NMDAR-dependent long-term depression is associated with increased short term plasticity through autophagy mediated loss of PSD-95

Author:

Compans BenjaminORCID,Camus ComeORCID,Kallergi Emmanouela,Sposini Silvia,Martineau Magalie,Butler CoreyORCID,Kechkar Adel,Klaassen Remco V.,Retailleau Natacha,Sejnowski Terrence J.,Smit August B.ORCID,Sibarita Jean-BaptisteORCID,Bartol Thomas M.,Perrais DavidORCID,Nikoletopoulou Vassiliki,Choquet DanielORCID,Hosy EricORCID

Abstract

AbstractLong-term depression (LTD) of synaptic strength can take multiple forms and contribute to circuit remodeling, memory encoding or erasure. The generic term LTD encompasses various induction pathways, including activation of NMDA, mGlu or P2X receptors. However, the associated specific molecular mechanisms and effects on synaptic physiology are still unclear. We here compare how NMDAR- or P2XR-dependent LTD affect synaptic nanoscale organization and function in rodents. While both LTDs are associated with a loss and reorganization of synaptic AMPARs, only NMDAR-dependent LTD induction triggers a profound reorganization of PSD-95. This modification, which requires the autophagy machinery to remove the T19-phosphorylated form of PSD-95 from synapses, leads to an increase in AMPAR surface mobility. We demonstrate that these post-synaptic changes that occur specifically during NMDAR-dependent LTD result in an increased short-term plasticity improving neuronal responsiveness of depressed synapses. Our results establish that P2XR- and NMDAR-mediated LTD are associated to functionally distinct forms of LTD.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

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