Secreted Amyloid-Beta Precursor Protein Functions As A Gaba(B)R1a Ligand To Modulate Synaptic Transmission

Amyloid-beta precursor protein (APP) is central to the pathogenesis of Alzheimer's disease, yet its physiological function remains unresolved. Accumulating evidence suggests that APP has a synaptic function mediated by an unidentified receptor for secreted APP (sAPP). Here we show that the sAPP extension domain directly bound the sushi 1 domain specific to the gamma-aminobutyric acid type B receptor subunit 1a (GABA(B)R1a). sAPP-GABA(B)R1a binding suppressed synaptic transmission and enhanced short-term facilitation in mouse hippocampal synapses via inhibition of synaptic vesicle release. A 17-amino acid peptide corresponding to the GABA(B)R1a binding region within APP suppressed in vivo spontaneous neuronal activity in the hippocampus of anesthetized Thy1-GCaMP6s mice. Our findings identify GABA(B)R1a as a synaptic receptor for sAPP and reveal a physiological role for sAPP in regulating GABA(B)R1a function to modulate synaptic transmission.