The inhibition of DPP-IV by saxagliptin has been proposed to occur through formation of a covalent but reversible complex. To evaluate further the mechanism of inhibition, we determined the X-ray crystal structure of the DPP-IV:saxagliptin complex. This structure reveals covalent attachment between S630 and the inhibitor nitrile carbon (C-O distance <1.3 Å ). To investigate whether this serine addition is assisted by the catalytic His-Asp dyad, we generated two mutants of DPP-IV, S630A and H740Q, and assayed them for ability to bind inhibitor. DPP-IV H740Q bound saxagliptin with an ;1000-fold reduction in affinity relative to DPP-IV WT , while DPP-IV S630A showed no evidence for binding inhibitor. An analog of saxagliptin lacking the nitrile group showed unchanged binding properties to the both mutant proteins, highlighting the essential role S630 and H740 play in covalent bond formation between S630 and saxagliptin. Further supporting mechanism-based inhibition by saxagliptin, NMR spectra of enzyme-saxagliptin complexes revealed the presence of three downfield resonances with low fractionation factors characteristic of short and strong hydrogen bonds (SSHB). Comparison of the NMR spectra of various wild-type and mutant DPP-IV:ligand complexes enabled assignment of a resonance at ;14 ppm to H740. Two additional DPP-IV mutants, Y547F and Y547Q, generated to probe potential stabilization of the enzyme-inhibitor complex by this residue, did not show any differences in inhibitor binding either by ITC or NMR. Together with the previously published enzymatic data, the structural and binding data presented here strongly support a histidine-assisted covalent bond formation between S630 hydroxyl oxygen and the nitrile group of saxagliptin.Keywords: DPP-IV; X-ray crystal structure; mutant; ITC; proton NMR; short, strong hydrogen bond; serine protease; saxagliptin Dipeptidyl peptidase IV is a serine protease that modulates the biological activity of specific circulating peptide hormones, chemokines, cytokines, and neuropeptides Abbreviations: ANS, 1-anilino-8-naphthalene sulfonate; DPP-IV, dipeptidyl peptidase IV; GLP-1, glucagon-like peptide-1; ITC, isothermal titration calorimetry; pNA, p-nitroaniline; P n -P n9 , amino acid residues of the substrate which numerically indicate the position relatively to the scissile bond, n being the residues toward the N terminus and n9 being the residues toward the C terminus (this nomenclature was first defined by Schechter and Berger [1967]); SEC-MALS, size-exclusion chromatography-multiple angle light scattering; SKIE, solvent kinetic isotope effect; SSHB, short strong hydrogen bond; SIHB, short ionic hydrogen bond; TSE, thermal stability enhancement.Article and publication are at http://www.proteinscience.org/cgi
