Synthesis and pharmacological characterization of novel inverse agonists acting on the viral-encoded chemokine receptor US28

G-protein coupled receptors encoded by viruses represent an unexplored class of potential drug targets. In this study, we describe the synthesis and pharmacological characterization of the first class of inverse agonists acting on the HCMV-encoded receptor US28. It is shown that replacement of the 4-hydroxy group of lead compound 1 with a methylamine group results in a significant 6-fold increase in affinity. Interestingly, increasing the rigidity of the spacer by the introduction of a double bond also leads to a significant increase in binding affinity compared to 1. These novel inverse agonists serve as valuable tools to elucidate the role of constitutive signaling in the pathogenesis of viral infection and may have therapeutic potential as leads for new antiviral drugs.

The synthesis and structure–activity relationships of a new series of nonpeptidergic molecules acting as inverse agonists on the viral-encoded GPCR US28 are described. Our studies resulted in the identification of compound 50, which is the highest affinity inverse agonist for US28 described in the literature.Figure optionsDownload as PowerPoint slide