Literature DB >> 25451194

PKA-GluA1 coupling via AKAP5 controls AMPA receptor phosphorylation and cell-surface targeting during bidirectional homeostatic plasticity.

Graham H Diering1, Ahleah S Gustina1, Richard L Huganir2.   

Abstract

Bidirectional synaptic plasticity occurs locally at individual synapses during long-term potentiation (LTP) or long-term depression (LTD), or globally during homeostatic scaling. LTP, LTD, and homeostatic scaling alter synaptic strength through changes in postsynaptic AMPA-type glutamate receptors (AMPARs), suggesting the existence of overlapping molecular mechanisms. Phosphorylation controls AMPAR trafficking during LTP/LTD. We addressed the role of AMPAR phosphorylation during homeostatic scaling. We observed bidirectional changes of the levels of phosphorylated GluA1 S845 during scaling, resulting from a loss of protein kinase A (PKA) from synapses during scaling down and enhanced activity of PKA in synapses during scaling up. Increased phosphorylation of S845 drove scaling up, while a knockin mutation of S845, or knockdown of the scaffold AKAP5, blocked scaling up. Finally, we show that AMPARs scale differentially based on their phosphorylation status at S845. These results show that rearrangement in PKA signaling controls AMPAR phosphorylation and surface targeting during homeostatic plasticity.
Copyright © 2014 Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25451194      PMCID: PMC4254581          DOI: 10.1016/j.neuron.2014.09.024

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  49 in total

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Review 5.  The self-tuning neuron: synaptic scaling of excitatory synapses.

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6.  Mutations in AKAP5 disrupt dendritic signaling complexes and lead to electrophysiological and behavioral phenotypes in mice.

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  71 in total

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Review 2.  Homeostatic synaptic plasticity as a metaplasticity mechanism - a molecular and cellular perspective.

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3.  Homer1a drives homeostatic scaling-down of excitatory synapses during sleep.

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4.  Ultrastructural evidence for synaptic scaling across the wake/sleep cycle.

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5.  Tyrosine phosphorylation of the AMPA receptor subunit GluA2 gates homeostatic synaptic plasticity.

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6.  Activity-dependent synaptic GRIP1 accumulation drives synaptic scaling up in response to action potential blockade.

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7.  Regulation of AMPA receptor phosphorylation by the neuropeptide PACAP38.

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8.  PSD-95 binding dynamically regulates NLGN1 trafficking and function.

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9.  Cell-Specific PKM Isoforms Contribute to the Maintenance of Different Forms of Persistent Long-Term Synaptic Plasticity.

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Review 10.  The AMPA Receptor Code of Synaptic Plasticity.

Authors:  Graham H Diering; Richard L Huganir
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