Litcius/Paper detail

Mechanism of Action of an EPAC1-Selective Competitive Partial Agonist

Hongzhao Shao, Hebatallah Mohamed, Stephen Boulton, Jinfeng Huang, Pingyuan Wang, Haiying Chen, Jia Zhou, Urszula Luchowska-Stańska, Nicholas G. Jentsch, Alison Armstrong, Jakob Magolan, Stephen J. Yarwood, Giuseppe Melacini

2020Journal of Medicinal Chemistry20 citationsDOIOpen Access PDF

Abstract

The exchange protein activated by cAMP (EPAC) is a promising drug target for a wide disease range, from neurodegeneration and infections to cancer and cardiovascular conditions. A novel partial agonist of the EPAC isoform 1 (EPAC1), I942, was recently discovered, but its mechanism of action remains poorly understood. Here, we utilize NMR spectroscopy to map the I942-EPAC1 interactions at atomic resolution and propose a mechanism for I942 partial agonism. We found that I942 interacts with the phosphate binding cassette (PBC) and base binding region (BBR) of EPAC1, similar to cyclic adenosine monophosphate (cAMP). These results not only reveal the molecular basis for the I942 vs cAMP mimicry and competition, but also suggest that the partial agonism of I942 arises from its ability to stabilize an inhibition-incompetent activation intermediate distinct from both active and inactive EPAC1 states. The mechanism of action of I942 may facilitate drug design for EPAC-related diseases.

Topics & Concepts

ChemistryPartial agonistMechanism of actionAgonistAgonismDrug actionFunctional selectivityAdenosineIntrinsic activityMechanism (biology)StereochemistryPharmacologyBiochemistryDrugReceptorIn vitroBiologyPoliticsEpistemologyLawPhilosophyPolitical scienceReceptor Mechanisms and SignalingPhosphodiesterase function and regulationNeuroscience and Neuropharmacology Research