Abstract
Tricyclic mono- and dicationic compounds (derivatives of 9-aminoacridine) antagonize AMPA and NMDA glutamate receptors. The aim of the present study was to compare mechanisms of the 9-aminoacridine action on AMPA and NMDA receptors. Experiments were carried out by whole-cell patch-clamp technique on native receptors from rat brain neurons. An important peculiarity of the 9-aminoacridine action on NMDA receptors is the large slope of the concentration dependence, which suggests the binding of two molecules in the channel. AMPA receptors blockade also demonstrated interesting features. In contrast to the NMDA receptor channel block, inhibition of AMPA receptors is voltage-independent. 9-Aminoacridine and its dicationic analog demonstrated similar anti-AMPA activity. For classical AMPA-receptor channel blockers (derivatives of adamantane and phenylcyclohexyl) it was demonstrated that dicationic analogs are much more potent than monocationic analogs. We conclude that 9-aminoacridine binds to a specific site in AMPA receptors. This finding opens a possibility to develop a new family of non-competitive antagonists of AMPA receptors.
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