Reciprocal Modulation Between Amyloid Precursor Protein and Synaptic Membrane Cholesterol Revealed By Live Cell Imaging

Abstract

SummaryThe amyloid precursor protein (APP) has been extensively studied because of its association with Alzheimer’s disease (AD). However, APP distribution across different subcellular membrane compartments and its function in neurons remains unclear. We generated an APP fusion protein with a pH-sensitive green fluorescent protein at its ectodomain and a pH-insensitive blue fluorescent protein at its cytosolic domain and used it to measure APP’s distribution, subcellular trafficking and cleavage in live neurons. This reporter, closely resembling endogenous APP, revealed only a limited correlation between synaptic activities and APP trafficking. However, the synaptic surface distribution of APP was inversely correlated to membrane cholesterol levels, a phenomenon that involves APP’s cholesterol-binding site. Mutations within this site not only altered surface APP and cholesterol levels in a dominant negative manner, but also increased synaptic vulnerability to moderate membrane cholesterol reduction. Our results reveal reciprocal modulation of APP and membrane cholesterol levels at synaptic boutons.