Changes of Intracellular Sodium and Potassium Ion Concentrations in Frog Spinal Motoneurons Induced by Repetitive Synaptic Stimulation

Overview

Journal Neuroscience

Specialty Neurology

Date 1982 Jan 1

PMID 6984493

Citations 20

Authors

P Grafe

J Rimpel

M M Reddy

G Ten Bruggencate

Affiliations

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Abstract

A post-tetanic membrane hyperpolarization following repetitive neuronal activity is a commonly observed phenomenon in the isolated frog spinal cord as well as in neurons of other nervous tissues. We have now used double-barrelled Na+- and K+-ion-sensitive microelectrodes to measure the intracellular Na+- and K+-concentrations and also the extracellular K+-concentration of lumbar spinal motoneurons during and after repetitive stimulation of a dorsal root. The results show that the post-tetanic membrane hyperpolarization occurred at a time when the intracellular [Na+] reached its maximal value, intracellular [K+] had its lowest level and extracellular [K+] was still elevated. The hyperpolarization was blocked by ouabain and reduced by Li+. These data support the previous suggestion that an electrogenic Na+/K+ pump mode may be the mechanism underlying the post-tetanic membrane hyperpolarization.

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