Abstract

The acidification of synaptic vesicles (SV) in rat brain synaptosomes was studied using acridine orange (AO) as a fluorescent probe. In synaptosomal suspensions the AO fluorescence was partially quenched, indicating the presence of an acidic compartment. In permeabilized synaptosomes, the quenching was augmented by MgATP and was sensitive to concanamycin A, a specific inhibitor of the V-type H(+)-ATPase known to be present in synaptic vesicles. Some ATP-dependent acidification was also observed without permeabilization, suggesting that a fraction of synaptosomes (ca. 15%) was unsealed, irrespective of the method used to prepare the synaptosomes (sucrose or Ficoll density gradient, sedimentation or flotation). Depolarization of synaptosomes with 30 mM KCl resulted in an immediate, albeit small, rise in AO fluorescence that was prevented by the removal of Ca(2+) or by substituting NaCl for KCl. This response is consistent with depolarization-evoked release of the acidic contents of an exocytosis-competent pool of synaptic vesicles, representing ca. 5% of the total. No further AO release subsequent to the immediate phase was observed in depolarized synaptosomes, which indicates an extremely rapid reacidification. The results demonstrate that AO fluorescence is suitable for monitoring SV acidification within synaptosomes, and may be used to derive an independent estimate of the relative size of the immediately releasable SV pool. In addition, the use of AO might be advantageous for the assessment of synaptosomal integrity by comparing the ATP-dependent acidification in intact and permeabilized synaptosomes.

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