Inactivation of calcium current in bull-frog atrial myocytes.

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Inactivation of calcium current in bull-frog atrial myocytes.

D L Campbell, W R Giles, J R Hume and E F Shibata

Department of Medical Physiology, University of Calgary School of Medicine, Alberta, Canada.

1. A single-microelectrode technique has been used to studythe voltage dependence and the kinetics of inactivation andreactivation of a tetrodotoxin-resistant inward current (ICa)in single cells from bull-frog atrium. 2. In most cases thekinetics of both inactivation and reactivation can be well describedas a single-exponential process. 3. Several different observationsindicate that inactivation of ICa in these cells is controlledby both voltage-dependent and current-dependent processes, ashas been demonstrated previously in heart (Kass & Sanguinetti,1984; Lee, Marban & Tsien, 1985) and in other tissues (Hagiwara& Byerly, 1981; Tsien, 1983; Eckert & Chad, 1984). 4.Evidence in favour of a voltage-dependent inactivation mechanismincluded: (a) In paired-pulse measurements of steady-state inactivation('f infinity') a 'conventional' steady-state f infinity vs.membrane potential (Vm) relationship was obtained in the rangeof membrane potentials from -60 to 0 mV. (b) Increasing [Ca2+]ofrom 2.5 to 7.5 mM, which resulted in a 2-3-fold increase inICa, did not produce any significant increase in the amountof inactivation. (c) Using a 'gapped' double-pulse protocolnon-monotonic U-shaped inactivation relationships were obtained,i.e. positive to approximately +20 mV some removal of inactivationoccurred. However, f never approached a value near 1.00 at verydepolarized potentials; it reached a maximum between 0.5 and0.6. (d) In constant [Ca2+]o and at fixed Vm, the kinetics ofICa inactivation were independent of peak size of ICa. Thiswas demonstrated by: (i) varying the holding potential (-90to -30 mV), (ii) using paired-pulse 'recovery' protocols, and(iii) partial block by La3+ (1-10 microM) and Cd2+ (0.1 mM).(e) Influx of Ca2+ ions was not an obligatory prerequisite fordevelopment of inactivation. In all ionic conditions (Ca2+,Sr2+, Ba2+, Na+-free and Ca2+-free Ringer solutions) currentsdisplayed inactivation phenomena, although the extent and kineticsof inactivation were dependent upon ionic conditions. Outwardcurrents recorded above the reversal potential for ICa exhibitedtime- and voltage-dependent inactivation, and could be inactivatedby brief depolarizing pre-pulses that produced no net inwardcurrent flow. Evidence against a possible role of the electrogenicNa+-Ca2+ exchanger in producing inactivation of these outwardcurrents was obtained.(ABSTRACT TRUNCATED AT 400 WORDS)

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