Micael Barnes scite author profile

Cathepsin K is a cysteine protease of the papain family, which is predominantly expressed in osteoclasts, and is regarded as a key protease in bone remodeling. To facilitate structural studies of the protein, the wild-type sequence of the protease has been mutated so as to replace a potential N-glycosylation site. We have expressed the mutant human cathepsin K to 190 mg/5 L using the Pichia pastoris expression system. Cathepsin K was inactivated with the mechanism-based inhibitor, APC3328, and crystallized from magnesium formate. A 2.2 8, X-ray data set has been collected on crystals belonging to space group P 2 1 2~2~. with a = 41.66 A, b = 5 1.41 A, and c = 107.72 A. There is most likely one molecule per asymmetric unit.

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Crystal structure of recombinant human tissue kallikrein at 2.0 Å resolution

Katz

Liu

Barnes

et al. 1998

Protein Science

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Human tissue kallikrein, a trypsin-like serine protease involved in blood pressure regulation and inflammation processes, was expressed in a deglycosylated form at high levels in Pichia pastoris, purified, and crystallized. The crystal structure at 2.0 8, resolution is described and compared with that of porcine kallikrein and of other trypsin-like proteases. The active and S1 sites (nomenclature of Schechter I, Berger A, 1967, Biochem Biophys Res Commun 27:157-162) are similar to those of porcine kallikrein. Compared to trypsin, the S1 site is enlarged owing to the insertion of an additional residue, cis-Pro 219. The replacement Tyr 228 -+ Ala further enlarges the S1 pocket. However, the replacement of Gly 226 in trypsin with Ser in human tissue kallikrein restricts accessibility of substrates and inhibitors to Asp 189 at the base of the SI pocket; there is a hydrogen bond between and These changes in the architecture of the S1 site perturb the binding of inhibitors or substrates from the modes determined or inferred for trypsin. The crystal structure gives insight into the structural differences responsible for changes in specificity in human tissue kallikrein compared with other trypsin-like proteases, and into the structural basis for the unusual specificity of human tissue kallikrein in cleaving both an Arg-Ser and a Met-Lys peptide bond in its natural protein substrate, kininogen. A Zn*'-dependent, small-molecule competitive inhibitor of kallikrein ( K , = 3.3 p M ) has been identified and the bound structure modeled to guide drug design.

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Micael Barnes

Expression of human cathepsin K in Pichia pastoris and preliminary crystallographic studies of an inhibitor complex

Crystal structure of recombinant human tissue kallikrein at 2.0 Å resolution

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