Studies on sodium transport in rat brain nerve-ending particles
- PMID: 18561483
- DOI: 10.1111/j.1471-4159.1968.tb10316.x
Studies on sodium transport in rat brain nerve-ending particles
Abstract
(1) Nerve-ending particles isolated from crude mitochondrial preparations from rat brain by discontinuous Ficoll density gradient ultracentrifugation were shown to possess a Mg2+ and energy-dependent transport system for Na+. (2) Ouabain or iodoacetate plus cyanide exerted an inhibitory effect on the outflux but not the influx of Na+. (3) When K+ was added to a medium containing particles loaded with Na+ (22Na), an immediate release of Na+ from these particles was observed; this suggests the existence of a Na+-K+ exchange transport system. (4) The K+ effect was inhibited by 10(-4) M-ouabain only at low (about 3.3 mM), but not at high (20 mM), K+ concentrations. (5) The uptake and release of Na+ by the nerve-ending particles were found to be temperature-dependent. (6) Only nerve-ending particles with intact synaptosomal membranes were found to transport Na+ actively.
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