Lipid nanodisc scaffold and size alters the structure of a pentameric ligand-gated ion channel

Lipid nanodiscs have become the standard reconstitution system for structural and biochemical studies of membrane proteins, especially using single particle cryo-EM. We find that reconstitution of the pentameric ligand-gated ion channel (pLGIC), Erwinia ligand-gated ion channel (ELIC), in different nanodisc scaffolds (MSP1E3D1, SMA, saposin, spMSP1D1) produces distinct apo and agonist-bound structures. In the presence of agonist, different nanodiscs scaffolds produce concerted conformational changes associated with activation in ELIC, with larger nanodiscs showing more activated conformations. The effect of different nanodisc scaffolds on ELIC structure extends to the extracellular domain and agonist binding site. Molecular dynamic simulations of ELIC in small and large nanodiscs suggest that the impact of the nanodisc on ELIC structure is influenced by nanodisc size. Overall, the results indicate that the nanodisc profoundly affects the structure of a pLGIC, and suggest that larger circularized nanodiscs may be advantageous to approximate a lipid membrane environment. ### Competing Interest Statement The authors have declared no competing interest.