Plastic elimination of functional glutamate release sites by depolarization

Krista L. Moulder; Julian P. Meeks; Amanda A. Shute; Clair K. Hamilton; Gabriel De Erausquin; Steven Mennerick

doi:10.1016/S0896-6273(04)00184-9

Plastic elimination of functional glutamate release sites by depolarization

Krista L. Moulder, Julian P. Meeks, Amanda A. Shute, Clair K. Hamilton, Gabriel De Erausquin, Steven Mennerick

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

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Abstract

To examine persisting effects of depolarizing rises in extracellular potassium concentration ([K⁺]_o) on synapses, we depolarized cells to simulate ischemia-like rises in [K⁺] _o. Elevated [K⁺]_o for 1-16 hr severely depressed glutamate signaling, while mildly depressing GABA transmission. The glutamate-specific changes were plastic over several hours and involved a decrease in the size of the pool of releasable vesicles. Rather than a reduction of the number of vesicles per release site, the change involved functional elimination of release sites. This change was clearly dissociable from a second effect, depressed probability of transmitter release, which was common to both glutamate and GABA transmission. Thus, while other recent evidence links alteration of the releasable pool size with changes in p_r, our results suggest the two can be independently manipulated. Selective depression of glutamate release may provide an adaptive mechanism by which neurons limit excitotoxicity.

Original language	English (US)
Pages (from-to)	423-435
Number of pages	13
Journal	Neuron
Volume	42
Issue number	3
DOIs	https://doi.org/10.1016/S0896-6273(04)00184-9
State	Published - May 13 2004

ASJC Scopus subject areas

General Neuroscience

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10.1016/S0896-6273(04)00184-9

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title = "Plastic elimination of functional glutamate release sites by depolarization",

abstract = "To examine persisting effects of depolarizing rises in extracellular potassium concentration ([K+]o) on synapses, we depolarized cells to simulate ischemia-like rises in [K+] o. Elevated [K+]o for 1-16 hr severely depressed glutamate signaling, while mildly depressing GABA transmission. The glutamate-specific changes were plastic over several hours and involved a decrease in the size of the pool of releasable vesicles. Rather than a reduction of the number of vesicles per release site, the change involved functional elimination of release sites. This change was clearly dissociable from a second effect, depressed probability of transmitter release, which was common to both glutamate and GABA transmission. Thus, while other recent evidence links alteration of the releasable pool size with changes in pr, our results suggest the two can be independently manipulated. Selective depression of glutamate release may provide an adaptive mechanism by which neurons limit excitotoxicity.",

author = "Moulder, {Krista L.} and Meeks, {Julian P.} and Shute, {Amanda A.} and Hamilton, {Clair K.} and {De Erausquin}, Gabriel and Steven Mennerick",

note = "Funding Information: We thank Ann Benz for preparing the hippocampal cultures, Nick San Diego for help with preliminary experiments, and Ann Marie Craig for critical evaluation of an earlier version of this manuscript. We particularly thank members of the laboratory for advice and criticism, and Charles Zorumski for advice and support. This work was supported by AA12592, NS40488, and a grant from the Klingenstein Fund to S.M. K.L.M. was supported by 5T32DA07261 and 1F32DA15948. C.K.H. was supported by HHMI grant 52002642 to Earlham College.",

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AU - Meeks, Julian P.

AU - Shute, Amanda A.

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AU - De Erausquin, Gabriel

AU - Mennerick, Steven

N1 - Funding Information: We thank Ann Benz for preparing the hippocampal cultures, Nick San Diego for help with preliminary experiments, and Ann Marie Craig for critical evaluation of an earlier version of this manuscript. We particularly thank members of the laboratory for advice and criticism, and Charles Zorumski for advice and support. This work was supported by AA12592, NS40488, and a grant from the Klingenstein Fund to S.M. K.L.M. was supported by 5T32DA07261 and 1F32DA15948. C.K.H. was supported by HHMI grant 52002642 to Earlham College.

PY - 2004/5/13

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N2 - To examine persisting effects of depolarizing rises in extracellular potassium concentration ([K+]o) on synapses, we depolarized cells to simulate ischemia-like rises in [K+] o. Elevated [K+]o for 1-16 hr severely depressed glutamate signaling, while mildly depressing GABA transmission. The glutamate-specific changes were plastic over several hours and involved a decrease in the size of the pool of releasable vesicles. Rather than a reduction of the number of vesicles per release site, the change involved functional elimination of release sites. This change was clearly dissociable from a second effect, depressed probability of transmitter release, which was common to both glutamate and GABA transmission. Thus, while other recent evidence links alteration of the releasable pool size with changes in pr, our results suggest the two can be independently manipulated. Selective depression of glutamate release may provide an adaptive mechanism by which neurons limit excitotoxicity.

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Plastic elimination of functional glutamate release sites by depolarization

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