Abstract
The vesicular acetylcholine transporter (VAChT) has a pivotal role in packaging and transporting acetylcholine for exocytotic release, serving as a vital component of cholinergic neurotransmission. Dysregulation of its function can result in neurological disorders. It also serves as a target for developing radiotracers to quantify cholinergic neuron deficits in neurodegenerative conditions. Here we unveil the cryo-electron microscopy structures of human VAChT in its apo state, the substrate acetylcholine-bound state and the inhibitor vesamicol-bound state. These structures assume a lumen-facing conformation, offering a clear depiction of architecture of VAChT. The acetylcholine-bound structure provides a detailed understanding of how VAChT recognizes its substrate, shedding light on the coupling mechanism of protonation and substrate binding. Meanwhile, the vesamicol-bound structure reveals the binding mode of vesamicol to VAChT, laying the structural foundation for the design of the next generation of radioligands targeting VAChT.
Published Version
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