Graded bidirectional synaptic plasticity is composed of switch-like unitary events

Daniel H. O'Connor; Gayle M. Wittenberg; Samuel S.H. Wang

doi:10.1073/pnas.0502332102

Graded bidirectional synaptic plasticity is composed of switch-like unitary events

Daniel H. O'Connor
, Gayle M. Wittenberg
, Samuel S.H. Wang

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

192 Scopus citations

Abstract

Biological information storage events are often rapid transitions between discrete states. In neural systems, the initiation of bidirectional plasticity by all-or-none events may help confer robustness on memory storage. Here, we report that at CA3-CA1 hippocampal synapses, individual potentiation and depression plasticity events are discrete and heterogeneous in nature. Individual synapses began from extreme high and low strength states. Unitary plasticity events were all-or-none and drove synaptic strength between extremes in <1 min. Under naïve conditions, approximately three-fourths of synapses began in a low-strength state. The timing of these unitary events can account for the time course of macroscopic synaptic plasticity.

Original language	English (US)
Pages (from-to)	9679-9684
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	102
Issue number	27
DOIs	https://doi.org/10.1073/pnas.0502332102
State	Published - Jul 5 2005

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abstract = "Biological information storage events are often rapid transitions between discrete states. In neural systems, the initiation of bidirectional plasticity by all-or-none events may help confer robustness on memory storage. Here, we report that at CA3-CA1 hippocampal synapses, individual potentiation and depression plasticity events are discrete and heterogeneous in nature. Individual synapses began from extreme high and low strength states. Unitary plasticity events were all-or-none and drove synaptic strength between extremes in <1 min. Under na{\"i}ve conditions, approximately three-fourths of synapses began in a low-strength state. The timing of these unitary events can account for the time course of macroscopic synaptic plasticity.",

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AU - Wittenberg, Gayle M.

AU - Wang, Samuel S.H.

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N2 - Biological information storage events are often rapid transitions between discrete states. In neural systems, the initiation of bidirectional plasticity by all-or-none events may help confer robustness on memory storage. Here, we report that at CA3-CA1 hippocampal synapses, individual potentiation and depression plasticity events are discrete and heterogeneous in nature. Individual synapses began from extreme high and low strength states. Unitary plasticity events were all-or-none and drove synaptic strength between extremes in <1 min. Under naïve conditions, approximately three-fourths of synapses began in a low-strength state. The timing of these unitary events can account for the time course of macroscopic synaptic plasticity.

AB - Biological information storage events are often rapid transitions between discrete states. In neural systems, the initiation of bidirectional plasticity by all-or-none events may help confer robustness on memory storage. Here, we report that at CA3-CA1 hippocampal synapses, individual potentiation and depression plasticity events are discrete and heterogeneous in nature. Individual synapses began from extreme high and low strength states. Unitary plasticity events were all-or-none and drove synaptic strength between extremes in <1 min. Under naïve conditions, approximately three-fourths of synapses began in a low-strength state. The timing of these unitary events can account for the time course of macroscopic synaptic plasticity.

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ER -

Graded bidirectional synaptic plasticity is composed of switch-like unitary events

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