Abstract
Lipids modulate the function of many ion channels, possibly through direct lipid-protein interactions. The recent outpouring of ion channel structures by cryo-EM has revealed many lipid binding sites. Whether these sites mediate lipid modulation of ion channel function is not firmly established in most cases. However, it is intriguing that many of these lipid binding sites are also known sites for other allosteric modulators or drugs, supporting the notion that lipids act as endogenous allosteric modulators through these sites. Here, we review such lipid-drug binding sites, focusing on pentameric ligand-gated ion channels and transient receptor potential channels. Notable examples include sites for phospholipids and sterols that are shared by anesthetics and vanilloids. We discuss some implications of lipid binding at these sites including the possibility that lipids can alter drug potency or that understanding protein-lipid interactions can guide drug design. Structures are only the first step toward understanding the mechanism of lipid modulation at these sites. Looking forward, we identify knowledge gaps in the field and approaches to address them. These include defining the effects of lipids on channel function in reconstituted systems using asymmetric membranes and measuring lipid binding affinities at specific sites using native mass spectrometry, fluorescence binding assays, and computational approaches.
Highlights
Lipids regulate the structure and function of ion channels, which are embedded in complex and dynamic lipid membrane environments
The structure of TRPM8 complexed with PIP2 and the agonist, icilin, demonstrates allosteric coupling between these ligands: high occupancy of icilin in the VSLD inner leaflet site is associated with an upward tilt of the transient receptor potential (TRP) domain and movement of S4 and S5 that enhances interactions between PIP2 and key residues such as R850 in S5 and R997 in the TRP domain (Yin et al, 2019; Figure 8B)
The outer leaflet pore helix/S6 lipid binding site could be the site of action for pregnenolone sulfate (PS) in TRPM3, this remains to be tested and there is no available structure for this channel
Summary
Lipids regulate the structure and function of ion channels, which are embedded in complex and dynamic lipid membrane environments. The structure of TRPM8 complexed with PIP2 and the agonist, icilin, demonstrates allosteric coupling between these ligands: high occupancy of icilin in the VSLD inner leaflet site is associated with an upward tilt of the TRP domain and movement of S4 and S5 that enhances interactions between PIP2 and key residues such as R850 in S5 and R997 in the TRP domain (Yin et al, 2019; Figure 8B) It is not known if this novel site is a PIP2-specific binding site in other TRP channels; multiple TRP channel structures show phospholipid or CHS-like densities at this site including TRPM4 (Autzen et al, 2018; Duan et al, 2018b), TRPC3 (Fan et al, 2018), TRPC4 (Duan et al, 2018a), TRPC5 (Duan et al, 2019), and TRPA1 (Suo et al, 2020). The outer leaflet pore helix/S6 lipid binding site could be the site of action for PS in TRPM3, this remains to be tested and there is no available structure for this channel
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