Ionizing Radiation Alters the Properties of Sodium Channels in Rat Brain Synaptosomes
Abstract
The effect of ionizing radiation on neuronal membrane function was assessed by measurement of neurotoxin-stimulated 22Na(+) uptake by rat brain synaptosomes. High-energy electrons and gamma photons were equally effective in reducing the maximal uptake of 22Na(+) with no significant change in the affinity of veratridine for its binding site in the channel. Ionizing radiation reduced the veratridine-stimulated uptake at the earliest times measured (3 and 5 s), when the rate of uptake was greatest. Batrachotoxin-stimulated 22Na(+) uptake was less sensitive to inhibition by radiation. The binding of 3Hsaxitoxin to its receptor in the sodium channel was unaffected by exposure to ionizing radiation. The effect of ionizing radiation on the lipid order of rat brain synaptic plasma membranes was measured by the fluorescence polarization of the molecular probes 1,6-diphenyl-1,3,5-hexatriene and 1-4-(TRIMETHYLAMMONIUM) PHENYL-6-phenyl-1,3,5-hexatriene. A dose of radiation that reduced the veratridine-stimulated uptake of 22Na(+) had no effect on the fluorescence polarization of either probe. These results demonstrate an inhibitory effect of ionizing radiation on the voltage-sensitive sodium channels in rat brain synaptosomes. This effect of radiation is not dependent on changes in order of membrane lipids.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1986
- Accession Number
- ADA172615
Entities
People
- Michael J. Mullin
- R. A. Harris
- Walter A. Hunt
Organizations
- Armed Forces Radiobiology Research Institute