Drosophila Hsc70-4 is critical for neurotransmitter exocytosis in vivo

Peter Bronk; Julia J. Wenniger; Ken Dawson-Scully; Xiufang Guo; Susie Hong; Harold L. Atwood; Konrad E. Zinsmaier

doi:10.1016/S0896-6273(01)00292-6

Drosophila Hsc70-4 is critical for neurotransmitter exocytosis in vivo

Peter Bronk
, Julia J. Wenniger
, Ken Dawson-Scully
, Xiufang Guo
, Susie Hong
, Harold L. Atwood
, Konrad E. Zinsmaier

Research output: Contribution to journal › Article › peer-review

Abstract

Previous in vitro studies of cysteine-string protein (CSP) imply a potential role for the clathrin-uncoating ATPase Hsc70 in exocytosis. We show that hypomorphic mutations in Drosophila Hsc70-4 (Hsc4) impair nerve-evoked neurotransmitter release, but not synaptic vesicle recycling in vivo. The loss of release can be restored by increasing external or internal Ca2+ and is caused by a reduced Ca2+ sensitivity of exocytosis downstream of Ca2+ entry. Hsc4 and CSP are likely to act in common pathways, as indicated by their in vitro protein interaction, the similar loss of evoked release in individual and double mutants, and genetic interactions causing a loss of release in trans-heterozygous hsc4-csp double mutants. We suggest that Hsc4 and CSP cooperatively augment the probability of release by increasing the Ca2+ sensitivity of vesicle fusion.

Original language	English
Pages (from-to)	475-488
Number of pages	14
Journal	Neuron
Volume	30
Issue number	2
DOIs	https://doi.org/10.1016/S0896-6273(01)00292-6
State	Published - May 2001
Externally published	Yes

ASJC Scopus Subject Areas

General Neuroscience

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10.1016/S0896-6273(01)00292-6

Cite this

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title = "Drosophila Hsc70-4 is critical for neurotransmitter exocytosis in vivo",

abstract = "Previous in vitro studies of cysteine-string protein (CSP) imply a potential role for the clathrin-uncoating ATPase Hsc70 in exocytosis. We show that hypomorphic mutations in Drosophila Hsc70-4 (Hsc4) impair nerve-evoked neurotransmitter release, but not synaptic vesicle recycling in vivo. The loss of release can be restored by increasing external or internal Ca2+ and is caused by a reduced Ca2+ sensitivity of exocytosis downstream of Ca2+ entry. Hsc4 and CSP are likely to act in common pathways, as indicated by their in vitro protein interaction, the similar loss of evoked release in individual and double mutants, and genetic interactions causing a loss of release in trans-heterozygous hsc4-csp double mutants. We suggest that Hsc4 and CSP cooperatively augment the probability of release by increasing the Ca2+ sensitivity of vesicle fusion.",

author = "Peter Bronk and Wenniger, \{Julia J.\} and Ken Dawson-Scully and Xiufang Guo and Susie Hong and Atwood, \{Harold L.\} and Zinsmaier, \{Konrad E.\}",

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T1 - Drosophila Hsc70-4 is critical for neurotransmitter exocytosis in vivo

AU - Bronk, Peter

AU - Wenniger, Julia J.

AU - Dawson-Scully, Ken

AU - Guo, Xiufang

AU - Hong, Susie

AU - Atwood, Harold L.

AU - Zinsmaier, Konrad E.

PY - 2001/5

Y1 - 2001/5

N2 - Previous in vitro studies of cysteine-string protein (CSP) imply a potential role for the clathrin-uncoating ATPase Hsc70 in exocytosis. We show that hypomorphic mutations in Drosophila Hsc70-4 (Hsc4) impair nerve-evoked neurotransmitter release, but not synaptic vesicle recycling in vivo. The loss of release can be restored by increasing external or internal Ca2+ and is caused by a reduced Ca2+ sensitivity of exocytosis downstream of Ca2+ entry. Hsc4 and CSP are likely to act in common pathways, as indicated by their in vitro protein interaction, the similar loss of evoked release in individual and double mutants, and genetic interactions causing a loss of release in trans-heterozygous hsc4-csp double mutants. We suggest that Hsc4 and CSP cooperatively augment the probability of release by increasing the Ca2+ sensitivity of vesicle fusion.

AB - Previous in vitro studies of cysteine-string protein (CSP) imply a potential role for the clathrin-uncoating ATPase Hsc70 in exocytosis. We show that hypomorphic mutations in Drosophila Hsc70-4 (Hsc4) impair nerve-evoked neurotransmitter release, but not synaptic vesicle recycling in vivo. The loss of release can be restored by increasing external or internal Ca2+ and is caused by a reduced Ca2+ sensitivity of exocytosis downstream of Ca2+ entry. Hsc4 and CSP are likely to act in common pathways, as indicated by their in vitro protein interaction, the similar loss of evoked release in individual and double mutants, and genetic interactions causing a loss of release in trans-heterozygous hsc4-csp double mutants. We suggest that Hsc4 and CSP cooperatively augment the probability of release by increasing the Ca2+ sensitivity of vesicle fusion.

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DO - 10.1016/S0896-6273(01)00292-6

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JO - Neuron

JF - Neuron

IS - 2

ER -

Drosophila Hsc70-4 is critical for neurotransmitter exocytosis in vivo

Abstract

ASJC Scopus Subject Areas

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