Amperometric post spike feet reveal most exocytosis is via extended kiss-and-run fusion

Lisa J. Mellander; Raphaël Trouillon; Maria I. Svensson; Andrew G. Ewing

doi:10.1038/srep00907

Amperometric post spike feet reveal most exocytosis is via extended kiss-and-run fusion

Lisa J. Mellander, Raphaël Trouillon, Maria I. Svensson, Andrew G. Ewing

Chemistry

Research output: Contribution to journal › Article › peer-review

62 Scopus citations

Abstract

The basis for communication between nerve cells lies in the process of exocytosis, the fusion of neurotransmitter filled vesicles with the cell membrane resulting in release of the signaling molecules. Even though much is known about this process, the extent that the vesicles are emptied upon fusion is a topic that is being debated. We have analyzed amperometric peaks corresponding to release at PC12 cells and find stable plateau currents during the decay of peaks, indicating closing of the vesicle after incomplete release of its content. Using lipid incubations to alter the amount of transmitter released we were able to estimate the initial vesicular content, and from that, the fraction of release. We propose a process for most exocytosis events where the vesicle partially opens to release transmitter and then closes directly again, leaving the possibility for regulation of transmission within events.

Original language	English (US)
Article number	907
Journal	Scientific reports
Volume	2
DOIs	https://doi.org/10.1038/srep00907
State	Published - 2012

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title = "Amperometric post spike feet reveal most exocytosis is via extended kiss-and-run fusion",

abstract = "The basis for communication between nerve cells lies in the process of exocytosis, the fusion of neurotransmitter filled vesicles with the cell membrane resulting in release of the signaling molecules. Even though much is known about this process, the extent that the vesicles are emptied upon fusion is a topic that is being debated. We have analyzed amperometric peaks corresponding to release at PC12 cells and find stable plateau currents during the decay of peaks, indicating closing of the vesicle after incomplete release of its content. Using lipid incubations to alter the amount of transmitter released we were able to estimate the initial vesicular content, and from that, the fraction of release. We propose a process for most exocytosis events where the vesicle partially opens to release transmitter and then closes directly again, leaving the possibility for regulation of transmission within events.",

author = "Mellander, {Lisa J.} and Rapha{\"e}l Trouillon and Svensson, {Maria I.} and Ewing, {Andrew G.}",

note = "Funding Information: We acknowledge the European Research Council (Advanced Grant), Knut and Alice Wallenberg Foundation, the Swedish Research Council (VR) for financial support.",

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doi = "10.1038/srep00907",

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AU - Mellander, Lisa J.

AU - Trouillon, Raphaël

AU - Svensson, Maria I.

AU - Ewing, Andrew G.

N1 - Funding Information: We acknowledge the European Research Council (Advanced Grant), Knut and Alice Wallenberg Foundation, the Swedish Research Council (VR) for financial support.

PY - 2012

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AB - The basis for communication between nerve cells lies in the process of exocytosis, the fusion of neurotransmitter filled vesicles with the cell membrane resulting in release of the signaling molecules. Even though much is known about this process, the extent that the vesicles are emptied upon fusion is a topic that is being debated. We have analyzed amperometric peaks corresponding to release at PC12 cells and find stable plateau currents during the decay of peaks, indicating closing of the vesicle after incomplete release of its content. Using lipid incubations to alter the amount of transmitter released we were able to estimate the initial vesicular content, and from that, the fraction of release. We propose a process for most exocytosis events where the vesicle partially opens to release transmitter and then closes directly again, leaving the possibility for regulation of transmission within events.

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Amperometric post spike feet reveal most exocytosis is via extended kiss-and-run fusion

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