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  • Title: Actions of barium and rubidium on membrane currents in canine Purkinje fibres.
    Author: Cohen IS, Falk RT, Mulrine NK.
    Journal: J Physiol; 1983 May; 338():589-612. PubMed ID: 6875972.
    Abstract:
    The actions of Ba2+ and Rb+, two blockers of background K+ conductance, were investigated. Recent studies performed on ungulate Purkinje fibres have suggested that the pace-maker current is an inward current activated by hyperpolarization. This hypothesis is based on the assumption that Ba2+ reduces the inwardly rectifying background K+ conductance without affecting the pace-maker current. Addition of 5 mM-BaCl2 to the bathing Tyrode solution decreases background K+ permeability and eliminates the reversal of the pace-maker current. The reversal reappears on return to Ba2+-free Tyrode solution. 5 mM-BaCl2 also reduces the time-dependent current at pace-maker potentials positive to about -95 mV in 4 mM-K+ Tyrode solution. The pace-maker current in Ba2+ Tyrode solution usually does not have an exponential time course, and often decays non-monotonically. It can take more than two minutes to reach a steady state. The fast initial component of membrane current, which is observed on hyperpolarizing in the pace-maker potential range in Purkinje fibres and which has been called the 'depletion current', is still present in Ba2+ Tyrode solution, but is reduced or eliminated if 10 mM-CsCl is added to the Ba2+ Tyrode solution. The addition of Cs+ is accompanied by an outward shift in membrane current in Ba2+ Tyrode solution. Ba2+ reduces the background K+ permeability in a dose-dependent manner. Addition of between 0.5 and 1 mM-BaCl2 achieves a maximum effect. Raising the amount of BaCl2 above this level reduces the time-dependent current even when no further effect on background permeability is observed. Rb+ substitution for K+ reduces the magnitude of the pace-maker current at potentials positive to -100 mV, eliminates the reversal of the pace-maker current, shifts the activation range to more negative potentials, and decreases the voltage dependence of pace-maker current kinetics. Rb+ addition to Tyrode solution has little effect on pace-maker current magnitude or time course positive to -90 mV, but does shift the reversal to more negative potentials. The available evidence suggests that the pace-maker current in Ba2+ Tyrode solution is an inward current activated by hyperpolarization. However, Ba2+ blocks an unknown fraction of the pace-maker current in a dose-dependent, and possibly voltage-dependent manner. Also, the presence of a slow component of pace-maker decay suggests that the standard Hodgkin-Huxley formalism for the analysis of pace-maker currents is inappropriate.
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