Calcium channel types involved in intrinsic amino acid neurotransmitters release evoked by depolarizing agents in cortical neurons.

Although numerous biochemical and electrophysiological studies have already established many of the properties of the putative Ca2+ receptor for exocytosis at the synapse, the molecular mechanism that involves the influx of Ca2+ and the release of neurotransmitters has remained elusive. Several relationships have been established between neurotransmitter release and Ca2+ channel involved, but no work attempting to connect a particular neurotransmitter release, the effector which produces the release and the opening of a Ca2+ channel type has been performed. This work shows, data dealing with this subject. Based on our results, we have reached the following conclusions: (1) Ca2+ channel types P/Q, N and L mediate Ca2+ entry evoked by high KCl and veratridine, and P/Q and N but not L-type Ca2+ channels are involved when the effector is 4-aminopyridine (4-AP); (2) When we compare the relationship between the amino acid release and the Ca2+ channels which are opened by different depolarizing agents, we find that the release of a particular amino acid neurotransmitter not only depends on the opening of the voltage-dependent Ca2+ channel but also on the effector which produces the opening; and (3) the amount of amino acid release evoked by the different depolarizing agents is not correlated with the elevation of intracellular Ca2+ produced by them. From all of these results, we may conclude that calcium concentration in the active zone is not the only important factor in mediating amino acid release.