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1GHV

A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE

1GHV の概要
エントリーDOI10.2210/pdb1ghv/pdb
関連するPDBエントリー1C5N
分子名称THROMBIN, ACETYL HIRUDIN, SODIUM ION, ... (6 entities in total)
機能のキーワードthree-centered, very short hydrogen bond, oxyanion hole water, shift of pka of his57, structure-based drug design, specificity, urokinase, trypsin, thrombin, zn+2-mediated inhibition, blood clotting, hydrolase-hydrolase inhibitor complex, hydrolase/hydrolase inhibitor
由来する生物種Homo sapiens (human)
詳細
細胞内の位置Secreted, extracellular space: P00734 P00734
Secreted: P28504
タンパク質・核酸の鎖数3
化学式量合計35459.37
構造登録者
主引用文献Katz, B.A.,Elrod, K.,Luong, C.,Rice, M.J.,Mackman, R.L.,Sprengeler, P.A.,Spencer, J.,Hataye, J.,Janc, J.,Link, J.,Litvak, J.,Rai, R.,Rice, K.,Sideris, S.,Verner, E.,Young, W.
A novel serine protease inhibition motif involving a multi-centered short hydrogen bonding network at the active site.
J.Mol.Biol., 307:1451-1486, 2001
Cited by
PubMed Abstract: We describe a new serine protease inhibition motif in which binding is mediated by a cluster of very short hydrogen bonds (<2.3 A) at the active site. This protease-inhibitor binding paradigm is observed at high resolution in a large set of crystal structures of trypsin, thrombin, and urokinase-type plasminogen activator (uPA) bound with a series of small molecule inhibitors (2-(2-phenol)indoles and 2-(2-phenol)benzimidazoles). In each complex there are eight enzyme-inhibitor or enzyme-water-inhibitor hydrogen bonds at the active site, three of which are very short. These short hydrogen bonds connect a triangle of oxygen atoms comprising O(gamma)(Ser195), a water molecule co-bound in the oxyanion hole (H(2)O(oxy)), and the phenolate oxygen atom of the inhibitor (O6'). Two of the other hydrogen bonds between the inhibitor and active site of the trypsin and uPA complexes become short in the thrombin counterparts, extending the three-centered short hydrogen-bonding array into a tetrahedral array of atoms (three oxygen and one nitrogen) involved in short hydrogen bonds. In the uPA complexes, the extensive hydrogen-bonding interactions at the active site prevent the inhibitor S1 amidine from forming direct hydrogen bonds with Asp189 because the S1 site is deeper in uPA than in trypsin or thrombin. Ionization equilibria at the active site associated with inhibitor binding are probed through determination and comparison of structures over a wide range of pH (3.5 to 11.4) of thrombin complexes and of trypsin complexes in three different crystal forms. The high-pH trypsin-inhibitor structures suggest that His57 is protonated at pH values as high as 9.5. The pH-dependent inhibition of trypsin, thrombin, uPA and factor Xa by 2-(2-phenol)benzimidazole analogs in which the pK(a) of the phenol group is modulated is shown to be consistent with a binding process involving ionization of both the inhibitor and the enzyme. These data further suggest that the pK(a) of His57 of each protease in the unbound state in solution is about the same, approximately 6.8. By comparing inhibition constants (K(i) values), inhibitor solubilities, inhibitor conformational energies and corresponding structures of short and normal hydrogen bond-mediated complexes, we have estimated the contribution of the short hydrogen bond networks to inhibitor affinity ( approximately 1.7 kcal/mol). The structures and K(i) values associated with the short hydrogen-bonding motif are compared with those corresponding to an alternate, Zn(2+)-mediated inhibition motif at the active site. Structural differences among apo-enzymes, enzyme-inhibitor and enzyme-inhibitor-Zn(2+) complexes are discussed in the context of affinity determinants, selectivity development, and structure-based inhibitor design.
PubMed: 11292354
DOI: 10.1006/jmbi.2001.4516
主引用文献が同じPDBエントリー
実験手法
X-RAY DIFFRACTION (1.85 Å)
構造検証レポート
Validation report summary of 1ghv
検証レポート(詳細版)ダウンロードをダウンロード

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件を2024-10-30に公開中

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