Examining the Inhibition Mechanism of EPAC

Abstract

A novel partial agonist of the exchange protein activated by cAMP isoform 1 (EPAC1), I942, was recently discovered and shown to reduce the guanine exchange factor activity of cAMP-bound EPAC1 to approximately 10% relative to cAMP activation. However, the inhibition mechanism of I942 remains unknown. Here, we utilize NMR spectroscopy to probe the inhibitory I942 - EPAC1 interactions at atomic resolution. The EPAC1 - I942 interface was mapped through intermolecular NOEs measured by 15N and 13C filtered NOESY-HSQC experiment. Intermolecular NOE mapping combined with other protein NMR methods, such as saturation transfer difference, transfer Nuclear Overhauser Effect spectroscopy and chemical shift mapping, we revealed that I942 interacts with the phosphate binding cassette (PBC) and base binding region (BBR) of the EPAC1 cyclic nucleotide binding (CNB) domain, similar to cAMP. The PBC controls the conformation of the hinge region, and subsequently, allosterically shifts the hinge region between its active/inactive states. Molecular dynamics simulation based on the NMR spectroscopy data revealed that EPAC1-CNB adopts an intermediate conformation between its inactive and active states, which explains the partial agonist nature of I942.