Allosteric ligands with distinct properties uncover tissue-specific physiological regulation mediated by free fatty acid receptor 2
Natasja Barki, Aisha M. Hassan Abdelmalik, Laura Jenkins, Domonkos Dedeo, Paul Johnson, Daniele Bolognini, Andrew B. Tobin, Graeme MilliganIndividual G protein–coupled receptors (GPCRs) are present on many cell types and regulate multiple physiological responses, making it necessary to design ligands that are selective for the targeted GPCR in a tissue-selective manner. Here, we found ligand-selective effects of the GPCR free fatty acid receptor 2 (FFAR2) mediated through differential activation of G q and G i family proteins in various tissues. These effects were elucidated with ago-allosteric regulators of FFAR2 that bind to overlapping sites (compound 187 and AZ1729) and to a distinct site (4-CMTB) in tissues from mice expressing a hemagglutinin-tagged human FFAR2 DREADD (designer receptor exclusively activated by designer drugs). The G q -activating ligand compound 187 stimulated the release of the gut hormones GLP-1 and PYY from colonic crypts and the secretion of insulin from pancreatic islets, effects that were prevented by the G i -biased ligand AZ1729. Both compound 187 and AZ1729 promoted G i -mediated neutrophil migration in bone marrow and antilipolytic effects in adipose tissue synergistically with an orthosteric DREADD agonist, whereas 4-CMTB was ineffective in both of these tissues. In contrast, 4-CMTB, alone or with the orthosteric agonist, produced G q signaling–dependent effects in colonic crypts and pancreatic islets. These insights into the functional selectivity of allosteric ligands acting on the same GPCR may enable the development of physiologically specific therapeutics.