The effect of hypertonic urea solution on Na+ and K+ transport through the smooth muscle membrane.

The aim of this work was to examine the effect of a hypertonic solution (Krebs solution + 290 mM urea) on K+ and Na+ transport. The experiments were carried out on the guinea-pig taenia coli preparations using the method of Na-24 and K-24 loading and washout. The efflux curves were analysed by means of the digital computer technique. The following parameters were determined: efflux rate constant k2, influx rate constant k1, intracellular ion concentration C1 ion flux M and permeability P. Any significant difference between PNa/PK ratio in hypertonic urea and isotonic Krebs solutions was found.     

Electrophysiological studies of the smooth muscle cell membrane of the rabbit common carotid artery

The electrical responses of the smooth muscle cells of the rabbit common carotid artery to extracellular stimulation were studied in isotonic and hypertonic solution (1.7 times normal tonicity) with microelectrodes. No spontaneous electrical or mechanical activity was recorded when the tissue was in either isotonic or hypertonic solution. The voltage-current relation of smooth muscle cells in the common carotid artery showed marked rectification in both isotonic and hypertonic solutions. In isotonic and hypertonic solutions mean values for membrane potentials were -44.5 and -51.5 mv, for space constants 1.13 and 1.21 mm, and for time constants 212.2 and 238.2 msec, respectively. Addition of 34.3 mM TEA to the solutions caused spontaneous action potentials in the common carotid artery. The action potentials recorded simultaneously from two microelectrodes showed good synchronization. It was concluded that there is electrical transmission between cells of this artery.     

Mechanism of the exciting action of noradrenalin and adrenalin on the smooth muscle cells of the portal vein

The ionic mechanism of the exciting action of catecholamines — nonadrenalin and adrenalin — on the muscle cells of the portal vein of the rat was investigated by the method of a double "sucrose bridge." To determine the role of various ions in the action of catecholamines, they were removed from Krebs solution and replaced by other ions. In muscle cells kept in sodium-free Krebs solution, just as under normal conditions, the catecholamines induced depolarization of the membrane, an increase in the spontaneous electrical activity, an increase in the excitability, and a decrease in the amplitude of the electrotonic potentials (ETP), i.e., the resistance of the membrane. The exciting action of catecholamines on muscle cells also did not cease after the removal of Ca⁺⁺ from solution. This action of them was not manifested only in the case when Na⁺ and Ca⁺⁺ were removed simultaneously from the surrounding solution. Thus, the exciting action of noradrenalin and adrenalin on muscle cells of the portal vein is due to a decrease in the permeability of the cell membrane for Na⁺ and Ca⁺⁺ in a definite quantitative ratio.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 6, pp. 643–653, November–December, 1970.     

Influence of the human blood serum on contractility and β-adrenoreactivity of the isolated human myocardium

Influence of adrenaline (10⁻⁹ to 10⁻⁴ g/ml) on the contraction amplitude caused by electrostimuli (1Hz, 5 ms, 25–30 V) and inotropic and adrenomodulation activities of blood serum of nonpregnant women (at dilutions of 1 : 10 000, 1 : 1000, 1 : 500, 1 : 100, 1 : 50, 1 : 10, and 1 : 5) have been studied. The study has been carried out on isolated myocardium strips of the right atrial auricle that were taken from 43 patients with ischemic illness of the heart and 9 patients with valvular heart diseases of various etiologies upon venous cannula insertion during an aortocoronary bypass. Direct dependence of the contraction amplitude on the cardiac output according to Teicholz has been found. This meant that strips of the right atrial auricle reflected the contractility of the left ventricle myocardium. Adrenaline has been shown to dose-dependently increase the amplitude of evoked contractions in the concentration interval from 10⁻⁷ to 10⁻⁶ g/ml and had no influence from 10⁻⁹ to 10⁻⁸ g/ml (dissociation constant, 2 × 10⁻⁷ g/ml), which proved a decrease in the β-adrenoreceptor’s (β-AR) activation. Blood serum in a dilution range from 1 : 10 000 to 1 : 50 had no effect on the contraction amplitude, but an enhanced effect has been found in a dilution range from 1 : 10 and 1 : 5. The presence of the endogenous activator of myocytes contractility (EAMC) has explained this enhanced effect. The β-adrenomodulation activity of blood serum has been explained by the presence of the endogenous sensitizer of β-AR (ESBAR) and the endogenous blocker of β-AR (EBBAR). The ESBAR activity of blood serum (dilutions: 1 : 1000, 1 : 500, 1 : 100, and 1 : 50) has been found in experiments with a subthreshold adrenaline concentration (10⁻⁸ g/ml). ESBAR (dilutions: 1 : 50 and 1 : 10) and EBBAR (dilution 1 : 500) activities of blood serum have been found in experiments with the maximum effective concentration of adrenaline (10⁻⁶ g/ml). Therefore, blood serum endogenous modulators of β-adrenergic reactivity, ESBAR and EBBAR, can modulate the activation of β-AR of human cardiomyocytes. These prove the prospects of the ESBAR analogue application in cardiology.     

银杏内酯B对豚鼠腹腔神经节神经元Fast-EPSP的抑制效应

应用细胞内记录技术,观察并分析了银杏内酯B(GB)对豚鼠(Cavia porcellus)离体腹腔神经节(CG)神经元快兴奋性突触后电位(fast-EPSP)的影响及可能机制.用4×10-6mol/L的GB灌流CG,fast-EPSP的幅值均明显降低,与对照组相比有显著性差异(n=12,P<0.05);用低Ca2 /高Mg2 Krebs液灌流,fastEPSP被完全抑制(n=3);用高Ca2 Krebs液灌流,fast-EPSP幅度则增大(n=12,P<0.05),而用4×10-6mol/L GB与高Ca2 Krebs液联合灌流,fast-EPSP幅度则减小(n=12,P<0.05).结果提示,GB对CG神经元fast-EPSP的抑制效应可能与减少或抑制CG神经元的外Ca2 内流有关.     

Ionic mechanism of the Woodwors staircase

Analysis of single-chamber model of electromechanical coupling in the myocardial cell has shown that Woodwors staircase can be imitated in two cases: 1) stationary input current Ca2+ strongly exceeds the potential-dependent uptake of Ca2+ into the cell through the sarcolemma; 2) the action potential (AP) is shortened abruptly with an increase of the myocardium stimulation frequency. The experiments performed on a fragment of the frog heart ventricle supported the conclusions of the model. Blocking of Ca-channels with nifedipine (10(-6) g/mol) at the background of isotonic substitution of 70% of NaCl resulted in the development of "negative staircase" with an increase of stimulation rhythm. An abrupt shortening of AP after rest at joint action of adrenaline (10(-6) g/ml) and blocker of Ca-channels D-600 (10(-6) g/ml) was accompanied by Woodwors staircase.     

Calcium and cyclic AMP as possible mediators of neurohormone action in the hindgut of the cockroach, Leucophaea maderae

Adenosine 3′,5′-monophosphate (cyclic AMP) (10⁻⁵ g/ml) often caused a gradual increase in spotaneous contractile activity of the hindgut of the cockroach, Leucophaea maderae, and on rare occasions it would evoke a hormone-like response. However, aminophylline (2·5 × 10⁻⁴ g/ml) was capable of mimicking the neurohormone, and a concentration of 2·5 × 10⁻⁵ g/ml potentiated the contractile response evoked by the neurohormone: these responses were blocked by either the presence of 1 mM manganous ion or in a high potassium solution (162 mM). Propranolol (10⁻⁶ g/ml) and dopamine (10⁻⁴ g/ml) suppressed both spontaneous contractile events and neurohormone action. Dopamine (5 × 10⁻⁶ g/ml) also blocked action potential generation as did propranolol at 10⁻⁴ g/ml.These results lead us to suppose that cyclic AMP might serve as a mediator of neurohormone action by increasing calcium transport across the surface membrane of muscle fibres. Caffeine (2·5 × 10⁻⁴ g/ml), like aminophylline, caused a hormone-like response in normal hindguts. Even when the visceral muscles of the hindgut were depolarized in 162 mM potassium solution (without calcium), caffeine was still capable of inducing a phasic response. However, the addition of 2 mM calcium to such potassium-depolarized preparations caused a gradual increase in muscle tonus and substantially potentiated the response to caffeine.Such findings clearly implicate calcium as the mediator of excitation-contraction coupling in visceral muscle. While the interactions between the neurohormone, cyclic AMP, and calcium seem to be largely associated with the surface membrane and action potential generation.     

Effects of K+ Channel Blockers and Nitric Oxide on the Electrical and Contractile Activities of Smooth Muscles of the Rabbit Main Pulmonary Artery

Using a sucrose-bridge technique, we studied electrical and mechanical responses of smooth muscle ring strips of the rabbit main pulmonary artery to applications of blockers of voltage-operated (including Ca²⁺-dependent) K⁺ channels, tetraethylammonium (TEA) and 4-aminopyridine (4-AP), as well to application of nitric oxide (NO); nitroglycerin (NG) was used as a donor of the latter. All experiments were carried out under conditions of blockade of the adreno- and cholinoreceptors in the preparation. Both TEA and 4-AP evoked dose-dependent effects: depolarization of smooth muscle cells (SMC) and their contraction. Simultaneous addition of TEA and 4-AP to the normal superfusate (Krebs solution) resulted in intensification of depolarization and initiated generation of action potentials (AP); contractions became rather intensive and possessed a tetanic pattern. Addition of NG to TEA- and 4-AP-containing Krebs solution effectively suppressed AP generation and contractions, whereas the depolarization level underwent only mild modifications. These findings show that Ca²⁺-dependent high-conductance K⁺ channels (K_Ca channels) and 4-AP-sensitive voltage-operated K⁺ channels (K_V channels) are involved in the formation of the resting membrane potential (RMP) in SMC of the rabbit main pulmonary artery. The impact of the K_Ca channels is greater than that of the K_V channels. We suppose that the effects of NO on SMC are related to inhibition of the activity of high-threshold voltage-operated L-type Ca²⁺ channels and, probably, to lowering of the sensitivity of the contractile SMC apparatus to Ca²⁺.     

Effect of Bay K 8644 on tetraethylammonium-induced excitability of the rabbit pulmonary artery

The effect of Bay K 8644 on the electrical activity of the smooth muscle cells in the main pulmonary artery of the rabbit was examined. In normal physiological solution, the resting membrane potential was -56 +/- 0.6 mV, and the cells were electrically quiescent. Tetraethylammonium (5 mM) depolarized the membrane to about -45 mV, and electrical stimulation elicited action potentials. To suppress contractile responses and thereby facilitate sustained impalements, the muscle strips were bathed with a hypertonic solution containing sucrose. The mean amplitude of the tetraethylammonium-induced action potentials in the hypertonic solution was 35 +/- 0.9 mV. The action potentials were dependent upon the extracellular Ca2+ concentration and were abolished by diltiazem (10(-6) M). Spontaneous action potentials were occasionally generated in the presence of tetraethylammonium alone and could be induced by the further addition of Ba2+ (0.5 mM). The Ca2+ agonist Bay K 8644 (10(-8) to 10(-6) M) had no effect on the resting membrane potential or excitability in normal solution. However, in the hypertonic solution containing tetraethylammonium, Bay K 8644 caused a further depolarization and oscillatory potential changes, which were not prevented by tetrodotoxin. The oscillations were suppressed or abolished by diltiazem or nilvadipine. Thus, active responses can occur in the normally quiescent smooth muscle cells of the rabbit pulmonary artery when the outward K+ current(s) are suppressed.     

Acceleration of the electrogenic Na+ pump by adrenaline in frog skeletal muscle fibres

The effect of adrenaline on the K⁺-activated hyperpolarization of frog skeletal muscle fibres was studied. The amplitude of K⁺-activated hyperpolarization, which was produced when the external K⁺ concentration was changed from 0 to 2 mM, was markedly increased in the presence of adrenaline. In the presence of ouabain (1 × 10^?5 M), which completely and reversibly eliminated the K⁺-activated hyperpolarization, adrenaline caused no significant changes in both the membrane potential and conductance under the condition where the K⁺-activated hyperpolarization was supposed to be produced. These results suggested that adrenaline accelerated the electrogenic Na⁺ pump which produced the K⁺-activated hyperpolarization.     

Effect of Australian Propolis from Stingless Bees (Tetragonula carbonaria) on Pre-Contracted Human and Porcine Isolated Arteries

Bee propolis is a mixture of plant resins and bee secretions. While bioactivity of honeybee propolis has been reported previously, information is limited on propolis from Australian stingless bees (Tetragonula carbonaria). The aim of this study was to investigate possible vasomodulatory effects of propolis in KCl-precontracted porcine coronary arteries using an ex vivo tissue bath assay. Polar extracts of propolis produced a dose-dependent relaxant response (EC₅₀=44.7±7.0 μg/ml), which was unaffected by endothelial denudation, suggesting a direct effect on smooth muscle. Propolis markedly attenuated a contractile response to Ca²⁺ in vessels that were depolarised with 60 mM KCl, in Ca²⁺-free Krebs solution. Propolis (160 µg/ml) reduced vascular tone in KCl pre-contracted vessels to near-baseline levels over 90 min, and this effect was partially reversible with 6h washout. Some loss in membrane integrity, but no loss in mitochondrial function was detected after 90 min exposure of human cultured umbilical vein endothelial cells to 160 µg/ml propolis. We conclude that Australian stingless bee (T. carbonaria) propolis relaxes porcine coronary artery in an endothelial-independent manner that involves inhibition of voltage-gated Ca²⁺ channels. This effect is partially and slowly reversible upon washout. Further studies are required to determine the therapeutic potential of Australian stingless bee propolis for conditions in which vascular supply is compromised.     

Action of some surfactants on neuromuscular transmission in frogs

The effect of bile salts, saponin, and Tween-80 on miniature end-plate potentials and electrotonic potentials of frog muscle fibers was studied. During the action of bile salts in a concentration of 10^–4 g/ml the frequency of the synaptic potentials rose sharply. Their amplitude also increased. The input resistance of the muscle fiber decreased during the action of these substances. With an increase in their concentration to 10^–3 g/ml bile salts caused an initial increase in frequency of the spontaneous synaptic potentials followed by their depression and complete disappearance. Tween-80 caused no appreciable change in synaptic activity, whereas saponin inhibited it. Lowering the external calcium ion concentration by two to eight times had no influence on the stimulating effect of bile salts, but the total removal of calcium reduced it. The substances tested stimulated secretion of acetylcholine from the nerve endings, probably through changes caused in the structure of the presynaptic membrane.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 8, No. 3, pp. 305–310, May–June, 1976.     

Loss of the plateau of the cardiac action potential in hypertonic solutions

The effect of hypertonicity on the electrical properties of vertebrate myocardial cells was studied in ventricular muscle fibers of guinea pig, cat, frog, and chicken. The latter two species do not have a T-tubule system, whereas the former two do. In hypertonic solutions (2 x isotonic) produced by addition of sucrose or excess of NaCl, cell diameter decreased and there was a slight hyperpolarization and decrease in action potential overshoot. In guinea pig and cat, the hypertonic solution caused a decrease in input resistance and the plateau of the action potential to disappear in some of the cells; contractions of the entire ventricle also became depressed. These effects were reversed by returning the muscle fibers to isotonic solution. Addition of 5 mM SrCl₂ to the hypertonic solution also caused the plateau component and contraction to reappear. In frog and chick cells, loss of the plateau component and contraction never occurred in hypertonic solution, and input resistance increased. Urea and glycerol hyperosmolarity (2 x) caused no loss of the plateau component or contraction. If the frog and chicken ventricular, and guinea pig atrial myocardial cells (all of which lack T tubules) were to serve as an adequate control for possible effects of hypertonicity on the surface membrane and on contractile proteins, then the results suggest that swelling of the T tubules of mammalian myocardial cells leads to loss of the plateau component.     

Effect of ozone exposure on contractile activity and chemoreactivity of uterus horns longitudinal muscles of nonpregnant rats

With the purpose of studying the mechanism of ozone action on uterus smooth muscles it was investigated the influence of ozone-content (approximately 0.50 mkg/ml) Krebs' solution or its 10- and 100-fold dissolution on contractile activity and beta-adrenoreactivity of 56 longitudinal strips of uterus horns of 17 nonpregnant rats. Ozone at concentration approximately 0.50 mkg/ml (but not in concentration of approximately 0.05 and approximately 0.005 mkg/ml) reversibly raised frequency, amplitude and total contractile activity of intact myometrium strips, and also fast and reversibly reducel its beta-adrenoreactivity, i.e. decreased of inhibitory action of adrenaline (10(-8), 10(-7), 10(-6) g/ml), but did not change uterostimulatory effect of acetylcholine (10(-6) g/ml) and oxiyocin (5 x 10(-4) ME/ml), what evident about specificity of ozone beta-adrenoblokate effect. Ozone (approximately 0.50 and 0.05 mkg/ml) did not change ov value of potassium contracture of myometrium strips which was depolarized by hyperpotassium (60 mM KCL) Krebs' solution, but reduced inhibitory action of adrenaline (10(-8) g/ml). The question is being discussed about mechanisms of ozone beta-adrenoblocade actions, about clinical role of this phenomenon, and the possibility of using beta-adrenoreceptor sensibilizators direct action (histidine, tryptophan, tyrosine, trimetazidin and mildronat) at ozonotherapy with the purpose reduction of its negative effects.     

Influence of the human blood serum on contractility and beta-adrenoreactyvity of the isolated human myocardium

On strips of the isolated myocardium of right hearts auriculum of the 43 patients with ischemic illness of heart and 9 patients with heart diseases of various ethyology at statement venous canule during aorto-coronary shunting, estimated influence of adrenaline (10(-9)-10(-4) g/ml) on amplitude caused by electrostimulus (1H, 5ms, 25-30 V) contractions, and also inotropic and adrenomodulation activity of serum blood (in dilution 1 : 10000, 1: 1000, 1 : 500, 1: 100, 1 : 50, 1: 10 and 1 : 5) nonpregnant women. Direct dependence of amplitude of contraction on size of fraction of of blood emission on Teyholts is revealed. It means, that strips of right auriculum myocardium reflect contractility of a left ventriculum myocardium. Adrenaline in concentration 10(-7)-10(-6) g/ml dependent of dose raised amplitude of the caused contraction not influencing it in concentration of 10(-9) and 10(-8) g/ml (the constant of dissotiation has 2 x 10(-7) g/ml), that as a whole, speaks about decrease in efficiency of activation beta-AP. Blood Serum in dissolutions 1 : 10000-1 : 50 did not influence on amplitude of contraction, and in dissolutions 1 : 10 and 1 : 5 strengthened it, that speaks presence in blood the endogenous activator of myocyte contractility (EAMC). Serum showed beta-adrenomodulation activity that speaks presence in it endogenous sensitizer of beta-adrenoreceptors (ESBAR) and endogenous blocker of beta-adrenoreceptors (EBBAR). In particular, in experiences with adrenaline in subthreshold concentration (10(-8) g/ml) serum showed ESBAR-activity (in dissolutions 1 : 1000, 1 : 500, 1 : 100 and 1 : 50), and in experiences with adrenaline in as much as possible effective concentration (10(-6) g/ml) serum showed ESBAR-activity (in dissolutions 1 : 50 and 1 : 10) and EBBAR-activity (in dissolutions 1:500) Hence, containing in blood serum endogenous modulators of beta-adrenoreactivity - ESBAR and EBBAR can modulate efficiency of beta-adrenoreceptors activation of human cardiomyocytes. It speaks about perspectivity of application of ES BAR analogues in cardiology.     

Synaptic interaction between single motoneurons in the isolated frog spinal cord

The nature of synaptic interaction between two neighboring motoneurons in the isolated frog spinal cord was studied by parallel insertion of two separate micro-electrodes into the cells. In 82 of 89 motoneurons tested transmission through synapses between the motoneurons was electrical in nature, as shown by the absence or short duration of the latent period of elementary intermotoneuronal EPSPs, stability of their amplitude, and preservation of responses in Ca⁺⁺-free solution containing 2 mM Mn⁺⁺. Direct electrotonic interaction was demonstrated in both directions: artificial de- and hyperpolarization of one motoneuron led to corresponding shifts of membrane potential in the neighboring motoneuron. The time constant of rise and decay of this potential was appreciably greater than the time constant of the membrane of the two interconnected motoneurons. Blockade of the SD-component of the action potential in the "triggering" motoneuron led to a decrease in the elementary EPSP in the neighboring motoneuron. These facts suggest that electrotonic interaction takes place through dendro-dendritic junctions. Absence of rectification was demonstrated in electrical synapses between motoneurons. In four cases elementary EPSPs were chemical in nature, for they appeared 1.3–3.3 msec after the beginning of the action potential in the "triggering" motoneuron, and were blocked in Ca⁺⁺-free solution containing Mn⁺⁺; fluctuations of their amplitude approximated closely to a Poisson or binomial distribution. Such responses are evidently generated by synapses formed by recurrent axon collaterals of one motoneuron on the neighboring motoneurons. In three cases elementary intermotoneuronal EPSPs consisted of two components, the first electrical and the second chemical in nature. Morphological structures which may be responsible for generation of 2-component EPSPs are examined.Deceased.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 16, No. 5, pp. 619–630, September–October, 1984.     

Smooth muscle membrane vesicle orientation: a study on intactness and sidedness of rat myometrium plasma membrane vesicles

Plasma membrane vesicles of rat myometrium were prepared in media containing 240 mM sucrose. The vesicles were exposed to isotonic, hypertonic, and hypotonic sucrose concentrations, fixed, sectioned, and studied using the electron microscope. The vesicles fixed in isotonic media were circular in appearance. Vesicles fixed in hypertonic media were distorted and showed a reduced volume to surface ratio consistent with the hypothesis that greater than 80% of the vesicles were osmotically active to sucrose. Cationized ferritin binding studies and Ca binding and release studies were also consistent with this finding. Exposure to hypotonic media also yielded membranes with distorted profiles indicating that they had been ruptured. [3H]Sucrose trapping experiments revealed that the vesicles had an internal volume of 1.20-1.44 mL/g protein. Hypotonic shock treatment reduced this intravesicular volume to 0.20-0.28 mL/g protein. The hypotonic shock treatment also led to enhanced galactose oxidase catalyzed Na3B3H4 labelling of the membranes and to increased K+-activated ouabain-sensitive p-nitrophenyl phosphatase activity. The enhancement was the same (55 +/- 10%) in the various membrane preparations for both the parameters. The data are interpreted to conclude that the rat myometrium plasma membrane vesicles consisted of 20% broken vesicles and equal proportions of intact vesicles of inside-out and rightside-out orientations.     

Membrane Potential of Brown Adipose Tissue : A suggested mechanism for the regulation of thermogenesis

Membrane potentials were recorded in isolated segments of interscapular brown adipose tissue from rats. After equilibration at 29°C in Krebs-Ringer bicarbonate buffer a mean value of -51 ± 4 mv (SD) was found. This level could be maintained for up to 5 hr. The mean effective membrane resistance was 1.35 ± 0.45 megohm. The membrane potential was a function of the extracellular potassium concentration. Ouabain (10^-6-10^-3 M) and incubation in K-free buffer produced progressive depolarization. Epinephrine and norepinephrine in concentrations as low as 10^-8 g/ml produced a prompt depolarization. Cooling of the tissue and lowering of the oxygen tension caused a marked and reversible decrease in the membrane potential. In tissue obtained from cold-adapted rats, the membrane potential was considerably diminished. 6Assuming that the membrane potential is some function of the Na permeability of the plasma membrane it is suggested that an increase in the rate of active Na-K transport and ensuing ADP formation might contribute to the increase in respiration seen during exposure to thermogenic stimuli.     

Peculiarities of Ca<Superscript>2+</Superscript>-regulation of functional activity of myocardium of frog <Emphasis Type="Italic">Rana temporaria</Emphasis>

To elucidate role of intra- and extracellular Ca²⁺ in regulation of rhythm and strength of frog heart contractions, there were studied ECC and isometric contraction of myocardium preparations in response to verapamil, adrenaline, and blockers of α- and β-adrenoreceptors. It has been shown that after an intramuscular injection of verapamil (6 mg/kg), bradycardia develops, the heart rate (HR) decreasing by 50–70%. Further, the cardiac arrest occurred; however, administration to the animals of adrenaline (100 mg/kg) restored the cardiac rhythm for a short while. After an intramuscular injection of adrenaline at doses of 0.1–10 mg/kg, no essential changes were observed in the potential action amplitude and HR; an increase of the administered adrenalin concentration to 100 mg/kg was not accompanied by the cardiac rhythm stimulation, as this takes place in homoiothermal animals and human; on the contrary, an essential HR deceleration was revealed. Phentolamine (5 mg/kg) gradually decelerated HR rhythm by 32–45%. The potential amplitude changed insignificantly. A subsequent intracardiac injection of adrenaline (100 mg/kg) on the background of block of α-adrenoreceptors produced acceleration of the rhythm (by 15–21%) and fall of the electrogram amplitude. These results can indicate that in the frog heart phentolamine interacts predominantly with α 1-adrenoreceptors. An intracardial administration of propranolol (1 mg/kg) to frogs promoted inhibition of β-adrenergic receptors and produced a gradual cardiac rhythm deceleration. In experiments on assessment of verapamil effect on the character of contractions this preparation at a concentration of 150 μM was established to produce a significant dose-dependent decrease of the contraction strength. A rise of verapamil concentration in the sample to 200 μM led to a decrease of the amplitude, on average, by 68–70% and in individual preparations—by 80–85%; however, administration into the sample of adrenaline (10 μM) restored the cardiac contraction strength. Adrenaline (1 nM–100 μM) increased markedly the contraction amplitude. Phentolamine (10 μM) did not inhibit transmission of contractile signal to cardiomyocytes; this was manifested in that the contraction amplitude after addition of adrenaline (10 μM) into the sample was approximately the same as in the sample containing no phentolamine. Propranolol (10 μM) eliminated the stimulatory action of adrenaline (10 μM). The results of these experiments indicate that in the frog ventricular cardiomyocytes the main adrenaline acceptors are β-adrenoreceptors.