Dilation and action potential lengthening in cardiomyopathic Syrian hamster heart.

The aim of our study was to determine the main ionic mechanisms responsible for the electrophysiological alterations of ventricular action potentials associated with cardiac dilation in a strain of cardiomyopathic Syrian hamsters which does not develop hypertrophy during the first five months of life. Right and left ventricular action potentials (APs) were recorded in Langendorff perfused isolated hearts from dilated cardiomyopathic (MS 200) and normal hamsters at 60, 120, and 180 days of age. AP characteristics differed in the two ventricles and in different regions (base, apex) of the left ventricle in both strains.

B-type Ca2+ channels activated by chlorpromazine and free radicals in membrane of human atrial myocytes.

The present study demonstrates that background or B-type calcium channel activity can be recorded in excised inside-out and cell-attached membrane patches from human atrial myocytes. In control conditions, with Ba2+ or Ca2+ as charge carrier, single-channel activity spontaneously appeared in irregular bursts separated by quiescent periods of 2-17 min, in nearly 25% of tested patches. Channel activity was recorded at steady-state applied membrane potentials including the entire range of physiological values, and displayed no "rundown" in excised patches.

[Transient outward potassium current and repolarization of cardiac cells].

The transient 4-aminopyridine-sensitive outward potassium current, Ito, is one of the ionic membrane currents involved in the repolarization of cardiac action potentials. It is present in several species (rat, dog, human) but not in guinea pig ventricle. It induces both a marked lowering of the ventricular action potential plateau level and an early repolarization wave in the ventricular ECG complex of hypothermic rats.

The antiarrhythmic agent bertosamil induces inactivation of the sustained outward K+ current in human atrial myocytes.

1. In whole-cell patch-clamped human atrial myocytes, the antiarrhythmic agent bertosamil (10 microM) inhibited the sustained component, Isus (38.6 +/- 3.

[Electrogenic sodium-calcium exchange and electrical activity in cardiac cells].

Several studies have shown that the Na-Ca exchange is electrogenic in cardiac tissues and that the current carried by the exchange, iNa-Ca, participates in the development of the cardiac action potential plateau. The aim of the present study was to assess the contribution of iNa-Ca to the development of the plateau in different preparations, i.e.

Primary culture of human atrial myocytes is associated with the appearance of structural and functional characteristics of immature myocardium.

We examined changes in the structural and physiological characteristics of human atrial myocytes during primary culture in the presence of serum. Action potentials and ionic currents were recorded in freshly dissociated (FM) and cultured (CM) whole-cell patch-clamped myocytes, alpha-smooth muscle actin, sarcomeric alpha-actinin and beta-myosin heavy chains (beta-MHC) were stained with monoclonal antibodies. From day 5 to day 21, myocytes lost their rod shape, spread and exhibited reorganized sarcomeres.

Action potential and plateau ionic currents in moderately and severely DOCA-salt hypertrophied rat hearts.

Ventricular hypertrophy is associated with an increase in action potential (AP) plateau amplitude and duration. In a model of cardiac hypertrophy by DOCA-pellet implantation in uninephrectomized saline-drinking rats, we have previously demonstrated that the influence of hypertrophy was to reduce Ito1 density, the process being fully reversible after elimination of DOCA pellets. In that study the decrease of Ito1 density appeared to vary from moderate reduction to complete suppression which could explain, at least in part, the AP lengthening.

Differential regulation of voltage-activated potassium currents in cultured human atrial myocytes.

To examine whether the two components of the voltage-activated outward K+ current, an initially rapidly inactivating component (Ito,1) and a slowly inactivating sustained component (Isus), in human atrial myocytes are distinct currents differentially regulated, we studied their behavior during serum-induced growth of cultured myocytes. Currents were recorded in whole cell patch clamped myocytes. After 1 wk of culture (day 8), membrane capacitance was twice the value in freshly dissociated myocytes (178.

Decreased heart rate variability in transgenic mice overexpressing atrial beta 1-adrenoceptors.

Heart rate variability (HRV) depends on various reflexes, including the baroreflex or respiratory reflex. Experimental studies have suggested that the sinoatrial node density in G protein-linked receptors may be involved. Transgenic mice, with a specific eightfold atrial overexpression of human beta 1-adrenoceptor (beta 1-AR), have been generated to evaluate the role of the atrial beta 1-AR density on HRV.

Contribution of Na+/Ca2+ exchange to action potential of human atrial myocytes.

The Ca2+ dye indo 1 was used to record internal Ca2+ (Cai) transients in order to investigate the role of the Na+/Ca2+ exchange current (INa/Ca) in whole cell patch-clamped human atrial myocytes After the activation of the L-type Ca2+ current by test pulses (20 ms) at +20 mV, a tail current (I(tail)) was activated at a holding potential of -80 mV with a density of -1.29 +/- 0.06 pA/pF.

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.

Depressed transient outward current density in ventricular myocytes from cardiomyopathic Syrian hamsters of different ages.

We determined whether the dilated cardiomyopathy which develops between 30 and 140 days of age in the Syrian hamster strain MS200, before the onset of cardiac hypertrophy and failure, is associated with alterations in both the action potential (AP) and the Ca(2+)-independent transient outward current, Ito1. AP was recorded in perfused hearts using microelectrodes and Ito1 was recorded in single ventricular myocytes using the whole-cell patch-clamp. The MS200 strain was compared to the control CHF148 strain at different periods of age (60, 90, 120 and 180 days).

Effects of chloride ion substitutes and chloride channel blockers on the transient outward current in rat ventricular myocytes.

The Cai(2+)-insensitive transient outward current, ilo was studied at 20-24 degrees C in rat ventricular myocytes with the whole cell recording patch-clamp technique. The current was recorded before and after replacement of chloride by methanesulfonate or aspartate or in the absence and the presence of chloride channel blockers, SITS or 9-anthracene carboxylic acid. In control conditions (in the presence of external divalent cations, Ca2+ and Cd2+, Cd2+ being used to suppress Ca2+ current), ilo inactivation was composed of a fast and a slow component.

Divalent cation channels activated by phenothiazines in membrane of rat ventricular myocytes.

Phenothiazines (PTZ) such as chlorpromazine (CPZ) or trifluoperazine (TPZ) induced a sustained divalent cation-permeable channel activity when applied on either side of inside-out patches or on external side of cell-attached patches of adult rat ventricular myocytes. The percentage of active patches was approximately 20%. In the case of CPZ, the Kd of the dose-response curve was 160 microM.

Alleviation of contractile dysfunction in ischemic hearts by slowly inactivating Na+ current blockers.

We hypothesized that the slowly inactivating component of Na+ current, which is an integral part of the Na+ window current, is a major pathway for Na+ loading during myocardial ischemia. The putative protective effects of tetrodotoxin (TTX) and R-56865, at concentrations that selectively blocked the Na+ window current, as assessed by action potential plateau shortening without affecting maximum upstroke velocity (Vmax), were examined in isolated Langendorff-perfused guinea pig hearts subjected to 50 min of normothermic global ischemia and 60 min of reperfusion. In papillary muscles, TTX reduced action potential duration at > or = 10 nM but reduced Vmax only at > or = 1 microM.

Time-dependent fading of the activation of KATP channels, induced by aprikalim and nucleotides, in excised membrane patches from cardiac myocytes.

1. The effects of the potassium channel opener (KCO) aprikalim (RP 52891) on the nucleotide-induced modulation of ATP-sensitive K+ (KATP) channels in freshly dissociated ventricular myocytes of guinea-pig heart, were studied by use of the inside-out patch-clamp technique. The internal surface of the excised membrane patch was initially bathed with a standard solution (Mg(2+)-free with EDTA), then sequentially superfused with solutions containing nucleoside diphosphates (NDPs: 200 microM ADP and 50 microM GDP) and NDPs plus 1 mM MgCl2 (with EGTA; referred to as Mg-NDP solution).

Reduction of calcium-independent transient outward potassium current density in DOCA salt hypertrophied rat ventricular myocytes.

Saline-drinking, left-nephrectomized rats made hypertensive by deoxycorticosterone acetate (DOCA) pellet implantation at the time of surgery develop a cardiac hypertrophy, which becomes maximal after 6-7 weeks. The hypertrophy results in a marked increase in the amplitude and duration of both the early and the late component of the ventricular action potential plateau recorded in the isolated perfused rat heart. The 4-aminopyridine(4-AP)-sensitive calcium-independent transient outward potassium current was markedly depressed in hypertrophied ventricular myocytes resulting in a highly significant decrease in current density (from 19.

Depressed transient outward and calcium currents in dilated human atria.

Objective: The aim was to compare action potentials and ionic currents (steady state current, calcium current, calcium independent transient outward current) in two groups of trabeculae and myocytes, isolated from either dilated or non-dilated human atria.

Methods: Specimens of right atrial appendage were obtained from two groups of adult patients at the time of open heart surgery, a group with non-dilated atria and a group in which right atria were clearly dilated. Action potentials were recorded with standard microelectrodes from isolated superfused trabeculae.

Pro-arrhythmic effect of nicorandil in isolated rabbit atria and its suppression by tolbutamide and quinidine.

Nicorandil, a potent vasodilator substance which exerts its effects through complex mechanisms including KATP channel activation, has so far been reported to exert antiarrhythmic but not pro-arrhythmic cardiac activity. We now examined the effects of 10(-4) M nicorandil on spontaneously active or electrically driven isolated rabbit atria. Nicorandil (a) significantly reduced the action potential duration at both 50% (by approximately 45%) and 80% (by approximately 30%) repolarization and the effective refractory period (by approximately 25%) and (b) reproducibly induced short periods of tachycardia either in normal Tyrode solution after a single extra-stimulus or in low-potassium media in the absence of extra-stimulation.

Large-conductance chloride channels of new-born rat cardiac myocytes are activated by hypotonic media.

Large-conductance chloride (LC-type Cl-) channel activity was studied in rat ventricular myocyte membrane during development. In contrast with results previously obtained in cultured ventricular myocytes of the new-born rat, we failed to record single-channel activity in freshly isolated myocytes whatever the age of the animal (from 2 days old to adult) and the recording patch configuration used. However, spontaneous single-channel activity of LC-type Cl- channels was recorded in bleb membranes of myocytes of rats younger than 12 days, with a higher frequency in excised inside-out membrane patches than in cell-attached membrane patches.

Effects of atrionatriuretic factor on Ca2+ current and Cai-independent transient outward K+ current in human atrial cells.

The effect of 10 nM atrial natriuretic peptide (ANF) on macroscopic L-type calcium current, ICa, and calcium-independent outward potassium current, Ilo, were studied in myocytes isolated from human atrial trabeculae using the whole-cell-recording patch-clamp technique. When cells were dialysed with pipette media containing 0.2 mM GTP, ANF reduced ICa by 37.

[Abnormalities of ion movements in cardiac hypertrophy and failure].

Main sources of transmembrane ionic current that lead to cellular electrical activity are described. In hypertrophied myocardium, action potentials are usually markedly prolonged. Current modifications that could be responsible for this are not well established.

Calcium current depression in isolated human atrial myocytes after cessation of chronic treatment with calcium antagonists.

The present study investigates the possibility that the slow calcium current of human atrial cardiac cells is modified by chronic treatment (1-24 months) with calcium antagonists (nifedipine, nicardipine, or diltiazem) in a manner different from a simple drug-induced blocking effect. Data from treated patients were recorded approximately 30 hours after cessation of the treatment and were compared with those of nontreated patients. In the treated group, the action potential plateau of atrial fibers was always markedly and irreversibly depressed, and action potential duration measured at 50% repolarization was markedly shortened (81 +/- 12 msec, n = 13) compared with normal values (155 +/- 9 msec, n = 28).

The calcium antagonist D600 inhibits calcium-independent transient outward current in isolated rat ventricular myocytes.

1. The whole-cell voltage-clamp technique was applied to isolated rat ventricular myocytes to investigate the effects of D600 (10(-9)-10(-3) M) on the intracellular calcium-independent component of transient outward current. I(lo), recorded in a sodium-free medium containing 0.