Extrasynaptic vesicle recycling in mature hippocampal neurons
Extrasynaptic vesicle recycling in mature hippocampal neurons
Fast neuronal signalling relies on highly regulated vesicle fusion and recycling at specialized presynaptic terminals. Recently, examples of non-classical neurotransmission have also been reported, where fusion of vesicles can occur at sites remote from conventional synapses. This has potentially broad biological implications, but the underlying mechanisms are not well established. Here we show that a complete vesicle recycling pathway can occur at discrete axonal sites in mature hippocampal neurons and that extrasynaptic fusion is a robust feature of native tissue. We demonstrate that laterally mobile vesicle clusters trafficking between synaptic terminals become transiently stabilized by evoked action potentials and undergo complete but delayed Ca2+-dependent fusion along axons. This fusion is associated with dynamic actin accumulation and, subsequently, vesicles can be locally recycled, re-acidified and re-used. Immunofluorescence and ultrastructural work demonstrates that extrasynaptic fusion sites can have apposed postsynaptic specializations, suggesting that mobile vesicle recycling may underlie highly dynamic neuron–neuron communication
1-11
Ratnayaka, Arjuna
002499b8-1a9f-45b6-9539-5ac145799dfd
Marra, Vincenzo
0d34b5f4-3145-4b25-ade3-801a5d45555c
Branco, Tiago
54dc5f89-4c7b-4bab-a3b9-ed9c3b1ff3a8
Staras, Kevin
9a6b1f6a-5d97-4541-a902-dfa050dbcda0
2011
Ratnayaka, Arjuna
002499b8-1a9f-45b6-9539-5ac145799dfd
Marra, Vincenzo
0d34b5f4-3145-4b25-ade3-801a5d45555c
Branco, Tiago
54dc5f89-4c7b-4bab-a3b9-ed9c3b1ff3a8
Staras, Kevin
9a6b1f6a-5d97-4541-a902-dfa050dbcda0
Ratnayaka, Arjuna, Marra, Vincenzo, Branco, Tiago and Staras, Kevin
(2011)
Extrasynaptic vesicle recycling in mature hippocampal neurons.
Nature Communications, 2 (531), .
(doi:10.1038/ncomms1534).
(PMID:22068598)
Abstract
Fast neuronal signalling relies on highly regulated vesicle fusion and recycling at specialized presynaptic terminals. Recently, examples of non-classical neurotransmission have also been reported, where fusion of vesicles can occur at sites remote from conventional synapses. This has potentially broad biological implications, but the underlying mechanisms are not well established. Here we show that a complete vesicle recycling pathway can occur at discrete axonal sites in mature hippocampal neurons and that extrasynaptic fusion is a robust feature of native tissue. We demonstrate that laterally mobile vesicle clusters trafficking between synaptic terminals become transiently stabilized by evoked action potentials and undergo complete but delayed Ca2+-dependent fusion along axons. This fusion is associated with dynamic actin accumulation and, subsequently, vesicles can be locally recycled, re-acidified and re-used. Immunofluorescence and ultrastructural work demonstrates that extrasynaptic fusion sites can have apposed postsynaptic specializations, suggesting that mobile vesicle recycling may underlie highly dynamic neuron–neuron communication
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Published date: 2011
Organisations:
Clinical & Experimental Sciences
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Local EPrints ID: 352134
URI: http://eprints.soton.ac.uk/id/eprint/352134
PURE UUID: d578d253-a8c5-45cb-895b-cf5c440c24fe
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Date deposited: 02 May 2013 14:55
Last modified: 15 Mar 2024 03:47
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Author:
Vincenzo Marra
Author:
Tiago Branco
Author:
Kevin Staras
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