Synaptic Vesicle Endocytosis: the Races, Places, and Molecular Faces

Overview

Journal Neuromolecular Med

Specialty Biochemistry

Date 2002 Nov 14

PMID 12428806

Citations 14

Authors

Jennifer R Morgan

George J Augustine

Eileen M Lafer

Affiliations

Soon will be listed here.

Abstract

The classical experiments on synaptic vesicle recycling in the 1970s by Heuser and Reese, Ceccarelli, and their colleagues raised opposing theories regarding the speed, mechanisms, and locations of membrane retrieval at the synapse. The Heuser and Reese experiments supported a model in which synaptic vesicle recycling is mediated by the formation of coated vesicles, is relatively slow, and occurs distally from active zones, the sites of neurotransmitter release. Because heavy levels of stimulation were needed to visualize the coated vesicles, Ceccarelli's experiments argued that synaptic vesicle recycling does not require the formation of coated vesicles, is relatively fast, and occurs directly at the active zone in a "kiss-and-run" reversal of exocytosis under more physiological conditions. For the next thirty years, these models have provided the foundation for studies of the rates, locations, and molecular elements involved in synaptic vesicle endocytosis. Here, we describe the evidence supporting each model and argue that the coated vesicle pathway is the most predominant physiological mechanism for recycling synaptic vesicles.

Citing Articles

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Dysfunction of Synaptic Vesicle Endocytosis in Parkinson's Disease.

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α-Synuclein Dimers Impair Vesicle Fission during Clathrin-Mediated Synaptic Vesicle Recycling.

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Presynaptic membrane retrieval and endosome biology: defining molecularly heterogeneous synaptic vesicles.

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A Bcl-xL-Drp1 complex regulates synaptic vesicle membrane dynamics during endocytosis.

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