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@ARTICLE{Reshetniak:281820,
author = {Reshetniak, Sofiia and Bogaciu, Cristian A and Bonn, Stefan
and Brose, Nils and Cooper, Benjamin H and D'Este, Elisa and
Fauth, Michael and Fernández-Busnadiego, Rubén and
Fiosins, Maksims and Fischer, André and Georgiev, Svilen V
and Jakobs, Stefan and Klumpp, Stefan and Köster, Sarah and
Lange, Felix and Lipstein, Noa and Macarrón-Palacios,
Victor and Milovanovic, Dragomir and Moser, Tobias and
Müller, Marcus and Opazo, Felipe and Outeiro, Tiago and
Pape, Constantin and Priesemann, Viola and Rehling, Peter
and Salditt, Tim and Schlüter, Oliver and Simeth, Nadja and
Steinem, Claudia and Tchumatchenko, Tatjana and Tetzlaff,
Christian and Tirard, Marilyn and Urlaub, Henning and
Wichmann, Carolin and Wolf, Fred and Rizzoli, Silvio O},
title = {{T}he synaptic vesicle cluster as a controller of pre- and
postsynaptic structure and function.},
journal = {The journal of physiology},
volume = {603},
number = {20},
issn = {0022-3751},
address = {Hoboken, NJ},
publisher = {Wiley-Blackwell},
reportid = {DZNE-2025-01201},
pages = {5935 - 5964},
year = {2025},
abstract = {The synaptic vesicle cluster (SVC) is an essential
component of chemical synapses, which provides
neurotransmitter-loaded vesicles during synaptic activity,
at the same time as also controlling the local
concentrations of numerous exo- and endocytosis cofactors.
In addition, the SVC hosts molecules that participate in
other aspects of synaptic function, from cytoskeletal
components to adhesion proteins, and affects the location
and function of organelles such as mitochondria and the
endoplasmic reticulum. We argue here that these features
extend the functional involvement of the SVC in synapse
formation, signalling and plasticity, as well as synapse
stabilization and metabolism. We also propose that changes
in the size of the SVC coalesce with changes in the
postsynaptic compartment, supporting the interplay between
pre- and postsynaptic dynamics. Thereby, the SVC could be
seen as an 'all-in-one' regulator of synaptic structure and
function, which should be investigated in more detail, to
reveal molecular mechanisms that control synaptic function
and heterogeneity.},
subtyp = {Review Article},
keywords = {Synaptic Vesicles: physiology / Animals / Humans /
Synapses: physiology / Synaptic Transmission: physiology /
Presynaptic Terminals: physiology / synapse (Other) /
synapse formation (Other) / synaptic plasticity (Other) /
synaptic vesicle cluster (Other) / vesicle (Other)},
cin = {AG Fischer / AG Milovanovic (Berlin)},
ddc = {610},
cid = {I:(DE-2719)1410002 / I:(DE-2719)1813002},
pnm = {352 - Disease Mechanisms (POF4-352) / 351 - Brain Function
(POF4-351)},
pid = {G:(DE-HGF)POF4-352 / G:(DE-HGF)POF4-351},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:39367860},
doi = {10.1113/JP286400},
url = {https://pub.dzne.de/record/281820},
}
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