Regional differences in action potential characteristics and membrane currents of guinea-pig left ventricular myocytes

Regional differences in action potential characteristics and membrane currents were investigated in subendocardial, midmyocardial and subepicardial myocytes isolated from the left ventricular free wall of guinea-pig hearts. Action potential duration (APD) was dependent on the region of origin of the myocytes (P < 0.01, ANOVA). Mean action potential duration at 90 % repolarization (APD90) was 237 +/- 8 ms in subendocardial (n = 30 myocytes), 251 +/- 7 ms in midmyocardial (n = 30) and 204 +/- 7 ms in subepicardial myocytes (n = 36). L-type calcium current (ICa) density and background potassium current (IK1) density were similar in the three regions studied. Delayed rectifier current (IK) was measured as deactivating tail current, elicited on repolarization back to -45 mV after 2 s step depolarizations to test potentials ranging from -10 to +80 mV. Mean IK density (after a step to +80 mV) was larger in subepicardial myocytes (1.59 +/- 0.16 pA pF-1, n = 16) than in either subendocardial (1.16 +/- 0.12 pA pF-1, n = 17) or midmyocardial (1. 13 +/- 0.11 pA pF-1, n = 21) myocytes (P < 0.05, ANOVA). The La3+-insensitive current (IKs) elicited on repolarization back to -45 mV after a 250 ms step depolarization to +60 mV was similar in the three regions studied. The La3+-sensitive tail current, (IKr) was greater in subepicardial (0.50 +/- 0.04 pA pF-1, n = 11) than in subendocardial (0.25 +/- 0.05 pA pF-1, n = 9) or in midmyocardial myocytes (0.38 +/- 0.05 pA pF-1, n = 11, P < 0.05, ANOVA). The contribution of a Na+ background current to regional differences in APD was assessed by application of 0.1 microM tetrodotoxin (TTX). TTX-induced shortening of APD90 was greater in subendocardial myocytes (35.7 +/- 7.1 %, n = 11) than in midmyocardial (15.7 +/- 3. 8 %, n = 10) and subepicardial (20.2 +/- 4.3 %, n = 11) myocytes (P < 0.05, ANOVA). Regional differences in action potential characteristics between subendocardial, midmyocardial, and subepicardial myocytes isolated from guinea-pig left ventricle are attributable, at least in part, to differences in IK and Na+-dependent currents.     

Influence of postnatal changes in action potential duration on Na-Ca exchange in rabbit ventricular myocytes

Cardiac Na-Ca exchanger (NCX) expression and current density are significantly greater in newborn rabbit hearts compared with adults. However, the relatively short action potential (AP) at birth may limit the impact of increased NCX expression by diminishing Ca2+ entry via Na-Ca exchange current (INaCa). To address the interdependence of AP duration and NCX activity, we voltage-clamped newborn (NB, 1-5 day), juvenile (JV, 10-14 day) and adult (AD) rabbit myocytes with a series of APs of progressively increasing duration (APD90: 108-378 ms) under nominally chloride-free conditions. In each age group we quantified an increase in outward (QExout) and inward (QExin) Ni2+-sensitive charge movement in response to AP prolongation. QExout and QExin measured during age-appropriate APs declined postnatally [QEXout: NB (2 day) 0.19 +/- 0.02, JV (10 day) 0.10 +/- 0.01, AD 0.04 +/- 0.002; QEXin: NB -0. 2 +/- 0.01, JV -0.11 +/- 0.02; AD -0.04 +/- 0.003 pC/pF] despite the significantly shorter APD90 of newborn myocytes (NB 122 +/- 10; AD 268 +/- 22 ms). When Ca2+ fluxes by other transport pathways were blocked with nifedipine, ryanodine and thapsigargin, age-appropriate APs elicited contractions in NB and JV but not AD myocytes (NB 4.8 +/- 0.5, JV 1.2 +/- 0.3% resting length). These data demonstrate that a shorter AP does not negate the impact of increased NCX expression at birth.     

Multiple modulations of action potential duration by different calcium channel blocking agents in guinea pig ventricular myocytes

Morphometric and functional brain research is now an integral part of the most concentrated effort in a century to understand some of the most distressing illnesses to which man can fall victim. It will undoubtedly expand. The only ones with anything to fear from this work are those who, for ideological reasons, cannot accept its basic premises. The ethical issues it raises are not in general insurmountable, though the questions posed by the concept of informed consent remain.     

The effect of oxygen free radicals on calcium current and dihydropyridine binding sites in guinea-pig ventricular myocytes

1. We used electrophysiological and binding techniques to determine the effects of oxygen free radicals (OFRs) generated by dihydroxyfumaric acid (DHF, 5 mM) on calcium current and dihydropyridine binding sites in guinea-pig isolated ventricular myocytes. 2. Binding of [3H]-PN200-110 to isolated ventricular myocytes revealed one population of binding sites with a KD of 0.11 +/- 0.01 nM and Bmax of 139.1 +/- 6.9 fmol mg-1 protein (n = 24). After 15 min of exposure to DHF, the density, but not the affinity of [3H]-PN200-110 binding sites was significantly (P < 0.01) reduced to 35% of the control value (Bmax = 49.4 +/- 3.7 fmol mg-1 protein, KD = 0.11 +/- 0.01 nM, n = 15). In the presence of superoxide dismutase (SOD) and catalase (CAT) the reduction in [3H]-PN200-110 binding sites was almost completely prevented (Bmax = 120.5 +/- 7.4 in control, n = 4 and 98.8 +/- 7.4 fmol mg-1 protein in DHF plus SOD and CAT, n = 4). KD values were not modified (0.08 +/- 0.01 in control and 0.09 +/- 0.01 nM in DHF plus SOD and CAT). 3. The time-course of the reduction of [3H]-PN200-110 binding sites by OFRs was paralleled by the decrease in L-type calcium current (Ica,L) measured in patch-clamped guinea-pig ventricular myocytes either in the absence or in the presence of EGTA in the patch pipette. In the former conditions OFRs induced the appearance of calcium-dependent alterations, i.e. the transient inward current, within 10 min. After 30 min of incubation with DHF, [3H]-PN200-110 binding sites were reduced to 25% of the control value. 4. In myocytes incubated with the antilipoperoxidant agent, butylated hydroxytoluene (BHT, 50 microM), the decrease in [3H]-PN200-110 binding sites caused by DHF was partially prevented (Bmax values after 30 min exposure to DHF were 55.5 +/- 1.9 and 23.7 +/- 5.9 fmol mg-1 protein in the presence and in the absence of BHT respectively, P < 0.05). BHT did not affect the decrease in [3H]-PN200-110 binding sites during the first 15 min of exposure to DHF, but was able to prevent completely the further decrease occurring during the following 15 min of incubation with OFRs. 5. Our results demonstrate that the OFR-induced decrease in calcium current is associated with a reduction in DHP binding sites. The decrease in calcium current and in calcium channels may be implicated in the mechanical dysfunction associated with oxidative stress.     

Ionic mechanisms mediating the differential effects of methohexital and thiopental on action potential duration in guinea pig and rabbit isolated ventricular myocytes

BACKGROUND: The stress response to injury concept has been proposed as a mechanism of chronic rejection. This hypothesis has been tested with a rat cardiac allograft model in recipients pretreated with donor bone marrow (BM) cells. Chronic rejection is manifested in this BM group by obliterative arteriopathy and the epicardium and endocardium contains lymphocytic infiltrates resembling Quilty lesions. Pretreatment with a liver allograft (the orthotopic liver transplant [OLTx] group) is associated with an absence of chronic rejection in the transplanted heart. METHODS AND RESULTS:. Stress responses in the allograft were assessed by determining heat shock protein (hsp) expression by immunohistology of graft tissues and immunoblot analysis of stromal tissue lysates with monoclonal antibodies (mAb) to mammalian hsp60, the inducible hsp72, the constitutively expressed hsc73, and the grp78 C-terminal sequence KSEKDEL (grp78seq). Immunostaining showed clusters of grp78seq-positive cells in the inflammatory infiltrates of obliterated blood vessels and Quilty lesions in the BM group of cardiac allografts. Such grp78seq-positive cells were not seen in the OLTx group of heart allografts nor in syngrafts. Neither group showed significantly different graft myocyte staining of grp78 or hsp72, whereas hsp60 and hsc73 showed higher expression in the BM group and, to a lesser extent, the OLTx group. The increased expression of hsc73 was seen especially in the obliterated arteries and in myocytes nearby cellular infiltrates. Immunoblot analysis of graft stromal tissue lysates showed additional bands with mAb to hsp60 and hsc73 for the OLTx and especially the BM group. No significant bands were seen for hsp72 and grp78. Lymphocytes isolated from chronically rejecting allografts reacted with irradiated autologous spleen cells in the presence of mycobacterial hsp65 and interleukin-2. Culturing of graft-infiltrating cells with mycobacterial hsp71 and interleukin-2 yielded lymphocyte clones without alloreactivity, but with strong proliferative responsiveness to self-antigen-presenting cells and, only in the presence of mycobacterial hsp71 or murine grp78. This T-cell reactivity seemed to require intact hsp molecules because treatment of hsp71 with proteolytic enzymes, polymyxin, or ATP abrogated this induction of the stimulatory effect of self-antigen-presenting cells. These T cells are similar to the hsp-dependent, autoreactive lymphocytes cloned from acutely rejecting rat allografts. CONCLUSIONS: These findings support the concept that the pathogenesis of chronic rejection involves a stress response and the participation of graft-infiltrating autoreactive T cells that operate under hsp-dependent mechanisms.     

Transient prolongation of ventricular action potential duration after metabolic inhibition

Transient prolongation of the action potential duration was observed in canine ventricular muscle during the reoxygenation period following metabolic inhibition. We investigated the effects of verapamil, lanthanum (La3+), and hexamethyleneamiloride (HMA) on the recovery time course of the action potential and its rebound prolongation. The time course of the intracellular resistivity was estimated from the conduction velocity and electrograms. The action potentials of canine left ventricular trabeculae were recorded by the conventional microelectrode technique. After a control tracing was obtained, the preparation was perfused with a hypoxic, acidic solution for 20 min and then reoxygenated with regular Tyrode's solution. After reoxygenation, action potential prolongation exceeding the control value by 21.0 +/- 7.3% was observed depending on the degree of metabolic inhibition. Verapamil depressed the rebound prolongation when it was added before the start of metabolic inhibition, but not when added after reoxygenation was started. La3+ and HMA depressed the rebound phenomenon. Intracellular resistivity was increased during metabolic inhibition, but showed no significant changes during the period of action potential prolongation. It was concluded that the rebound action potential prolongation was related to the accumulation of intracellular Ca2+ during metabolic inhibition. Other ions, such as Na+ and H+ may also contribute to the phenomenon by modulating outward currents.     

Effects of hydroxyl radicals on KATP channels in guinea-pig ventricular myocytes

We studied the effects of oxygen free radicals on the ATP-sensitive potassium channel (KATP channel) of guinea-pig ventricular myocytes. Single KATP channel currents were recorded from inside-out patches in the presence of symmetrical K+ concentrations (140 mM in both bath and pipette solutions). Reaction of xanthine oxidase (0.1 U/ml) on hypoxanthine (0.5 mM) produced superoxide anions (.O2-) and hydrogen peroxide (H2O2). Exposure of the patch membrane to.O2- and H2O2 increased the opening of KATP channels, but this activation was prevented by adding 1 microM glibenclamide to the bath solution. In the presence of ferric iron (Fe3+: 0.1 mM), the same procedure produced hydroxyl radicals (.OH) via the iron-catalysed Haber-Weiss reaction.OH also activated KATP channels; however, this activation could not be prevented by, even very high concentrations of glibenclamide (10 microM). These different effects of glibenclamide suggest that the mode of action of these oxygen free radicals on KATP channels is different and that.OH is more potent than.O2-/H2O2 in activating KATP channels in the heart.     

Electropharmacological actions of propofol on calcium current in guinea-pig ventricular myocytes

Propofol, a widely-used intravenous anesthetic, causes bradycardia, depression in contractility and hypotension. The cellular mechanisms responsible for these cardiac toxicity remain unclear. In this study, we examined the cellular electropharmacological actions of propofol on calcium current in guinea-pig heart. Single ventricular myocytes were freshly isolated from guinea-pig using modified enzymatic method. Whole-cell voltage-clamp technique was applied with one suction pipette. Transmembrane L-type calcium current (ICa(L)) was separated from other ionic currents by voltage-control, ionic channel blockers and ion substitution methods. Our results show that propofol decreased ICa(L) in a concentration-dependent manner (KD = 54.2 microM). Slope conductance of current-voltage relation was decreased by 56 microM propofol. Propofol did not affect the steady-state activation curve, but shifted the inactivation curve to hyperpolarizing direction. Recovery from inactivation was slowed down by propofol. Marked resting block and use-dependent block were noted. In conclusion, our results indicate that propofol inhibits cardiac L-type calcium current mainly by shifting inactivation curve and retarding the recovery from inactivation.     

The voltage dependence of contraction at different stimulation rates in guinea-pig ventricular myocytes

Ventricular myocytes, isolated from the guinea-pig, were stimulated to contract by 100 ms long voltage clamp pulses from -80 to 0 mV at 0.5 and 3 Hz. An increase in frequency from 0.5 to 3 Hz led to a positive inotropic effect. Contraction-voltage relationships (CVR) were determined at each frequency. The CVR at 0.5 Hz was bell shaped and peaked between 0 and +20 mV, displaying a voltage dependence similar to the L-type Ca2+ current (ICa). At 3 Hz, contractions continued to increase at positive voltages, giving a more sigmoidal CVR. At 0.5 Hz, TTX reduced the size of steady-state contractions to 91 +/- 2% of control values, but had no effect on the shape of the CVR. At 3 Hz, TTX significantly reduced (P < 0.05) the magnitude of contractions at positive voltages (> or = +20 mV) but had no significant effect on contractions at voltages negative to 0 mV. These data illustrate that intracellular sodium activity (aNa(i)) and, in particular, Na+ entry due to the sodium current (INa) are important in determining the voltage dependence of contraction at positive voltages. Thapsigargin (2.5 microM), a blocker of the sarcoplasmic reticulum (SR) Ca(2+)-ATPase, reduced the size of steady-state contractions at 0 mV to 65 +/- 7% at 0.5 Hz. Increasing frequency to 3 Hz abolished the positive inotropy seen under control conditions. With thapsigargin present, contractions at 0.5 Hz were reduced at all potentials and the CVR was bell shaped. At 3 Hz the CVR was sigmoidal in shape. Contractions were significantly inhibited by thapsigargin at all potentials, but most significantly at more positive potentials (> or = +20 mV). These data show that, at normal body temperature, the shape of the CVR of guinea-pig ventricular myocytes changes with stimulation rate. Due to the voltage dependence of ICa, contractions evoked at positive voltages at 3 Hz must be supported by other mechanisms. The sensitivity of such contractions to TTX and thapsigargin suggests the involvement of both a Na(+)-dependent process and the SR. One possibility is that when aiNa and the Ca2+ content of the SR are raised at higher stimulation rates, enhanced Ca2+ entry via reverse Na(+)-Ca2+ exchange leads to a direct activation of the myofilaments and, to a lesser extent, the release of Ca2+ from the SR.     

The effects of propofol and enflurane on single calcium channel currents of guinea-pig isolated ventricular myocytes

1. The effects of the anaesthetics, propofol (100 microM) and enflurane (3%, 1.46 mM), on single L type calcium channel currents were investigated in single myocytes isolated from guinea-pig ventricles. Channel activity was recorded from membrane patches by use of the 'cell-attached' patch-clamp technique (pipette solution containing 110 mM BaCl2, 5 microM Bay K 8644, 5 microM HEPES, pH 7.4; temperature 36 degrees C). 2. Channel conductance was calculated from the slope of the relationship between single channel current and membrane potential during step depolarizations to activate the channel over a range of approximately -20 to +20 mV. Neither propofol (6 cells) nor enflurane (7 cells) caused any significant reduction in channel conductance. 3. Both propofol (7 cells) and enflurane (9 cells) decreased the probability of the channel being open during depolarizations to +10 mV (measured from histograms of the fraction of time spent by the channel at different current levels, taking areas under the Gaussian curves fitted to the open and closed components of the distributions to represent the proportion of time spent in the two states). 4. A fraction of the current traces showed no detectable channel openings in response to step depolarizations to +10 mV. Both propofol and enflurane significantly increased the fraction of silent traces. 5. Transitions across a threshold halfway between the open and closed levels were used to define periods spent in the open and closed states. Both propofol (7 cells) and enflurane (9 cells) reduced the mean open times and increased the mean closed times of the calcium channel. 6. Histograms were plotted showing the distributions of times spent by the channels in the open and closed states. Two exponentials were fitted to the open and closed time distributions. Both propofol (7 cells) and enflurane (9 cells) shortened both time constants fitted to the open times and lengthened both time constants fitted to the closed times.7. It is concluded that both propofol and enflurane appear to alter the kinetics of opening and closing of calcium channels to favour shut channels without altering channel conductance. This effect would be expected to result in a reduction of the macroscopic calcium current and thus contribute to the negative inotropic action of these anaesthetics.     

The role of Gi-proteins and beta-adrenoceptors in the age-related decline of contraction in guinea-pig ventricular myocytes

A decline in contractility in myocytes from ageing guinea-pig hearts was demonstrated, which is more pronounced for maximum beta-adrenoceptor-stimulated activity than contraction in high Ca2+. In this study the role of the inhibitory G-proteins (Gi) in this process was investigated. Comparisons were made between young (Y, < 400 g, < 4 weeks), adult (A. > 600 g, > 8 weeks) and senescent guinea pigs (S, 58-65 weeks, 1136 +/- 30 g). Gi alpha activity, detected by pertussis toxin-catalysed ADP ribosylation, was significantly increased in senescent compared to young animals, but immunodetectable levels of Gi alpha were unchanged, beta-adrenoceptor number was decreased by 27% in senescent compared with young animals (P < 0.002). Pertussis toxin treatment increased the maximum response to isoproterenol in contacting myocytes so that there was no longer any significant decline with age. Maximum contraction amplitudes (sarcomere length change, micron) with isoproterenol before pertussis toxin were 0.144 +/- 0.011 (Y, n = 22 animals), 0.104 +/- 0.009 (A. 18) and 0.098 +/- 0.009 (S. 14), P < 0.01 by analysis of variance (ANOVA). Following toxin treatment amplitudes were 0.140 +/- 0.012 (Y. 12), 0.117 +/- 0.010 (A. 10) and 0.117 +/- 0.018 (S. 8), P = N.S. Pertussis toxin treatment also reversed the effects of ageing on contraction and relaxation velocity in isoproterenol. In contrast, the effect of age on contraction amplitude or velocity in maximum Ca2+ was more pronounced after toxin treatment. The EC50 value for isoproterenol increased with age: pertussis treatment decreased the EC50 in each group, but the effect was especially pronounced for senescent animals. There was no significant difference in the concentration-response curves for the negative inotropic effect of adenosine (in the presence of isoprotenerol) between the three age groups before toxin treatment. All effects of adenosine were abolished after pertussis exposure. We conclude that increased Gi alpha activity is likely to contribute to the decreased response to isoproterenol, but not to high Ca2+, in myocytes from ageing guinea-pigs.     

Differential class III and glibenclamide effects on action potential duration in guinea-pig papillary muscle during normoxia and hypoxia/ischaemia

1. Microelectrode recording techniques were used to study the effects of several potassium channel blockers which are considered to be Class III antiarrhythmic compounds. The effects of (+)-sotalol, UK-66,914, UK-68,798 and E-4031 on action potential duration (APD) were determined in guinea-pig isolated papillary muscles. The compounds were evaluated under normoxic or hypoxic/ischaemic conditions at 36.5 degrees C and compared to glibenclamide, which is considered to be a blocker of ATP-dependent potassium channels. Prolongation of action potential duration at 90% repolarization (APD90) was taken as an indirect measure of potassium channel blockade. 2. Under normoxic conditions, the Class III compounds prolonged APD in a concentration-dependent manner. According to EC15 values, the order of potency of the Class III compounds was found to be UK-68,798 > E-4031 > UK-66,914 > (+)-sotalol. Glibenclamide did not significantly prolong APD90 under normoxic conditions. 3. Perfusion with an experimental hypoxic or ischaemic bathing solution produced qualitatively similar effects on action potentials. Over a period of 20-25 min in either of the experimental solutions, there was a small decrease in action potential amplitude (APA) and a prominent shortening of APD. The ischaemic solution also depolarized the resting membrane potential by about 15 mV. 4. (+)-Sotalol and UK-66,914 did not reverse the shortening of APD induced by perfusion with hypoxic Krebs solution. High concentrations of glibenclamide (10 microM) and UK-68,798 (30 and 60 microM) partially reversed the hypoxia-shortened APD. Glibenclamide was more potent and exhibited a greater time-dependent action than UK-68,798. 5. During experimental ischaemia, the Class III compound E-4031 (10 microM, n = 7) produced small, but significant, increases in the APD90 (11 +/-3 ms after 20 min) which were not clearly time-dependent(14 +/- 4 ms after 30 min). UK-68,798 (10 microM) also produced a small, but insignificant, increase in APD90(12 =/-6 ms at 20 min, n = 4). Higher concentrations of UK-68,798 (30 and 60 microM, n = 4) did not produce a consistently significant increase in APD90 during ischaemia: significance was only attained after 20 min in the presence of 60 microM UK-68,798 (24 +/- 12 ms). However, in marked contrast to the effects of the Class III compounds, glibenclamide (10 microM) produced large time-dependent increases in ischaemic APD90 (34 +/- 11 ms at 7 min, n = 9) which were significant 15 min or more after drug addition(52 +/- 12 ms at 20 min, n = 7; 74 +/- 5 ms at 30 min, n = 6).6. The present microelectrode data suggest that blockers of ATP-dependent potassium channels, such as glibenclamide, might prove to be more effective than Class III compounds against ischaemia-induced shortening of cardiac action potentials.     

Ionic basis of the action potential prolongation in ventricular myocytes from Syrian hamsters with dilated cardiomyopathy

OBJECTIVE: The aim of our study was to determine the main electrophysiological alterations associated with cardiac dilation in MS200 strain Syrian hamsters, a model of genetically determined cardiomyopathy. METHODS: Ventricular action potentials (APs) were recorded with standard microelectrodes in isolated hearts from 120-day-old cardiomyopathic (strain MS200) and age-matched control (strain CHF148) Syrian hamsters. Ionic currents were recorded from single ventricular myocytes using the whole-cell patch-clamp technique. RESULTS: In MS200, AP was prolonged and the plateau phase was markedly increased as compared to CHF148. Differences in both AP duration and 4-aminopyridine-induced AP lengthening between epicardial and endocardial tissues were less marked in MS200 than in CHF148 ventricles. Cell size and membrane capacitance were not higher in MS200 than in CHF148 myocytes, indicating the absence of cell hypertrophy in myopathic ventricles. The L-type calcium current (ICa,L) density was significantly reduced in MS200 and the voltage-dependence of both steady-state activation and inactivation was altered. The voltage-dependent outward current was composed of both transient (Ito1) and sustained (Iss) components, respectively sensitive and insensitive to 4-aminopyridine. Ito1 density was strongly depressed in MS200 compared to CHF148, whereas Iss density was only slightly reduced. The conductance-voltage and steady-state inactivation relationships for Ito1 were shifted to more positive potentials in MS200. The Ito1 recovery process was markedly slower in MS200 than in CHF148. The steady-state current-voltage relationships, in the physiological voltage range, were superimposable in MS200 and CHF148. CONCLUSIONS: In ventricular myocytes from dilated heart of MS200 Syrian hamsters, Ito1 is more drastically depressed than ICa,L. Such an observation might partially explain dilation-induced AP lengthening.     

Pharmacological characterization of the receptors involved in the beta-adrenoceptor-mediated stimulation of the L-type Ca2+ current in frog ventricular myocytes

1. The whole-cell patch-clamp was used for studying the effects of various beta1- and beta2-adrenoceptor agonists and antagonists on the L-type Ca current (Ica) in frog ventricular myocytes. 2. Dose-response curves for the effects of isoprenaline (non selective beta-agonist), salbutamol (beta2-agonist), dobutamine (beta1-agonist) on ICa were obtained in the absence and presence of various concentrations of ICI 118551 (beta2-antagonist), metoprolol (beta1-antagonist) and xamoterol (partial beta1-agonist) to derive EC50 (i.e. the concentration of beta-agonist at which the response was 50% of the maximum) and Emax (the maximal response) values by use of a Michaelis equation. Schild regression analysis was performed to examine whether the antagonists were competitive and to determine the equilibrium dissociation constant (K(B)) for the antagonist-receptor complex. 3. Isoprenaline increased ICa with an EC50 of 20.0 nM and an Emax of 597%. ICI 118551 and metoprolol competitively antagonized the effect of isoprenaline with a K(B) of 3.80 nM and 207 nM, respectively. 4. Salbutamol increased ICa with an EC50 of 290 nM and an Emax of 512%. ICI 118551 and metoprolol competitively antagonized the effect of salbutamol with a K(B) of 1.77 nM and 456 nM, respectively. 5. Dobutamine increased ICa with an EC50 of 2.40 microM and an Emax of 265%. ICI 118551 and metoprolol competitively antagonized the effect of dobutamine with a K(B) of 2.84 nM and 609 nM, respectively. 6. Xamoterol had no stimulating effect on ICa. However, xamoterol competitively antagonized the stimulating effects of isoprenaline, salbutamol and dobutamine on ICa with a K(B) of 58-64 nM. 7. We conclude that a single population of receptors is involved in the beta-adrenoceptor-mediated regulation of ICa in frog ventricular myocytes. The pharmacological pattern of the response of ICa to the different beta-adrenoceptor agonists and antagonists tested suggests that these receptors are of the beta2-subtype.     

Prolongation of ventricular action potential due to sympathetic stimulation

The changes of monophasic action potential durations due to stellate stimulation for the period of 3 sec were studied in dogs with suction electrodes from the anterior surface of the right ventricle and the posterior surface of the left ventricle. Prolongation of monophasic action potential duration was observed from the period of 2 to 3 sec during stimulation to that of 10 to 20 sec after the termination of stimulation. Prolongation of monophasic action potential duration due to right stellate stimulation was predominant in the right ventricle and that due to left stellate stimulation was predominant in the left ventricle. The transient T wave change in the surface electrocardiogram occurring immediately after the beginning of stellate stimulation could be explained by this local difference in prolongation of ventricle repolarization. Since the onset of prolongation of monophasic action potential duration preceded increase in blood pressure following stellate stimulation, this prolongation of monophasic action potential duration did not result from the hemodynamic changes and could be a primary effect of the sympathetic nerve stimulation.     

Fosinoprilate prolongs the action potential: reduction of iK and enhancement of the L-type calcium current in guinea pig ventricular myocytes

Changes in the gross and cellular morphology of the nucleus preopticus medianus (POMn) were measured in response to changes in photoperiod in adult male Japanese quail (Coturnix japonica). POMn volume and the soma size of a dorsolateral population of neurons within POMn decreased when birds were moved from long day housing conditions (16L,8D) to short day housing conditions (8L,16D), and then increased again when birds were moved back to long day conditions, presumably as a function of the changes in circulating testosterone that accompanied changing daylengths. Male Japanese quail exhibit sexual behavior only when housed under long day housing conditions that approximate the photoperiod of the spring/summer breeding season, and do not exhibit sexual behavior when housed under short day conditions characteristic of fall/winter. Because POMn is known to be critically involved in the expression of male copulatory behavior, these morphological changes in the adult brain likely represent key functional events associated with the seasonal regulation of sexual behavior in male Japanese quail.     

Heterogeneity and underlying mechanism for inotropic action of endothelin-1 in rat ventricular myocytes

1. To clarify the mechanisms underlying the positive inotropic action of endothelin-1 (ET-1), we investigated the effect of ET-1 on twitch cell shortening and the Ca2+ transient in rat isolated ventricular myocytes loaded with a fluorescent Ca2+ indicator indo-1. 2. There was a cell-to-cell heterogeneity in response to ET-1. ET-1 (100 nM) increased twitch cell shortening in only 6 of 14 cells (44%) and the increase in twitch cell shortening was always accompanied by an increase in the amplitude of the Ca2+ transient. 3. The ET(A)- and ET(B)-receptors antagonist TAK-044 (100 nM) almost reversed both the ET-1-induced increases in twitch cell shortening and in the Ca2+ transient. In the ET-1 non-responding cells, the amplitude of the Ca2+ transient never increased. 4. Intracellular pH slightly increased (approximately 0.08 unit) after 30 min perfusion of ET-1 in rat ventricular myocytes. However, ET-1 did not change the myofilament responsiveness to Ca2+, which was assessed by (1) the relationship between the Ca2+ transient amplitude and twitch cell shortening, and by (2) the Ca2+ transient-cell shortening phase plane diagram during negative staircase. 5. We concluded that there was a cell-to-cell heterogeneity in the positive inotropic effect of ET-1, and that the ET-receptor-mediated positive inotropic effect was mainly due to an increase in the Ca2+ transient amplitude rather than to an increase in myofilament responsiveness to Ca2+.     

Effects of troglitazone and pioglitazone on the action potentials and membrane currents of rabbit ventricular myocytes

The effects of the antidiabetic thiazolidinediones troglitazone and pioglitazone on action potentials and membrane currents were studied in rabbit ventricular myocytes. Troglitazone (10 microM) reversibly reduced excitability of the myocytes and modified their action potential configuration. It significantly increased the stimulation threshold required to elicit action potentials and decreased action potential amplitude and the maximum upstroke velocity of the action potentials. The Inhibition of the maximum upstroke velocity by troglitazone was also significant at 1 microM. Voltage-clamp experiments revealed that troglitazone (10 microM) reversibly inhibited both the slow inward Ca2+ current and the steady-state K+ current. In contrast to troglitazone, pioglitazone (1-10 microM) had no significant effect on the excitability, action potential configuration, or membrane currents of myocytes. These results suggest that troglitazone, but not pioglitazone, modulates Na+, Ca2+ and K+ currents, leading to the changes in excitability and action potential configuration of ventricular myocytes.     

The effect of pretreatment with reserpine on the diastolic potential of guinea-pig atrial cells

It has previously been suggested that the reserpine-induced nonspecific increase in sensitivity of the guinea-pig heart to the chronotropic effect od drugs occurs as a result of an alteration in the electrophysiological properties of the cell membrane. The results obtained in the present study provide support for this suggestion. The diastolic potential of atrial cells of perfused hearts obtained from guinea pigs treated with rerpine (0.1 mg/kg/day) for 7 days was significantly less than control. This treatment schedule of reserpine results in a significant increase in the sensitivity of perfoused hearts to the chronotropic effects of drugs...     

Comparison of single-fiber and macro electrode recordings: relationship to motor unit action potential duration

The factors contributing to the duration of a motor unit action potential (MUAP) are believed to be well known, with both manual measurements and computer simulations agreeing with respect to MUAP durations approaching 10 ms. In this investigation, it is clearly demonstrated that use of a wide-open amplifier bandpass combined with signal-to-noise ratio enhancement results in MUAP durations approaching 30 ms recorded with either a macro or single-fiber electrode. Why the clinically recorded MUAP duration differs significantly from these physiologic durations is discussed. A hypothesis is presented whereby the major contributing factor toward MUAP duration is the total time of action potential transmembrane current flow along the muscle fiber from end-plate zone to musculotendinous junction.