Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release

Daehun Park; Unghwi Lee; Eunji Cho; Haiyan Zhao; Jung Ah Kim; Byoung Ju Lee; Philip Regan; Won Kyung Ho; Kwangwook Cho; Sunghoe Chang

doi:10.1016/j.celrep.2018.02.088

Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release

Daehun Park, Unghwi Lee, Eunji Cho, Haiyan Zhao, Jung Ah Kim, Byoung Ju Lee, Philip Regan, Won Kyung Ho, Kwangwook Cho, Sunghoe Chang^*

^*Corresponding author for this work

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Abstract

Summary Despite being a highly enriched synaptic vesicle (SV) protein and a candidate gene for autism, the physiological function of SCAMP5 remains mostly enigmatic. Here, using optical imaging and electrophysiological experiments, we demonstrate that SCAMP5 plays a critical role in release site clearance at the active zone. Truncation analysis revealed that the 2/3 loop domain of SCAMP5 directly interacts with adaptor protein 2, and this interaction is critical for its role in release site clearance. Knockdown (KD) of SCAMP5 exhibited pronounced synaptic depression accompanied by a slower recovery of the SV pool. Moreover, it induced a strong frequency-dependent short-term depression of synaptic release, even under the condition of sufficient release-ready SVs. Super-resolution microscopy further proved the defects in SV protein clearance induced by KD. Thus, reduced expression of SCAMP5 may impair the efficiency of SV clearance at the active zone, and this might relate to the synaptic dysfunction observed in autism.

Original language	English
Pages (from-to)	3339-3350
Number of pages	12
Journal	Cell Reports
Volume	22
Issue number	12
Early online date	20 Mar 2018
DOIs	https://doi.org/10.1016/j.celrep.2018.02.088 https://doi.org/10.1016/j.celrep.2018.02.088
Publication status	Published - 20 Mar 2018

Keywords

adaptor protein 2
autism spectrum disorder
endocytosis
presynaptic active zone
release site clearance
SCAMP5
secretory carrier membrane protein
short-term depression
super-resolution microscopy

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Park, D., Lee, U., Cho, E., Zhao, H., Kim, J. A., Lee, B. J., Regan, P., Ho, W. K., Cho, K., & Chang, S. (2018). Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release. Cell Reports, 22(12), 3339-3350. https://doi.org/10.1016/j.celrep.2018.02.088, https://doi.org/10.1016/j.celrep.2018.02.088

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title = "Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release",

abstract = "Summary Despite being a highly enriched synaptic vesicle (SV) protein and a candidate gene for autism, the physiological function of SCAMP5 remains mostly enigmatic. Here, using optical imaging and electrophysiological experiments, we demonstrate that SCAMP5 plays a critical role in release site clearance at the active zone. Truncation analysis revealed that the 2/3 loop domain of SCAMP5 directly interacts with adaptor protein 2, and this interaction is critical for its role in release site clearance. Knockdown (KD) of SCAMP5 exhibited pronounced synaptic depression accompanied by a slower recovery of the SV pool. Moreover, it induced a strong frequency-dependent short-term depression of synaptic release, even under the condition of sufficient release-ready SVs. Super-resolution microscopy further proved the defects in SV protein clearance induced by KD. Thus, reduced expression of SCAMP5 may impair the efficiency of SV clearance at the active zone, and this might relate to the synaptic dysfunction observed in autism.",

keywords = "adaptor protein 2, autism spectrum disorder, endocytosis, presynaptic active zone, release site clearance, SCAMP5, secretory carrier membrane protein, short-term depression, super-resolution microscopy",

author = "Daehun Park and Unghwi Lee and Eunji Cho and Haiyan Zhao and Kim, {Jung Ah} and Lee, {Byoung Ju} and Philip Regan and Ho, {Won Kyung} and Kwangwook Cho and Sunghoe Chang",

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Park, D, Lee, U, Cho, E, Zhao, H, Kim, JA, Lee, BJ, Regan, P, Ho, WK, Cho, K & Chang, S 2018, 'Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release', Cell Reports, vol. 22, no. 12, pp. 3339-3350. https://doi.org/10.1016/j.celrep.2018.02.088, https://doi.org/10.1016/j.celrep.2018.02.088

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T1 - Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release

AU - Park, Daehun

AU - Lee, Unghwi

AU - Cho, Eunji

AU - Zhao, Haiyan

AU - Kim, Jung Ah

AU - Lee, Byoung Ju

AU - Regan, Philip

AU - Ho, Won Kyung

AU - Cho, Kwangwook

AU - Chang, Sunghoe

PY - 2018/3/20

Y1 - 2018/3/20

N2 - Summary Despite being a highly enriched synaptic vesicle (SV) protein and a candidate gene for autism, the physiological function of SCAMP5 remains mostly enigmatic. Here, using optical imaging and electrophysiological experiments, we demonstrate that SCAMP5 plays a critical role in release site clearance at the active zone. Truncation analysis revealed that the 2/3 loop domain of SCAMP5 directly interacts with adaptor protein 2, and this interaction is critical for its role in release site clearance. Knockdown (KD) of SCAMP5 exhibited pronounced synaptic depression accompanied by a slower recovery of the SV pool. Moreover, it induced a strong frequency-dependent short-term depression of synaptic release, even under the condition of sufficient release-ready SVs. Super-resolution microscopy further proved the defects in SV protein clearance induced by KD. Thus, reduced expression of SCAMP5 may impair the efficiency of SV clearance at the active zone, and this might relate to the synaptic dysfunction observed in autism.

AB - Summary Despite being a highly enriched synaptic vesicle (SV) protein and a candidate gene for autism, the physiological function of SCAMP5 remains mostly enigmatic. Here, using optical imaging and electrophysiological experiments, we demonstrate that SCAMP5 plays a critical role in release site clearance at the active zone. Truncation analysis revealed that the 2/3 loop domain of SCAMP5 directly interacts with adaptor protein 2, and this interaction is critical for its role in release site clearance. Knockdown (KD) of SCAMP5 exhibited pronounced synaptic depression accompanied by a slower recovery of the SV pool. Moreover, it induced a strong frequency-dependent short-term depression of synaptic release, even under the condition of sufficient release-ready SVs. Super-resolution microscopy further proved the defects in SV protein clearance induced by KD. Thus, reduced expression of SCAMP5 may impair the efficiency of SV clearance at the active zone, and this might relate to the synaptic dysfunction observed in autism.

KW - adaptor protein 2

KW - autism spectrum disorder

KW - endocytosis

KW - presynaptic active zone

KW - release site clearance

KW - SCAMP5

KW - secretory carrier membrane protein

KW - short-term depression

KW - super-resolution microscopy

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U2 - 10.1016/j.celrep.2018.02.088

DO - 10.1016/j.celrep.2018.02.088

M3 - Article (Academic Journal)

C2 - 29562188

SN - 2211-1247

VL - 22

SP - 3339

EP - 3350

JO - Cell Reports

JF - Cell Reports

IS - 12

ER -

Impairment of Release Site Clearance within the Active Zone by Reduced SCAMP5 Expression Causes Short-Term Depression of Synaptic Release

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