Effects of gadolinium on ion channels in the myelinated axon of Xenopus laevis: four sites of action.

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Effects of gadolinium on ion channels in the myelinated axon of Xenopus laevis: four sites of action.

F Elinder and P Arhem

Nobel Institute for Neurophysiology, Karolinska Institutet, Stockholm, Sweden.

ABSTRACT

The action of gadolinium (Gd3+) on ion currents in myelinatedaxons of Xenopus laevis was investigated with the voltage clamptechnique. The analysis revealed the following effects. (i)The potential-dependent parameters of both Na and K channelswere shifted. The shift was equally large for activation, inactivation,and activation time constant curves (+9 mV for 100 microM Gd3+).The effects could be explained by screening of fixed surfacecharges at a density of -1.2 e nm-2. (ii) The rate of gatingfor both Na and K channels was reduced more than predicted fromthe shift. This effect could be quantified as a scaling (bya factor 3 and 5 respectively at 100 microM Gd3+) of the activationtime constant curves. (iii) An activation- and inactivation-independentblock of both Na and K channels, obeying 1:1 stoichiometry witha Kd value of about 70 microM potential-independent block ofleakage current, obeying 1:2 stoichiometry with a Kd value of600 microM. (iv) The analysis suggests separate binding sitesfor the effects, comprising high affinity modulatory and blockingsites on the channel proteins and low affinity receptors onphospholipids, associated with the effect on the leakage current.

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