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Na,K-ATPase activity regulates AMPA receptor turnover through proteasome-mediated proteolysis.


ABSTRACT: Neuronal activity largely depends on two key components on the membrane: the Na,K-ATPase (NKA) that maintains the ion gradients and sets the foundation of excitability, and the ionotropic glutamatergic AMPA receptors (AMPARs) through which sodium influx forms the driving force for excitation. Because the frequent sodium transients from glutamate receptor activity need to be efficiently extruded, a functional coupling between NKA and AMPARs should be a necessary cellular device for synapse physiology. We show that NKA is enriched at synapses and associates with AMPARs. NKA dysfunction induces a rapid reduction in AMPAR cell-surface expression as well as total protein abundance, leading to a long-lasting depression in synaptic transmission. AMPAR proteolysis requires sodium influx, proteasomal activity and receptor internalization. These data elucidate a novel mechanism by which NKA regulates AMPAR turnover and thereby synaptic strength and brain function.

SUBMITTER: Zhang D 

PROVIDER: S-EPMC2680442 | biostudies-literature | 2009 Apr

REPOSITORIES: biostudies-literature

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Na,K-ATPase activity regulates AMPA receptor turnover through proteasome-mediated proteolysis.

Zhang Dawei D   Hou Qingming Q   Wang Min M   Lin Amy A   Jarzylo Larissa L   Navis Allison A   Raissi Aram A   Liu Fang F   Man Heng-Ye HY  

The Journal of neuroscience : the official journal of the Society for Neuroscience 20090401 14


Neuronal activity largely depends on two key components on the membrane: the Na,K-ATPase (NKA) that maintains the ion gradients and sets the foundation of excitability, and the ionotropic glutamatergic AMPA receptors (AMPARs) through which sodium influx forms the driving force for excitation. Because the frequent sodium transients from glutamate receptor activity need to be efficiently extruded, a functional coupling between NKA and AMPARs should be a necessary cellular device for synapse physio  ...[more]

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