Functional consequences of pre- and postsynaptic expression of synaptic plasticity

Growing experimental evidence shows that both homeostatic and Hebbian synaptic plasticity can be expressed presynaptically as well as postsynaptically. In this review, we start by discussing this evidence and methods used to determine expression loci. Next, we discuss the functional consequences of...

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Published inPhilosophical transactions of the Royal Society of London. Series B. Biological sciences Vol. 372; no. 1715; p. 20160153
Main Authors Costa, Rui Ponte, Mizusaki, Beatriz E. P., Sjöström, P. Jesper, van Rossum, Mark C. W.
Format Journal Article
LanguageEnglish
Published England The Royal Society 05.03.2017
The Royal Society Publishing
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Abstract Growing experimental evidence shows that both homeostatic and Hebbian synaptic plasticity can be expressed presynaptically as well as postsynaptically. In this review, we start by discussing this evidence and methods used to determine expression loci. Next, we discuss the functional consequences of this diversity in pre- and postsynaptic expression of both homeostatic and Hebbian synaptic plasticity. In particular, we explore the functional consequences of a biologically tuned model of pre- and postsynaptically expressed spike-timing-dependent plasticity complemented with postsynaptic homeostatic control. The pre- and postsynaptic expression in this model predicts (i) more reliable receptive fields and sensory perception, (ii) rapid recovery of forgotten information (memory savings), and (iii) reduced response latencies, compared with a model with postsynaptic expression only. Finally, we discuss open questions that will require a considerable research effort to better elucidate how the specific locus of expression of homeostatic and Hebbian plasticity alters synaptic and network computations. This article is part of the themed issue ‘Integrating Hebbian and homeostatic plasticity’.
AbstractList Growing experimental evidence shows that both homeostatic and Hebbian synaptic plasticity can be expressed presynaptically as well as postsynaptically. In this review, we start by discussing this evidence and methods used to determine expression loci. Next, we discuss the functional consequences of this diversity in pre- and postsynaptic expression of both homeostatic and Hebbian synaptic plasticity. In particular, we explore the functional consequences of a biologically tuned model of pre- and postsynaptically expressed spike-timing-dependent plasticity complemented with postsynaptic homeostatic control. The pre- and postsynaptic expression in this model predicts (i) more reliable receptive fields and sensory perception, (ii) rapid recovery of forgotten information (memory savings), and (iii) reduced response latencies, compared with a model with postsynaptic expression only. Finally, we discuss open questions that will require a considerable research effort to better elucidate how the specific locus of expression of homeostatic and Hebbian plasticity alters synaptic and network computations.This article is part of the themed issue ‘Integrating Hebbian and homeostatic plasticity’.
Growing experimental evidence shows that both homeostatic and Hebbian synaptic plasticity can be expressed presynaptically as well as postsynaptically. In this review, we start by discussing this evidence and methods used to determine expression loci. Next, we discuss the functional consequences of this diversity in pre- and postsynaptic expression of both homeostatic and Hebbian synaptic plasticity. In particular, we explore the functional consequences of a biologically tuned model of pre- and postsynaptically expressed spike-timing-dependent plasticity complemented with postsynaptic homeostatic control. The pre- and postsynaptic expression in this model predicts (i) more reliable receptive fields and sensory perception, (ii) rapid recovery of forgotten information (memory savings), and (iii) reduced response latencies, compared with a model with postsynaptic expression only. Finally, we discuss open questions that will require a considerable research effort to better elucidate how the specific locus of expression of homeostatic and Hebbian plasticity alters synaptic and network computations. This article is part of the themed issue ‘Integrating Hebbian and homeostatic plasticity’.
Author Mizusaki, Beatriz E. P.
Sjöström, P. Jesper
Costa, Rui Ponte
van Rossum, Mark C. W.
AuthorAffiliation 3 Instituto de Física , Universidade Federal do Rio Grande do Sul , Porto Alegre , Brazil
1 Institute for Adaptive and Neural Computation , School of Informatics University of Edinburgh , Edinburgh , UK
4 Centre for Research in Neuroscience, Department of Neurology and Neurosurgery, Program for Brain Repair and Integrative Neuroscience , The Research Institute of the McGill University Health Centre, McGill University , Montreal, Quebec , Canada
2 Centre for Neural Circuits and Behaviour , University of Oxford , Oxford , UK
AuthorAffiliation_xml – name: 1 Institute for Adaptive and Neural Computation , School of Informatics University of Edinburgh , Edinburgh , UK
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– name: 4 Centre for Research in Neuroscience, Department of Neurology and Neurosurgery, Program for Brain Repair and Integrative Neuroscience , The Research Institute of the McGill University Health Centre, McGill University , Montreal, Quebec , Canada
– name: 3 Instituto de Física , Universidade Federal do Rio Grande do Sul , Porto Alegre , Brazil
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  givenname: Rui Ponte
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  surname: Costa
  fullname: Costa, Rui Ponte
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  givenname: Beatriz E. P.
  surname: Mizusaki
  fullname: Mizusaki, Beatriz E. P.
  organization: Instituto de Física, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil; Centre for Research in Neuroscience, Department of Neurology and Neurosurgery, Program for Brain Repair and Integrative Neuroscience, The Research Institute of the McGill University Health Centre, McGill University, Montreal, Quebec, Canada
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  givenname: P. Jesper
  orcidid: 0000-0001-7085-2223
  surname: Sjöström
  fullname: Sjöström, P. Jesper
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  givenname: Mark C. W.
  orcidid: 0000-0001-6525-6814
  surname: van Rossum
  fullname: van Rossum, Mark C. W.
  email: mvanross@inf.ed.ac.uk
  organization: Institute for Adaptive and Neural Computation, School of Informatics University of Edinburgh, Edinburgh, UK
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Issue 1715
Keywords synaptic release
synaptic plasticity
Hebbian plasticity
spike-timing-dependent plasticity
homoeostatic plasticity
long-term potentiation
Language English
License open-access: Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.
2017 The Authors.
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Notes Discussion meeting issue ‘Integrating Hebbian and homeostatic plasticity’ organized and edited by Kevin Fox and Michael Stryker
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One contribution of 16 to a discussion meeting issue ‘Integrating Hebbian and homeostatic plasticity’.
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Snippet Growing experimental evidence shows that both homeostatic and Hebbian synaptic plasticity can be expressed presynaptically as well as postsynaptically. In this...
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SubjectTerms Animals
Functional plasticity
Hebbian Plasticity
Homeostasis
Homeostatic plasticity
Homoeostatic Plasticity
Humans
Loci
Long-Term Potentiation
Memory
Models, Neurological
Neuronal Plasticity
Plasticity
Reaction Time
Review
Sensation
Sensory perception
Spike-Timing-Dependent Plasticity
Synaptic Plasticity
Synaptic Release
Title Functional consequences of pre- and postsynaptic expression of synaptic plasticity
URI https://royalsocietypublishing.org/doi/full/10.1098/rstb.2016.0153
https://www.ncbi.nlm.nih.gov/pubmed/28093547
https://www.proquest.com/docview/1983891277
https://search.proquest.com/docview/1861557617
https://search.proquest.com/docview/1868317098
https://pubmed.ncbi.nlm.nih.gov/PMC5247585
Volume 372
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