Relationship between the transient inward current and slow inward currents in the sino-atrial node of the rabbit.

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In low K+ (0.3 mM) solutions rabbit sinus node preparations show the oscillatory transient inward current, iTI, already recorded in these conditions in Purkinje and ventricular preparations. The time course of iTI closely resembles that of the slow component of the slow inward current (isi) previously reported by us (Brown, Kimura, Noble, Noble & Taupignon, 1984a) in rabbit sinus node, when recorded near its threshold (-40 mV). When the duration of voltage-clamp steps is varied there is a strong correlation between the 'envelope' of isi amplitudes on depolarization and the time course of iTI on hyperpolarization. Although oscillations of iTI become smaller near 0 mV, there is no potential at which the current records are completely flat, suggesting that there is no simple reversal potential. 75% substitution of Na+ by Li+ greatly reduces both iTI and slow isi in about the same proportion. Reducing the activity of the Na-K exchange pump by the amount expected in 0.3 mM-K+ solutions is sufficient to induce oscillatory iTI in a computer model of the sino-atrial node (Noble & Noble, 1984). The model reproduces the current as variations in the Na-Ca exchange current dependent on intracellular Ca2+ concentration ([ Ca]i). The model was also used to test the alternative hypothesis that the slow inward currents might be generated by [Ca]i-activated non-specific cation channels. It is shown that this would distort the shape of the repolarization phase of the action potential. It is concluded that the experiments and computations are consistent with the hypothesis that a large fraction of iTI and the slow component of isi could both be generated by Na-Ca exchange and that only a relatively small fraction might be generated by non-specific channels.

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