SYNAPTIC VESICLE DEPLETION AND RECOVERY IN CAT SYMPATHETIC GANGLIA ELECTRICALLY STIMULATED IN VIVO: Evidence for Transmitter Secretion by Exocytosis

doi:10.1083/jcb.60.2.365

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ARTICLE

SYNAPTIC VESICLE DEPLETION AND RECOVERY IN CAT SYMPATHETIC GANGLIA ELECTRICALLY STIMULATED IN VIVO

: Evidence for Transmitter Secretion by Exocytosis

Joseph J. Pysh ¹ and Ronald G. Wiley ¹

¹ From the Departments of Anatomy and Pharmacology, Northwestern University McGaw Medical Center, Chicago, Illinois 60611

This study examined the ultrastructure of presynaptic terminalsafter short periods of vigorous acetylcholine (ACh) secretionin the cat superior cervical ganglion in vivo. Experimentaltrunks of cats anesthetized with chloralose-urethane were stimulatedsupra-maximally for periods of 15–30 min and at severalfrequencies including the upper physiological range (5–10Hz). Stimulated and contralateral control ganglia from eachanimal were fixed by intra-arterial aldehyde perfusion, processedsimultaneously, and compared by electron microscopy. Stimulationproduced an absolute decrease in the number of synaptic vesicles,an enlargement of axonal surface membrane, and distinct alterationsin the shape of presynaptic terminals. Virtually complete recoveryoccurred within 1 h after stimulation at 10 Hz for 30 min. Theseresults support the hypothesis that ACh release at mammalianaxodendritic synapses occurs by exocytosis of synaptic vesiclesresulting in the incorporation of vesicle membrane into thepresynaptic membrane and that synaptic vesicles subsequentlyare reformed from plasma membrane.

Submitted on July 6, 1973
Revised on October 19, 1973

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