Membrane current and contraction in frog atrial fibres

Einwächter, H. M.; Haas, Hans; Kern, Richard A.

doi:10.1113/jphysiol.1972.sp010024

Cited by 78 publications

(32 citation statements)

References 46 publications

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“…In this tissue, the slow inward current, first described by Rougier, Vassort, Garnier, Gargouil & Coraboeuf (1969) has been shown to be directly involved in producing phasic tension (Vassort & Rougier, 1972;Leoty & Raymond, 1972;Horackova & Vassort, 1976; (Einwichter, Haas & Kern, 1972), in contrast to the more indirect role suggested for the mammalian myocardium (e.g. Bassingthwaighte & Reuter, 1972;Fozzard, 1977).…”

Section: Introductionmentioning

confidence: 99%

The calcium and frequency dependence of the slow inward current ‘staircase’ in frog atrium.

Noble¹,

Shimoni²

1981

The Journal of Physiology

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SUMMARY1. Changes in the magnitude of the slow inward current in the frog atrium were monitored at different stimulation frequencies, using a double sucrose-gap technique.2. After short rest periods (1-5-3-0 min), repetitive clamp depolarizations applied at frequencies ranging from 0 33 to 1 Hz (20-60/min) resulted in a progressive increase in the slow inward current towards a new level. Action-potential amplitudes and plateau levels usually showed similar increases under these conditions. 3. Changes in the magnitude of the slow inward current were also found when the frequency was changed during constant stimulation. 4. Replacement of calcium ions by strontium or barium ions led to an augmentation or reduction, respectively, of the 'staircase' effect, relative to the effect in calcium-containing solutions. Barium ions were found to greatly increase the slow inward channel 'recovery' time.5. The results suggest that calcium influx into amphibian atrial fibres contributes to the regulation of the slow inward conductance mechanism. Progressively increasing currents may underlie positive tension staircases.

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Section: Introductionmentioning

confidence: 99%

The calcium and frequency dependence of the slow inward current ‘staircase’ in frog atrium.

Noble¹,

Shimoni²

1981

The Journal of Physiology

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“…Synchronous measurements of membrane current and tension on various cardiac tissues have revealed some of the features of the excitationcontraction coupling process (Beeler & Reuter, 1970a, b;Goto, Kimoto & Kato, 1971;Morad & Orkand, 1971;Ochi & Trautwein, 1971; Einwachter, Haas & Kern, 1972;Vassort & Rougier, 1972). The general picture emerging from these investigations is that there exist two types of contractile response to depolarization: a phasic tension associated with the slow (secondary) inward current; and a tonic tension which relaxes only upon repolarization.…”

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confidence: 99%

Calcium‐sodium antagonism on the frog's heart: a voltage‐clamp study.

Benninger¹,

Einwächter²,

Haas³

et al. 1976

The Journal of Physiology

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6. In Na-free choline-Ringer, a strong contracture developed followed by a spontaneous relaxation. Starting from the relaxed state, application of depolarizing clamps gave rise to phasic contractions with a very slow relaxation while tonic contractions were apparently lacking.7. The results are interpreted in terms of an energy-dependent carrier mechanism exchanging one Ca for two Na ions across the cell membrane. The model implies a strong asymmetry in the rate constants governing the chemical reactions on both sides of the membrane. The system is thought to operate close to equilibrium at any potential, thereby determining the * Send reprint requests to Professor H. G. Haas.6. BENNINGER AND OTHERS steady level of myoplasmic Ca. The equilibrium itself is considered to shift upon depolarization. Assuming that [Na]i is constant, the steady level of [Ca], is expected to be proportional to the [Ca]o/[Na]2 ratio, the scale factor being a function of membrane potential.8. The carrier model suggests the occurrence of a depolarization-induced inward transfer of Ca which might be involved in the generation of tonic contractions.9. The apparent lack of tonic contractions in the absence of external Na ions may be explained by a suppression of carrier-mediated Ca influx normally occurring upon depolarization.10. The antagonistic effects of [Ca]o and [Na]o on phasic contraction are understood as being due to alterations of the Ca pumping system rather than changes in slow inward current.

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“…It is well known that in the frog atrium, a tonic tension component, different from the phasic one related to Ica, is developed when a long and strong depolarizations is applied (EINWACHTER et al, 1972;VASSORT and ROUGIER, 1972). GOTO et al(1974) reported that the Na-Ca exchange mechanism across the surface membrane may be responsible for the development of this tonic contraction.…”

Section: Contraction Related To Na-ca Exchange Mechanismmentioning

confidence: 99%

“…In the present experiment, therefore, we attempted to re-examine the effects of pH on excitation-contration (E-C) coupling of the bullfrog atrium, in which the coupling processes have been fairly well clarified (EINWACHTER et al, 1972;GOTO et al, 1972GOTO et al, , 1974. …”

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confidence: 99%

EFFECTS OF pH ON THE PROCESSES OF EXCITATION-CONTRACTION COUPLING OF BULLFROG ATRIUM

Wada

Goto²

1975

Jpn.J.Physiol

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Effects of external pH on the electrical and mechanical properties were investigated on the bullfrog atrium under voltage-clamped and unclamped conditions with double-gap method in order to elucidate the principal site of pH action. On rising the pH (5.3-8.3) a marked positive inotropic effect and an increase in rate of rise of action potential were produced with a shortening of the plateau duration. The potassium contracture was also augmented.Under voltage-clamped conditions, fast (If) and slow inward currents (Is) as well as delayed outward current were enhanced indicating a definite action of pH on the surface membrane. Is-dependent and independent contractile tensions in response to a small (70mV, 0.2sec) and large depolarizing pulses (200mV, 1.0 sec) were both strengthened. Excess caffeine (20mM) Ringer solution augmented the effects of pH, while Ca-free La (1mM) Ringer solution abolished, suggesting a minor role of the sarcoplasmic reticulum in the pH effects. A contracture in Na-free high Ca (80mM) solution was enhanced by lowering external pH. This effect was eliminated after DNP (2mM) which affects the mitochondria. These results indicate that the changes in external pH act mainly on the sarcolemma and a rise of pH produces the positive inotropic effects by enhancing the Ca-influx due to Is as well as Na-Ca exchange mechanism, although the mitochondria tended to show a minor counter action.It has long been demonstrated that, in cardiac muscle, alterations in extracellular pH exhibit marked inotropic effects (VAUGHAN WILLIAMS, 1955;MCELROY et al., 1958; LoRKoVIC, 1966;CLANCY et al., 1967;VAUGHAN WILLIAMS and WHYTE, 1967), and several theories have been proposed to show that the inotropic effects of pH are caused by 1) the changes in extracellular pH (VAUGHAN WIL-

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Membrane current and contraction in frog atrial fibres

Cited by 78 publications

References 46 publications

The calcium and frequency dependence of the slow inward current ‘staircase’ in frog atrium.

The calcium and frequency dependence of the slow inward current ‘staircase’ in frog atrium.

Calcium‐sodium antagonism on the frog's heart: a voltage‐clamp study.

EFFECTS OF pH ON THE PROCESSES OF EXCITATION-CONTRACTION COUPLING OF BULLFROG ATRIUM

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