Transfer-NMR and docking studies identify the binding of the peptide derived from activating transcription factor 4 to protein ubiquitin ligase beta-TrCP. Competition STD-NMR with beta-catenin

Abstract

ATF4 plays a crucial role in the cellular response to stress. The E3 ubiquitin ligase, SCF beta-TrCP protein responsible for ATF4 degradation by the proteasome, binds to ATF4 through a DpSGXXXpS phosphorylation motif, which is similar but not identical to the DpSGXXpS motif found in most other substrates of beta-TrCP. NMR studies were performed on the free and bound forms of a peptide derived from this ATF4 motif that enabled the elucidation of the conformation of the ligand complexed to the beta-TrCP protein and its binding mode. Saturation transfer difference (STD) NMR allowed the study of competition for binding to beta-TrCP, between the phosphorylation motifs of ATF4 and beta-catenin, to characterize the ATF4 binding epitope. Docking protocols were performed using the crystal structure of the beta-catenin-beta-TrCP complex as a template and NMR results of the ATF4-beta-TrCP complex. In agreement with the STD results, in order to bind to beta-TrCP, the ATF4 DpSGIXXpSXE motif required the association of two negatively charged areas, in addition to the hydrophobic interaction in the beta-TrCP central channel. Docking studies showed that the ATF4 DpSGIXXpSXE motif fits the binding pocket of beta-TrCP through an S-turning conformation. The distance between the two phosphate groups is 17.8 A, which matched the corresponding distance 17.1 A for the other extended DpSGXXpS motif in the beta-TrCP receptor model. This study identifies the residues of the beta-TrCP receptor involved in ligand recognition. Using a new concept of STD competition experiment, we show that ATF4 competes and inhibits binding of beta-catenin to beta-TrCP.