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Article
Nature Neuroscience  6, 846 - 853 (2003)
Published online: 6 July 2003; | doi:10.1038/nn1087

Calcium regulates exocytosis at the level of single vesicles

Ute Becherer1, 4, Tobias Moser2, Walter Stühmer1 & Martin Oheim3

1  Max-Planck Institute for Experimental Medicine, Molecular Biology of Neuronal Signals, Hermann-Rein Str. 3, D-37075 Göttingen, Germany.

2  Department of Otolaryngology, University of Göttingen, Robert-Koch Str. 40, D-37075 Göttingen, Germany.

3  Ecole Supérieure de Physique et Chimie Industrielles (ESPCI), CNRS fre 2500 − INSERM epi 0002, Neurophysiologie et Nouvelles Microscopies, 10 rue Vauquelin, F-75005 Paris, France.

4  Present address: Physiologisches Institut, Geb 59, Universität des Saarlandes, D-66421, Homburg/Saar, Germany.

Correspondence should be addressed to Martin Oheim martin.oheim@espci.fr
Ca2+ microdomains that form during the opening of voltage-gated Ca2+ channels have been implicated in regulating the kinetics of hormone and transmitter release. Direct assessment of the interaction between a single Ca2+ microdomain and a single secretory vesicle has been impossible because of technical limitations. Using evanescent field imaging of near-membrane micromolar Ca2+ concentration ([Ca2+]) and fluorescently labeled vesicles, we have observed exocytosis of individual chromaffin dense-core vesicles that was triggered by Ca2+ microdomains. Ca2+ microdomains selectively triggered the release of vesicles that were docked within 300 nm. Not all vesicles exposed to a Ca2+ microdomain were released, indicating that some vesicles are docked but are not ready for release. In addition to its established role as a trigger for release, elevated near-membrane [Ca2+] reduced the distance between docked vesicles and Ca2+ entry sites. Our results suggest a new mechanism for stimulation-dependent facilitation of exocytosis, whereby vesicles are moved closer to Ca2+ entry sites, thereby increasing a Ca2+ microdomain's efficacy to trigger vesicle fusion.

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ISSN: 1097-6256
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