RESUMO
BACKGROUND AND PURPOSE: The recently proposed binding mode of 2-aminopyrimidines to the human (h) histamine H4 receptor suggests that the 2-amino group of these ligands interacts with glutamic acid residue E182(5.46) in the transmembrane (TM) helix 5 of this receptor. Interestingly, substituents at the 2-position of this pyrimidine are also in close proximity to the cysteine residue C98(3.36) in TM3. We hypothesized that an ethenyl group at this position will form a covalent bond with C98(3.36) by functioning as a Michael acceptor. A covalent pyrimidine analogue will not only prove this proposed binding mode, but will also provide a valuable tool for H4 receptor research. EXPERIMENTAL APPROACH: We designed and synthesized VUF14480, and pharmacologically characterized this compound in hH4 receptor radioligand binding, G protein activation and ß-arrestin2 recruitment experiments. The ability of VUF14480 to act as a covalent binder was assessed both chemically and pharmacologically. KEY RESULTS: VUF14480 was shown to be a partial agonist of hH4 receptor-mediated G protein signalling and ß-arrestin2 recruitment. VUF14480 bound covalently to the hH4 receptor with submicromolar affinity. Serine substitution of C98(3.36) prevented this covalent interaction. CONCLUSION AND IMPLICATIONS: VUF14480 is thought to bind covalently to the hH4 receptor-C98(3.36) residue and partially induce hH4 receptor-mediated G protein activation and ß-arrestin2 recruitment. Moreover, these observations confirm our previously proposed binding mode of 2-aminopyrimidines. VUF14480 will be a useful tool to stabilize the receptor into an active confirmation and further investigate the structure of the active hH4 receptor.
