Sali A, Veerapandian B, Cooper J B, Foundling S I, Hoover D J, Blundell T L
Department of Crystallography, Birkbeck College, University of London, UK.
EMBO J. 1989 Aug;8(8):2179-88. doi: 10.1002/j.1460-2075.1989.tb08340.x.
The conformation of the synthetic renin inhibitor CP-69,799, bound to the active site of the fungal aspartic proteinase endothiapepsin (EC 3.4.23.6), has been determined by X-ray diffraction at 1.8 A resolution and refined to the crystallographic R factor of 16%. CP-69,799 is an oligopeptide transition--state analogue inhibitor that contains a new dipeptide isostere at the P1-P1' position. This dipeptide isostere is a nitrogen analogue of the well-explored hydroxyethylene dipeptide isostere, wherein the tetrahedral P1' C alpha atom has been replaced by trigonal nitrogen. The inhibitor binds in the extended conformation, filling S4 to S3' pockets, with hydroxyl group of the P1 residue positioned symmetrically between the two catalytic aspartates of the enzyme. Interactions between the inhibitor and the enzyme include 12 hydrogen bonds and extensive van der Waals contacts in all the pockets, except for S3'. The crystal structure reveals a bifurcated orientation of the P2 histidine side chain and an interesting relative rotation of the P3 phenyl ring to accommodate the cyclohexyl side chain at P1. The binding of the inhibitor to the enzyme, while producing no large distortions in the enzyme active site cleft, results in small but significant change in the relative orientation of the two endothiapepsin domains. This structural change may represent the action effected by the proteinase as it distorts its substrate towards the transition state for proteolytic cleavage.
已通过X射线衍射在1.8埃分辨率下测定了与真菌天冬氨酸蛋白酶内硫霉素(EC 3.4.23.6)活性位点结合的合成肾素抑制剂CP-69,799的构象,并将其精修至晶体学R因子为16%。CP-69,799是一种寡肽过渡态类似物抑制剂,在P1-P1'位置含有一种新的二肽等排体。这种二肽等排体是经过充分研究的羟乙烯二肽等排体的氮类似物,其中四面体P1' Cα原子已被三角氮取代。抑制剂以伸展构象结合,填充S4至S3'口袋,P1残基的羟基对称地位于酶的两个催化天冬氨酸之间。抑制剂与酶之间的相互作用包括12个氢键以及除S3'口袋外所有口袋中的广泛范德华接触。晶体结构揭示了P2组氨酸侧链的分叉取向以及P3苯环为容纳P1处的环己基侧链而发生的有趣相对旋转。抑制剂与酶的结合虽然在酶活性位点裂隙中未产生大的扭曲,但导致内硫霉素两个结构域的相对取向发生了小而显著的变化。这种结构变化可能代表了蛋白酶在将其底物扭曲成蛋白水解裂解的过渡态时所产生的作用。