Activation Dynamics of Ubiquitin Specific Protease 7

Abstract

ABSTRACTUbiquitin-specific protease 7 (USP7) is a deubiquitinating enzyme responsible for the regulation of key human oncoproteins and tumor suppressors including Mdm2 and p53, respectively. Unlike other members of the USP family of proteases, the isolated catalytic domain of USP7 adopts an enzymatically inactive conformation that has been well characterized using X-ray crystallography. The catalytic domain also samples an active conformation, which has only been captured upon USP7 substrate-binding. Here, we utilized CPMG NMR relaxation dispersion studies to observe the dynamic motions of USP7 in solution. Our results reveal that the catalytic domain of USP7 exchanges between two distinct conformations, the inactive conformation populated at 95% and the active conformation at 5%. The largest structural changes are localized within functionally important regions of the enzyme including the active site, the ubiquitin-binding fingers, and the allosteric helix of the enzyme, suggesting that USP7 can adopt its active conformation in the absence of a substrate. Furthermore, we show that the allosteric L299A activating mutation disturbs this equilibrium, slows down the exchange, and increases the residence time of USP7 in its active conformation, thus, explaining the elevated activity of the mutant. Overall, this work shows that the isolated USP7 catalytic domain pre-samples its “invisible” active conformation in solution, which may contribute to its activation mechanism.