Natural ligand-nonmimetic inhibitors of the lipid-transfer protein CERT

Lipid transfer proteins mediate inter-organelle transport of membrane lipids at organelle contact sites in cells, playing fundamental roles in the lipidome and membrane biogenesis in eukaryotes. We previously developed a ceramide-mimetic compound as a potent inhibitor of the ceramide transport protein CERT. Here we develop CERT inhibitors with structures unrelated to ceramide. To this aim, we identify a seed compound with no ceramide-like structure but with the capability of forming a hydrogen-bonding network in the ceramide-binding START domain, by virtual screening of ~3 × 10 6 compounds. We also establish a surface plasmon resonance-based system to directly determine the affinity of compounds for the START domain. Then, we subject the seed compound to a series of in silico docking simulations, efficient chemical synthesis, affinity analysis, protein-ligand co-crystallography, and various in vivo assays. This strategy allows us to obtain ceramide-unrelated compounds that potently inhibited the function of CERT in human cultured cells. The ceramide transport protein CERT is of potential therapeutic interest but is typically targeted using ceramide-derived ligands. Here the authors use virtual screening and a quantitative surface plasmon resonance assay to identify ceramide-nonmimetic inhibitors of a CERT subdomain and test their activity in live cells.