Recruitment of resting vesicles into recycling pools supports NMDA-receptor dependent synaptic potentiation in cultured hippocampal neurons
Recruitment of resting vesicles into recycling pools supports NMDA-receptor dependent synaptic potentiation in cultured hippocampal neurons
Most presynaptic terminals in the central nervous system are characterized by two functionally distinct vesicle populations: a recycling pool, which supports action potential-driven neurotransmitter release via vesicle exocytosis, and a resting pool. The relative proportions of these two pools are highly variable between individual synapses, prompting speculation on their specific relationship, and on the possible functions of the resting pool.Using fluorescence imaging of FM-styryl dyes and synaptophysinI-pHluorin(sypHy) as well as correlative electronmicroscopy approaches, we show here that Hebbian plasticity-dependent changes in synaptic strength in rat hippocampal neurons can increase the recycling pool fraction at the expense of the resting pool in individual synaptic terminals. This recruitment process depends on NMDA-receptor activation, nitric oxide signalling and calcineurin and is accompanied by an increase in the probability of neurotransmitter release at individual terminals. Blockade of actin-mediated intersynaptic vesicle exchange does not prevent recycling pool expansion demonstrating that vesicle recruitment is intrasynaptic.We propose that the conversion of resting pool vesicles to the functionally recycling pool provides a rapid mechanism to implement long-lasting changes in presynaptic efficacy.
1585-1597
Ratnayaka, Arjuna
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Marra, Vincenzo
0d34b5f4-3145-4b25-ade3-801a5d45555c
Bush, Daniel
c1027701-a9d5-4703-9d5a-d241472e1887
Burden, Jemima J.
b4ae1812-bd80-4a46-b501-931fb2756062
Branco, Tiago
54dc5f89-4c7b-4bab-a3b9-ed9c3b1ff3a8
Staras, Kevin
9a6b1f6a-5d97-4541-a902-dfa050dbcda0
April 2012
Ratnayaka, Arjuna
002499b8-1a9f-45b6-9539-5ac145799dfd
Marra, Vincenzo
0d34b5f4-3145-4b25-ade3-801a5d45555c
Bush, Daniel
c1027701-a9d5-4703-9d5a-d241472e1887
Burden, Jemima J.
b4ae1812-bd80-4a46-b501-931fb2756062
Branco, Tiago
54dc5f89-4c7b-4bab-a3b9-ed9c3b1ff3a8
Staras, Kevin
9a6b1f6a-5d97-4541-a902-dfa050dbcda0
Ratnayaka, Arjuna, Marra, Vincenzo, Bush, Daniel, Burden, Jemima J., Branco, Tiago and Staras, Kevin
(2012)
Recruitment of resting vesicles into recycling pools supports NMDA-receptor dependent synaptic potentiation in cultured hippocampal neurons.
The Journal of Physiology, 590 (7), .
(doi:10.1113/jphysiol.2011.226688).
(PMID:22271866)
Abstract
Most presynaptic terminals in the central nervous system are characterized by two functionally distinct vesicle populations: a recycling pool, which supports action potential-driven neurotransmitter release via vesicle exocytosis, and a resting pool. The relative proportions of these two pools are highly variable between individual synapses, prompting speculation on their specific relationship, and on the possible functions of the resting pool.Using fluorescence imaging of FM-styryl dyes and synaptophysinI-pHluorin(sypHy) as well as correlative electronmicroscopy approaches, we show here that Hebbian plasticity-dependent changes in synaptic strength in rat hippocampal neurons can increase the recycling pool fraction at the expense of the resting pool in individual synaptic terminals. This recruitment process depends on NMDA-receptor activation, nitric oxide signalling and calcineurin and is accompanied by an increase in the probability of neurotransmitter release at individual terminals. Blockade of actin-mediated intersynaptic vesicle exchange does not prevent recycling pool expansion demonstrating that vesicle recruitment is intrasynaptic.We propose that the conversion of resting pool vesicles to the functionally recycling pool provides a rapid mechanism to implement long-lasting changes in presynaptic efficacy.
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e-pub ahead of print date: 1 March 2012
Published date: April 2012
Organisations:
Clinical & Experimental Sciences
Identifiers
Local EPrints ID: 352132
URI: http://eprints.soton.ac.uk/id/eprint/352132
ISSN: 0022-3751
PURE UUID: 29653136-247d-46af-b170-7b8c8a72a2ae
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Date deposited: 02 May 2013 15:15
Last modified: 15 Mar 2024 03:47
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Author:
Vincenzo Marra
Author:
Daniel Bush
Author:
Jemima J. Burden
Author:
Tiago Branco
Author:
Kevin Staras
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