Alpha- and beta-scorpion toxins evoke glutamate release from rat cortical synaptosomes with different effects on [Na+]i and [Ca2+]i.

Scorpion toxins have long been used as tools in the investigation of neurotransmitter release mechanisms. We have used rat cortical synaptosomes to study the effects of a beta-type scorpion toxin (TiTX-gamma) on the release of glutamate and on the concentrations of free sodium and calcium ions inside the synaptosomes. The effects are compared with those of an alpha-type scorpion toxin (TsTX), on which there have been more studies. TsTX increased overall internal sodium and calcium ion concentrations and glutamate release in an incremental, dose dependent manner. TiTX-gamma similarly evoked glutamate release in an incremental, dose dependent manner. However, TiTX-gamma caused little increase in the overall internal sodium and calcium ion concentrations at low doses that evoked a significant release of glutamate and a maximal increase in these ions at somewhat higher doses. The results suggest that TiTX-gamma preferentially binds sodium channels close to the active zones for glutamate release and indicates that modifications of the activation or inactivation of the Na+-channel can lead to very different changes in the cytosolic concentrations of free Na+and Ca2+, with consequences for neurotransmission. This provides an interesting perspective concerning modulation of neurotransmitter release via pharmacological manipulation of Na+-channel properties, that may lead to a better comprehension of its physiological and pathological roles.