Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse

Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse

GABAergic synapses in brain circuits generate inhibitory output signals with submillisecond latency and temporal precision. Whether the molecular identity of the release sensor contributes to these signaling properties remains unclear. Here, we examined the Ca2+ sensor of exocytosis at GABAergic bas...

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Main Authors: Chong Chen, Itaru Arai, Rachel Satterfield, Samuel M. Young Jr., Peter Jonas
Format: Article
Language:English
Published: Elsevier 2017-01-01
Series:Cell Reports
Subjects:
cerebellum
basket cells
transmitter release
synaptotagmin
Ca2+ sensor
exocytosis
endocytosis
pool replenishment
GABAergic synapses
feedforward inhibition
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124716317740
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spelling doaj-cb80837f50354dcd8a0d3458028144c52020-11-24T21:27:43ZengElsevierCell Reports2211-12472017-01-0118372373610.1016/j.celrep.2016.12.067Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory SynapseChong Chen0Itaru Arai1Rachel Satterfield2Samuel M. Young Jr.3Peter Jonas4IST Austria (Institute of Science and Technology Austria), Am Campus 1, 3400 Klosterneuburg, AustriaIST Austria (Institute of Science and Technology Austria), Am Campus 1, 3400 Klosterneuburg, AustriaMax Planck Florida Institute for Neuroscience, Research Group Molecular Mechanisms of Synaptic Function, Jupiter, FL 33458, USAMax Planck Florida Institute for Neuroscience, Research Group Molecular Mechanisms of Synaptic Function, Jupiter, FL 33458, USAIST Austria (Institute of Science and Technology Austria), Am Campus 1, 3400 Klosterneuburg, AustriaGABAergic synapses in brain circuits generate inhibitory output signals with submillisecond latency and temporal precision. Whether the molecular identity of the release sensor contributes to these signaling properties remains unclear. Here, we examined the Ca2+ sensor of exocytosis at GABAergic basket cell (BC) to Purkinje cell (PC) synapses in cerebellum. Immunolabeling suggested that BC terminals selectively expressed synaptotagmin 2 (Syt2), whereas synaptotagmin 1 (Syt1) was enriched in excitatory terminals. Genetic elimination of Syt2 reduced action potential-evoked release to ∼10%, identifying Syt2 as the major Ca2+ sensor at BC-PC synapses. Differential adenovirus-mediated rescue revealed that Syt2 triggered release with shorter latency and higher temporal precision and mediated faster vesicle pool replenishment than Syt1. Furthermore, deletion of Syt2 severely reduced and delayed disynaptic inhibition following parallel fiber stimulation. Thus, the selective use of Syt2 as release sensor at BC-PC synapses ensures fast and efficient feedforward inhibition in cerebellar microcircuits.http://www.sciencedirect.com/science/article/pii/S2211124716317740cerebellumbasket cellstransmitter releasesynaptotagminCa2+ sensorexocytosisendocytosispool replenishmentGABAergic synapsesfeedforward inhibition
collection DOAJ
language English
format Article
sources DOAJ
author Chong Chen
Itaru Arai
Rachel Satterfield
Samuel M. Young Jr.
Peter Jonas
spellingShingle Chong Chen
Itaru Arai
Rachel Satterfield
Samuel M. Young Jr.
Peter Jonas
Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
Cell Reports
cerebellum
basket cells
transmitter release
synaptotagmin
Ca2+ sensor
exocytosis
endocytosis
pool replenishment
GABAergic synapses
feedforward inhibition
author_facet Chong Chen
Itaru Arai
Rachel Satterfield
Samuel M. Young Jr.
Peter Jonas
author_sort Chong Chen
title Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
title_short Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
title_full Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
title_fullStr Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
title_full_unstemmed Synaptotagmin 2 Is the Fast Ca2+ Sensor at a Central Inhibitory Synapse
title_sort synaptotagmin 2 is the fast ca2+ sensor at a central inhibitory synapse
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2017-01-01
description GABAergic synapses in brain circuits generate inhibitory output signals with submillisecond latency and temporal precision. Whether the molecular identity of the release sensor contributes to these signaling properties remains unclear. Here, we examined the Ca2+ sensor of exocytosis at GABAergic basket cell (BC) to Purkinje cell (PC) synapses in cerebellum. Immunolabeling suggested that BC terminals selectively expressed synaptotagmin 2 (Syt2), whereas synaptotagmin 1 (Syt1) was enriched in excitatory terminals. Genetic elimination of Syt2 reduced action potential-evoked release to ∼10%, identifying Syt2 as the major Ca2+ sensor at BC-PC synapses. Differential adenovirus-mediated rescue revealed that Syt2 triggered release with shorter latency and higher temporal precision and mediated faster vesicle pool replenishment than Syt1. Furthermore, deletion of Syt2 severely reduced and delayed disynaptic inhibition following parallel fiber stimulation. Thus, the selective use of Syt2 as release sensor at BC-PC synapses ensures fast and efficient feedforward inhibition in cerebellar microcircuits.
topic cerebellum
basket cells
transmitter release
synaptotagmin
Ca2+ sensor
exocytosis
endocytosis
pool replenishment
GABAergic synapses
feedforward inhibition
url http://www.sciencedirect.com/science/article/pii/S2211124716317740
work_keys_str_mv AT chongchen synaptotagmin2isthefastca2sensoratacentralinhibitorysynapse
AT itaruarai synaptotagmin2isthefastca2sensoratacentralinhibitorysynapse
AT rachelsatterfield synaptotagmin2isthefastca2sensoratacentralinhibitorysynapse
AT samuelmyoungjr synaptotagmin2isthefastca2sensoratacentralinhibitorysynapse
AT peterjonas synaptotagmin2isthefastca2sensoratacentralinhibitorysynapse
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