Ultrastructural visualization of Na+-channel associated [125I]alpha-scorpion toxin binding sites on fetal mouse nerve cells in culture.

Purified neurotoxin II from the scorpion Androctonus australis Hector (alpha-ScTx) has previously been shown to bind specifically to the voltage-sensitive Na+ channels of excitable cells. Recent studies, using high specific activity 125I-labeled alpha-ScTx, demonstrated specific binding to neuronal cells derived from fetal mouse brains. In the present study, 125I-labeled alpha-ScTx was used to localize the voltage-sensitive Na+ channels in cultured fetal mouse brain cells. By quantitative electron microscope autoradiography we demonstrate that specific alpha-ScTx binding sites are selectively located at the plasma membrane. Estimates of their density revealed that neurites at 13 days in vitro carry at least 6 X more specific alpha-ScTx sites than cell body membrane.