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Human <i>O</i>-GlcNAcase Uses a Preactivated Boat-skew Substrate Conformation for Catalysis. Evidence from X-ray Crystallography and QM/MM Metadynamics

Martín Calvelo, Alexandra Males, Matthew G. Alteen, Lianne I. Willems, David J. Vocadlo, G.J. Davies, Carme Rovira

2023ACS Catalysis12 citationsDOIOpen Access PDF

Abstract

Human O -linked β- N -acetylglucosaminidase (hOGA) is one of the two enzymes involved in nuclear and cytoplasmic protein O-GlcNAcylation, an essential post-translational modification. The enzyme catalyzes the hydrolysis of the GlcNAc- O -(Ser/Thr) glycosidic bonds via anchimeric assistance through the 2-acetamido group of the GlcNAc sugar. However, the conformational itinerary of the GlcNAc ring during catalysis remains unclear. Here we report the crystal structure of wild type hOGA in complex with a nonhydrolyzable glycopeptide substrate and elucidate the full enzyme catalytic mechanism using QM/MM metadynamics. We show that the enzyme can bind the substrate in either a chair- or a boat-like conformation, but only the latter is catalytically competent, leading to the reaction products via 1,4 B / 1 S 3 → [ 4 E ] ‡ → 4 C 1 and 4 C 1 → [ 4 E ] ‡ → 1,4 B / 1 S 3 conformational itineraries for the first and second catalytic reaction steps, respectively. Our results reconcile previous experimental observations for human and bacterial OGA and will aid the development of more effective OGA inhibitors for diseases associated with impaired O -GlcNAcylation.

Topics & Concepts

ChemistryMetadynamicsGlycosidic bondStereochemistrySubstrate (aquarium)QM/MMCatalysisActive siteEnzymeProtein structureBiochemistryMolecular dynamicsComputational chemistryBiologyEcologyGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and SynthesisGalectins and Cancer Biology