β-amyloid−driven synaptic depression requires PDZ protein interaction at AMPA-receptor subunit GluA3
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Abstract
Soluble oligomeric amyloid-β (Aβ) is a prime suspect to cause cognitive deficits in Alzheimer’s disease and weakens synapses by removing AMPA-type glutamate receptors (AMPARs). We show that synapses of CA1 pyramidal neurons become vulnerable to Aβ when they express AMPAR subunit GluA3. We found that Aβ-oligomers reduce the levels of GluA3 immobilized at spines, indicating they deplete GluA3-containing AMPARs from synapses. These Aβ-driven effects critically depended on the PDZ-binding motif of GluA3. When GluA3 was expressed with a single amino acid mutation in its PDZ-binding motif that prevents GRIP binding, it did not end up at spines and Aβ failed to trigger synaptic depression. GluA3 with a different point mutation in the PDZ-motif that leaves GRIP-binding intact but prevents its endocytosis, was present at spines in normal amounts but was fully resistant to effects of Aβ. Our data indicate that Aβ-mediated synaptic depression requires the removal of GluA3 from synapses. We propose that GRIP-detachment from GluA3 is a critical early step in the cascade of events through which Aβ accumulation causes a loss of synapse.
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