The atomic force microscope (AFM) was used to directly image purified
synaptic vesicles. Individual secretory vesicles (similar to 50 nm dia
meter) were resolved with the AFM when imaged either dry or in solutio
n. Vesicles were observed repeatedly for periods of greater than 2 h.
To ask whether the AFM can detect structural change of vesicles the os
molarity of the bathing medium was reduced from 330 to 110 mOsm. Hypo-
osmotic treatment caused an expansion and flattening of the vesicles.
Thus, using the AFM it is possible to resolve individual vesicles and
follow changes in vesicular structure. This opens the possibility that
the secretory event can be reconstituted and visualized in vitro in o
rder to elucidate the roles of synaptic proteins in synaptic transmiss
ion. (C) 1995 Academic Press, Inc.