Single-vesicle imaging reveals different transport mechanisms between glutamatergic and GABAergic vesicles
Fulltext:
171513.pdf
Embargo:
until further notice
Size:
699.8Kb
Format:
PDF
Description:
Publisher’s version
Publication year
2016Source
Science, 351, 6276, (2016), pp. 981-984ISSN
Publication type
Article / Letter to editor
Display more detailsDisplay less details
Organization
Tumorimmunology
Journal title
Science
Volume
vol. 351
Issue
iss. 6276
Page start
p. 981
Page end
p. 984
Subject
Radboudumc 2: Cancer development and immune defence RIMLS: Radboud Institute for Molecular Life SciencesAbstract
Synaptic transmission is mediated by the release of neurotransmitters, which involves exo-endocytotic cycling of synaptic vesicles. To maintain synaptic function, synaptic vesicles are refilled with thousands of neurotransmitter molecules within seconds after endocytosis, using the energy provided by an electrochemical proton gradient. However, it is unclear how transmitter molecules carrying different net charges can be efficiently sequestered while maintaining charge neutrality and osmotic balance. We used single-vesicle imaging to monitor pH and electrical gradients and directly showed different uptake mechanisms for glutamate and g-aminobutyric acid (GABA) operating in parallel. In contrast to glutamate, GABA was exchanged for protons, with no other ions participating in the transport cycle. Thus, only a few components are needed to guarantee reliable vesicle filling with different neurotransmitters.
This item appears in the following Collection(s)
- Academic publications [244228]
- Electronic publications [131195]
- Faculty of Medical Sciences [92893]
Upload full text
Use your RU credentials (u/z-number and password) to log in with SURFconext to upload a file for processing by the repository team.