Structural basis for lysophosphatidylserine recognition by GPR34

GPR34 is a recently identified G-protein coupled receptor, which has an immunomodulatory role and recognizes lysophosphatidylserine (LysoPS) as a putative ligand. Here, we report cryo-electron microscopy structures of human GPR34-Gi complex bound with either the LysoPS analogue S3E-LysoPS, which contains an ethoxy group at the sn -1 position, or M1, a derivative of S3E-LysoPS in which oleic acid is substituted with a metabolically stable aromatic fatty acid surrogate. In both structures, the ligand-binding pocket is laterally open toward the membrane, allowing lateral entry of lipidic agonists into the cavity. The amine and carboxylate groups of the serine moiety are recognized by the charged residue cluster, and the aromatic fatty acid surrogate of M1 forms stable hydrophobic interactions with the cavity, thus acting as a superagonist. Molecular dynamics simulations further account for the LysoPS-regioselectivity of GPR34. Thus, using a series of structural and physiological experiments, we provide evidence that chemically unstable 2-acyl LysoPS is the physiological ligand for GPR34, suggesting its short signal duration. Overall, we anticipate the present structures will pave the way for development of novel anticancer drugs that specifically target GPR34. ### Competing Interest Statement O.N. is a co-founder and scientific advisor for Curreio. All other authors declare no competing interests.