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Two distinct mechanisms for experience-dependent homeostasis
Two distinct mechanisms for experience-dependent homeostasis
by Bridi, Michelle C D , Se-Young, Choi , Lee, Hey-Kyoung , Kirkwood, Alfredo , Hong, Su Z , de Pasquale, Roberto , Borrell, Andrew , Gu, Yu , Dykman, Andrew , Tran, Trinh , He, Kaiwen , Lantz, Crystal L , Quinlan, Elizabeth M
in Binocular vision / Cortex / Firing rate / Glutamic acid receptors (ionotropic) / Hebbian plasticity / Homeostasis / N-Methyl-D-aspartic acid receptors / Plasticity / Receptors / Scaling / Sensory deprivation / Synaptic plasticity / Synaptic strength / Visual deprivation / Visual plasticity / Visual thresholds
2018
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Two distinct mechanisms for experience-dependent homeostasis
by Bridi, Michelle C D , Se-Young, Choi , Lee, Hey-Kyoung , Kirkwood, Alfredo , Hong, Su Z , de Pasquale, Roberto , Borrell, Andrew , Gu, Yu , Dykman, Andrew , Tran, Trinh , He, Kaiwen , Lantz, Crystal L , Quinlan, Elizabeth M
in Binocular vision / Cortex / Firing rate / Glutamic acid receptors (ionotropic) / Hebbian plasticity / Homeostasis / N-Methyl-D-aspartic acid receptors / Plasticity / Receptors / Scaling / Sensory deprivation / Synaptic plasticity / Synaptic strength / Visual deprivation / Visual plasticity / Visual thresholds
2018
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Two distinct mechanisms for experience-dependent homeostasis
Two distinct mechanisms for experience-dependent homeostasis
by Bridi, Michelle C D , Se-Young, Choi , Lee, Hey-Kyoung , Kirkwood, Alfredo , Hong, Su Z , de Pasquale, Roberto , Borrell, Andrew , Gu, Yu , Dykman, Andrew , Tran, Trinh , He, Kaiwen , Lantz, Crystal L , Quinlan, Elizabeth M
in Binocular vision / Cortex / Firing rate / Glutamic acid receptors (ionotropic) / Hebbian plasticity / Homeostasis / N-Methyl-D-aspartic acid receptors / Plasticity / Receptors / Scaling / Sensory deprivation / Synaptic plasticity / Synaptic strength / Visual deprivation / Visual plasticity / Visual thresholds
2018

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Two distinct mechanisms for experience-dependent homeostasis
Two distinct mechanisms for experience-dependent homeostasis
Journal Article

Two distinct mechanisms for experience-dependent homeostasis

Bridi, Michelle C D,
Se-Young, Choi,
Lee, Hey-Kyoung,
Kirkwood, Alfredo,
Hong, Su Z,
de Pasquale, Roberto,
Borrell, Andrew,
Gu, Yu,
Dykman, Andrew,
Tran, Trinh,
He, Kaiwen,
Lantz, Crystal L,
Quinlan, Elizabeth M
2018
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Overview
Models of firing rate homeostasis such as synaptic scaling and the sliding synaptic plasticity modification threshold predict that decreasing neuronal activity (for example, by sensory deprivation) will enhance synaptic function. Manipulations of cortical activity during two forms of visual deprivation, dark exposure (DE) and binocular lid suture, revealed that, contrary to expectations, spontaneous firing in conjunction with loss of visual input is necessary to lower the threshold for Hebbian plasticity and increase miniature excitatory postsynaptic current (mEPSC) amplitude. Blocking activation of GluN2B receptors, which are upregulated by DE, also prevented the increase in mEPSC amplitude, suggesting that DE potentiates mEPSCs primarily through a Hebbian mechanism, not through synaptic scaling. Nevertheless, NMDA-receptor-independent changes in mEPSC amplitude consistent with synaptic scaling could be induced by extreme reductions of activity. Therefore, two distinct mechanisms operate within different ranges of neuronal activity to homeostatically regulate synaptic strength.
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Publisher
Nature Publishing Group
Subject

Binocular vision

/ Cortex

/ Firing rate

/ Glutamic acid receptors (ionotropic)

/ Hebbian plasticity

/ Homeostasis

/ N-Methyl-D-aspartic acid receptors

/ Plasticity

/ Receptors

/ Scaling

/ Sensory deprivation

/ Synaptic plasticity

/ Synaptic strength

/ Visual deprivation

/ Visual plasticity

/ Visual thresholds

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