heart and arrhythmia by using a synthetic analog of acetylcholine

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.     

Effect of acetylcholine on the firing rate and action potential shape of pacemaker cells]

A study was made of the action of exogenous acetylcholine on the isolated pacemaker of the Rana temporaria heart. Bioelectrical activity of individual cells and sum total activity of the preparation were recorded. Exogenous acetylcholine was found not only to inhibit, but also to accelerate the rhythm of pacemaker cells' discharge. As a rule, positive chronotropic effects were observed when relatively low acetycholine concentrations were used. Parasympathetic acceleration was accompanied by an increase in the rate of slow diastolic depolarization; this is in favour of the active mechanism of this process. It is suggested that low and high concentrations of acetylcholine could change the transmembrane ionic currents in a different way.     

Cardiomyocyte-like cells differentiated in vitro from embryonic carcinoma cells P19 are characterized by functional expression of adrenoceptors and Ca2+ channels

Summary P19 embryonal carcinoma cells were differentiated via embryolike aggregates (embryoid bodies) into spontaneously beating myocytes. During the whole process of differentiation the functional expression of cardiac-specific receptors and ionic channels was characterized by measuring the chronotropic reactivity, action potentials, and ionic currents in response to various cardioactive drugs. Positive chronotropic effects obtained at different maximal effective concentrations of adrenoceptor-mediated agonists indicated differential adrenoceptor expression during the in vitro development of cardiomyocyte-like cells. No cardiac-specific response was obtained with the muscarinic cholinoceptor agonist carbachol. Single beating cells were enzymatically isolated and investigated by the patch-clamp technique. Pacemaker action potentials similar to those of embryonal cardiomyocytes exhibited amplitudes ranging from 50 to 85 mV. The action potentials were synchronous to the mechanical contractions and, comparable to the chronotropic effects, were modulated by BayK 8644, isradipine, and adrenaline. The functional expression of L-type Ca²⁺ channels was demonstrated by the Ca²⁺ channel blockers isradipine, nisoldipine, gallopamil, and diltiazem causing negative chronotropic responses, as well as by the Ca²⁺ channel activator BayK 8644 causing positive chronotropic responses. These effects gradually increased with time of differentiation. The expression of L-type Ca²⁺ channels and of nicotinic acetylcholine receptors was confirmed in voltage-clamp experiments. The study demonstrates that P19 embryonal carcinoma cells can be induced to differentiate into cardiomyocyte-like cells comparable to embryonal and neonatal heart cells lacking the muscarinic cholinoceptor response only.     

Cell-transistor hybrid systems and their potential applications

Electrogenic cells fire spontaneous or triggered action potentials (transient changes of their membrane potentials) and can be electronically coupled to external electrodes (arrays). Signals from rat heart-muscle cells were recorded by a field-effect transistor and the results described on the basis of an equivalent circuit. This technique has potential applications in drug screening, such as measuring the dose-response curve of isoproterenol, a beta-adrenergic agonist with a positive chronotropic effect.     

Voltage-dependent effect of tetraethylammonium on the nicotinic acetylcholine receptors of rat superior cervical ganglion neurons

The effect of tetraethylammonium (TEA) on the currents evoked in neurons of the rat superior cervical ganglion by iontophoretic application of acetylcholine (ACh) was studied using a whole-cell patch-clamp recording technique. Tetraethylammonium was used at a concentration of about 20 µM, providing no blocking effect on the ACh-induced membrane currents at a range of positive membrane potentials and reducing these currents recorded at a range of negative membrane potentials by about half. The blocking effect of TEA increased with hyperpolarization within the –50 to –90 mV membrane potential range, and did not depend on the membrane potential level within a range of 0 to –50 mV. The analysis of dose dependence showed that both the voltage-dependent and the voltage-independent blocking effects are due to TEA competitive action on the ganglionic nicotinic acetylcholine receptors (nAChR). The results suggest that the TEA-induced competitive blockade is voltage-dependent.Neirofiziologiya/Neurophysiology, Vol. 27, No. 1, pp. 63–66, January–February, 1995.     

Motor reactivity of isolated heart of the grass-snake (Natrix natrix L.)

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.     

硝苯吡啶对腹腔神经节突触传递的阻断作用

本文应用细胞内记录技术,观察了钙通道阻滞剂硝苯吡啶（nifedipine)对离体豚鼠腹腔神经节突触传递的影响,硝苯吡啶（0.1-10umol/L)不影响所检细胞的静息膜电位,膜电阻及细胞内刺激引起的动作电位,但能显著阻断N-型胆碱能的突触传递,并且这种作用可被低钙模拟、高钙拮抗,硝苯吡啶（10umol/L)也不影响突触后膜对乙酰胆碱（ACh)的敏感性;但在高钾克氏液中,能减少微小兴奋性突触后电位（mEPSPs)的频率;在低钙和高镁克氏液中,能减少量子含量,而对量子大小无影响。结果表明,治疗量的硝苯吡啶(0.1umol/L)通过阻滞突触前膜钙内流及ACh的量子性释放,产生突触阻断作用。这可能是硝苯吡啶降压机理的一个组成部分。     

Effects of bimoclomol, the novel heat shock protein coinducer, in dog ventricular myocardium

The effects of the novel HSP-coinducer bimoclomol was studied on action potentials, ionic currents and [Ca2+]i transients in isolated canine ventricular myocytes using conventional microelectrode techniques and whole cell voltage clamp combined with fluorescent [Ca2+]i measurements. Contractility was studied in right ventricular trabeculae. All preparations were paced with a frequency of 0.2 Hz. Bimoclomol (100 microM) shortened action potential duration measured at 50% repolarization, but lengthened action potentials at the 90% repolarization level, decreased action potential amplitude and maximum depolarization velocity in a reversible manner. In voltage clamped myocytes, the drug activated a steady-state outward current at positive membrane potentials leaving the peak inward current unaffected. [Ca2+]i transients, measured under voltage clamp control, were increased in amplitude and had accelerated decay kinetics in the presence of the compound, in addition to reduction of diastolic [Ca2+]i. Bimoclomol significantly decreased the force of contraction in right ventricular trabeculae. Comparison of present data to previous results indicate that the cardiac effects of bimoclomol strongly depend on actual experimental conditions. The reduced contractility in spite of the increased amplitude of [Ca2+]i transients suggests that 100 microM bimoclomol may decrease calcium sensitivity of the contractile apparatus.     

The electrophysiological effects of disopyramide phosphate on canine ventricular muscle and Purkinje fibers in normal and low potassium

We studied the effect of lowering the extracellular potassium concentration ([K+]o) on the electrophysiological actions of disopyramide phosphate, a new antiarrhythmic drug. At low [K+]o, therapeutic concentrations of disopyramide phosphate caused significantly less depression of action potential amplitude and maximum upstroke velocity of both Purkinje fiber and ventricular muscle action potentials. The drug shifted the membrane responsiveness curve along the voltage axis to more negative membrane potentials regardless of [K+]o. However, a greater shift occurred when [K+]o was normal. Disopyramide phosphate prolonged both action potential duration and effective refractory period in all fibers but there was consistently greater prolongation of these parameters at low [K+]o. More importantly, disopyramide phosphate altered repolarization time course of action potentials in such a way that action potentials with dissimilar durations throughout the ventricular conducting system became more equal. The drug was less effective in decreasing this disparity in action potential durations throughout the ventricles in the presence of low [K+]o. These modifications of the electrophysiological actions of disopyramide by low [K+]o suggest that a therapeutic concentration of disopyramide might have less of an antiarrhythmic effect in the presence of hypokalemia.     

Action of pilocarpine on the normal frog heart and in pathology

Experiments on frogs were performed to examine the effect of the M-cholinomimetic pilocarpine on the heart. It was discovered that at concentrations of 10(-15)--10(-5) g/ml pilocarpine exerted only an adverse chronotropic effect on the perfused heart. When applied at a concentration of 10(-4) g/ml the drug produced a negative as well as a positive chronotropic effect. The latter occurred spasmodically (without progressive rise in the heart rate) in association with a slow heart rate. In some experiments such effects were preceded by a certain deceleration of the heart. In experiments with positive chronotropic effects, arrhythmias and sinoatrial dissociation were observed sometimes. Experiments with recording of the electrograms of the sinuses and lower parts showed that such effects were caused not by pacemaker acceleration but by the removal of the blockade of conduction, between the pacemaker and the atria. As far as the pacemaker is concerned, pilocarpine exerted only a negative chronotropic effect.     

An AF-DX 116 sensitive inhibitory mechanism modulates nicotinic and muscarinic transmission in cat superior cervical ganglion in the presence of anticholinesterase.

The effect of the muscarinic receptor antagonist AF-DX 116 on the inhibitory action of muscarinic agonists and on responses mediated by nicotinic or muscarinic ganglionic transmission was studied in the superior cervical ganglion of the anesthetized cat. The postganglionic compound action potential evoked by cervical sympathetic trunk stimulation was depressed by methacholine or acetylcholine (ACh) injected into the ganglionic arterial supply. The depression was blocked by AF-DX 116. The compound action potentials evoked by preganglionic stimulus trains were also depressed when the intratrain frequency was 2 Hz or greater. This intratrain depression was, however, insensitive to AF-DX 116. The anticholinesterase drug physostigmine markedly enhanced the intratrain depression of the compound action potential. This effect was reversed by AF-DX 116. During nicotinic receptor block with hexamethonium, preganglionic stimulus trains with intratrain frequencies of 5 Hz or greater produced nicitating membrane contractions that could be blocked by the M1 muscarinic receptor antagonist pirenzepine. The amplitude of the contractions increased with frequency and reached a maximum at 20-40 Hz. AF-DX 116 had no effect on these responses. After administration of physostigmine, the amplitude of the nictitating membrane responses decreased with increasing intratrain frequency. AF-DX 116 reversed this effect. The data suggest that, in the superior cervical ganglion, AF-DX 116 sensitive muscarinic receptors which depress synaptic transmission are activated by exogenous agonists but not by the ACh released by the preganglionic axon terminals unless cholinesterase activity is inhibited.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nicotine effects on mitochondria membrane potential: participation of nicotinic acetylcholine receptors

The effect of nicotine on the mouse liver mitochondria was studied by fluorescent flow cytometry. Mice consumed nicotine during 65 days; alternatively, nicotine was added to isolated mitochondria. Mitochondria of nicotine-treated mice had significantly lower basic levels of membrane potential and granularity as compared to those of the control group. Pre-incubation of the isolated mitochondria with nicotine prevented from dissipation of their membrane potential stimulated with 0.8 microM CaCl2 depending on the dose, and this effect was strengthened by the antagonist of alpha7 nicotinic receptors (alpha7 nAChR) methyllicaconitine. Mitochondria of mice intravenously injected with the antibodies against alpha7 nAChR demonstrated lower levels of membrane potential. Introduction of nicotine, choline, acetylcholine or synthetic alpha7 nAChR agonist PNU 282987 into the incubation medium inhibited Ca2+ accumulation in mitochondria, although the doses of agonists were too low to activate the alpha7 nAChR ion channel. It is concluded that nicotine consumption worsens the functional state of mitochondria by affecting their membrane potential and granularity, and this effect, at least in part, is mediated by alpha7 nAChR desensitization.     

白细胞介素-2对离体大鼠心脏的作用及其机理

本实验研究免疫调节因子IL-2对心脏的生物学作用及其机制.实验结果显示,hrIL-2增加离体心脏的室性早搏个数,增加心率,影响左室发展压、左室舒张末压和冠脉流量;热失活的hrIL-2对心脏无作用;Ryanodine预处理不改变hrIL-2的致心律失常作用和增加心率的作用,但取消了hrIL-2增加左室发展压、左室舒张末压和冠脉流量的作用;Nifedipine和低钙均取消了hrIL-2的致心律失常作用,部分取消了hrIL-2增加心率、左室发展压、左室舒张末压和冠脉流量的作用.结果提示,IL-2可导致离体心脏心律失常和正性变时变力作用,其心脏作用与其正常的空间结构有关,作用机制涉及跨膜内流钙和胞浆内钙.     

Key role of the nicotinic receptor in neurotransmitter exocytosis in human chromaffin cells

The whole-cell secretory response evoked by acetylcholine (ACh) in human chromaffin cells was examined using a new protocol based on quickly switching from the voltage-clamp to the current-clamp (CC) configuration of the patch-clamp technique. Our experiments revealed that Ca(2+) entry through the nicotinic receptor at hyperpolarized membrane potentials contributed as much to the exocytosis (100.4 +/- 27.3 fF) evoked by 200 ms pulses of ACh, as Ca(2+) flux through voltage-dependent Ca(2+) channels at depolarized membrane potentials. The nicotinic current triggered a depolarization event with a peak at +49.3 mV and a 'plateau' phase that ended at -23.9 mV, which was blocked by 10 mumol/L mecamylamine. When a long ACh stimulus (15 s) was applied, the nicotinic current at the end of the pulse reached a value of 15.45 +/- 3.6 pA, but the membrane potential depolarization still remained at the 'plateau' stage until withdrawal of the agonist. Perfusion with 200 mumol/L Cd(2+) during the 15 s ACh pulse completely abolished the plasma membrane depolarization at the end of the pulse, indicating that Ca(2+) entry through Ca(2+) channels contributed to the membrane potential depolarization provoked by prolonged ACh pulses. These findings also reflect that voltage-dependent Ca(2+) channels were recruited by the small current flowing through the desensitized nicotinic receptor to maintain the depolarization. Finally, muscarinic receptor activation triggered a delayed exocytotic process after prolonged ACh stimulation, dependent on Ca(2+) mobilization from the endoplasmic reticulum. In summary, we show here that nicotinic and muscarinic receptors contribute to the exocytosis of neurotransmitters in human chromaffin cells, and that the nicotinic receptor plays a key role in several stages of the stimulus-secretion coupling process in these cells.     

Delta sleep-inducing peptide as a modulator of mediators acting on the heart

Experiments on 51 isolated rabbit hearts have documented, that delta sleep-inducing peptide (6 X 10(-6) M/l) has a modulating effect on the mediators influencing the heart. This peptide enhances negative chronotropic effect of acetylcholine (1 X 10(-6) M/l) and decreases positive chronotropic effect of noradrenaline (1 X 10(-6) M/l). Such effect may be one of mechanisms of changes in the extracardiac regulation on the heart influenced by this peptide.     

Postnatal development of electrophysiological properties of pacemaker cells in the rabbit

Using glass microelectrodes, the authors measured basic electrophysiological parameters of the true pacemaker cells of the rabbit in an attempt to elucidate the postnatal drop in the frequency of action potentials produced by the sinoatrial node. The average rate of slow diastolic depolarization falls markedly between birth and adulthood, while the duration of the action potentials of the pacemaker cells become prolonged. These changes explain age-determined chronotropic development: the lower rate of slow diastolic depolarization in adult animals causes later attainment of the threshold; the longer action potential also contributes to prolongation of the cycle of membrane voltage changes in the pacemaker cells. The direct role of the postnatal increase in the maximum diastolic potential value is small, owing to a concomitant increase in the threshold potential value.     

Modulation of inhibition in the hippocampus in vivo

The nature and mechanisms of septohippocampal transmission have been elucidated by taking advantage of an in situ preparation in experiments with Sprague-Dawley rats under urethane. Both extracellular field potentials and intracellular recordings were made in CA1-3 regions of the hippocampus; and the hippocampal commissure and medial septum stimulated to evoke synaptic activity. Using muscarinic and nicotinic agonists and antagonists it was shown that both acetylcholine and medial septal activity can increase the excitability of pyramidal cells, mainly through muscarinic receptors. The effect of septal stimulation was enhanced by local application of physostigmine and reduced by intraventricular injections of hemicholinium. It was also shown that acetylcholine, when applied in the stratum pyramidale, can reduce the voltage and conductance changes observed during evoked inhibitory postsynaptic potentials (IPSP) without affecting the action of gamma-aminobutyric acid on membrane conductance and voltage. It is therefore proposed that acetylcholine can reduce evoked IPSPs through presynaptic inhibition. Evidence is also presented that medial septal stimulation can reduce the efficacy of evoked IPSPs. These observations provide further support for the existence of a cholinergic septohippocampal pathway.     

Frequency- and voltage-dependent effects of disopyramide in canine Purkinje fibers

The voltage- and frequency-dependent blocking actions of disopyramide were assessed in canine Purkinje fibers within the framework of concentrations, membrane potentials, and heart rates which have relevance to the therapeutic actions of this drug. Vmax was used to assess the magnitude of sodium channel block. Disopyramide produced a concentration- and rate-dependent increase in the magnitude and kinetics of Vmax depression. Effects on activation time (used as an estimate of drug effect on conduction) were exactly analogous to effects on Vmax. A concentration-dependent increase in tonic block was also observed. Despite significant increases in tonic block at more depolarized potentials, rate-dependent block increased only marginally with membrane potential over the range of potentials in which propagated action potentials occur. Increases in extracellular potassium concentration accentuated drug effect on Vmax but attenuated drug effect on action potential duration. Recovery from rate-dependent block followed two exponential processes with time constants of 689 +/- 535 ms and 15.7 +/- 2.7 s. The latter component represents dissociation of drug from its binding site and the former probably represents recovery from slow inactivation. A concentration-dependent increase in the amplitude of the first component suggested that disopyramide may promote slow inactivation. There was less than 5% recovery from block during intervals equivalent to clinical diastole. Thus, depression of beats of all degrees of prematurity was similar to that of basic drive beats. Prolongation of action potential duration by therapeutic concentrations of drug following a long quiescent interval was minimal. However, profound lengthening of action potential duration occurred following washout of drug effect at a time when Vmax depression had reverted to normal, suggesting that binding of disopyramide to potassium channels may not be readily reversed. Variable effects on action potential duration may thus be attributed to a block of the window current flowing during the action potential being partially or over balanced by block of potassium channels. Purkinje fiber refractoriness was prolonged in a frequency-dependent manner. Disopyramide did not significantly alter the effective refractory period of basic beats but did increase the effective refractory period of sequential tightly coupled extra stimuli. The results can account for the antiarrhythmic actions of disopyramide during a rapid tachycardia and prevention of its initiation by programmed electrical stimulation.