Lysosomal accumulation of cholesterol is a hallmark of Niemann Pick type C (NPC) disease caused by mutations primarily in the lysosomal membrane protein NPC1. NPC1 contains a transmembrane sterol sensing domain (SSD), which is supposed to regulate protein activity upon cholesterol binding, but the mechanisms underlying this process are poorly understood. Using atomistic simulations, we show that the binding of cholesterol to the SSD of NPC1 suppresses conformational dynamics of the luminal domains which otherwise bring the luminal N-terminal domain (NTD) closer to the lipid bilayer. The presence of an additional 20% membrane cholesterol has negligible impact on this process. We propose that cholesterol acts as an allosteric effector, and the modulation of NTD dynamics by the SSD-bound cholesterol constitutes an allosteric feedback mechanism in NPC1 which controls cholesterol abundance in the lysosomal membrane.
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