Osmotically-induced trapping of terbium ions in axonal membrane vesicles.

Using terbium ions as fluorescence probes of calcium-binding sites and osmotic shock to induce trapping of Tb3+ in the vesicle interior, direct binding assays have been developed to study the competition between calcium and local anesthetics for binding sites at the cytoplasmic surface of axonal membrane vesicles. Pharmacologically active concentrations of the membrane-permeable local anesthetic, lidocaine, competitively displace bound Tb3+ in the vesicles, while QX-314, a quaternary ammonium analog of lidocaine that has poor access to the vesicle interior, exhibits no significant displacement of osmotically-loaded, internally-bound Tb3+. These experiments support the hypothesis that local anesthetics may function by displacing Ca2+ from a functionally specific binding site in nerve membranes.