Suppr超能文献

精制的2.3A 牛凝血酶与基于苯甲脒和精氨酸的凝血酶抑制剂NAPAP、4-TAPAP和MQPA形成的X射线晶体结构。改进抗血栓药物的起点。

Refined 2.3 A X-ray crystal structure of bovine thrombin complexes formed with the benzamidine and arginine-based thrombin inhibitors NAPAP, 4-TAPAP and MQPA. A starting point for improving antithrombotics.

作者信息

Brandstetter H, Turk D, Hoeffken H W, Grosse D, Stürzebecher J, Martin P D, Edwards B F, Bode W

机构信息

Max-Planck-Institut für Biochemie, Martinsried, Germany.

出版信息

J Mol Biol. 1992 Aug 20;226(4):1085-99. doi: 10.1016/0022-2836(92)91054-s.

Abstract

Well-diffracting crystals of bovine epsilon-thrombin in complex with several "non-peptidic" benzamidine and arginine-based thrombin inhibitors have been obtained by co-crystallization. The 2.3 A crystal structures of three complexes formed either with NAPAP, 4-TAPAP, or MQPA, were solved by Patterson search methods and refined to crystallographic R-values of 0.167 to 0.178. The active-site environment of thrombin is only slightly affected by binding of the different inhibitors; in particular, the exposed "60-insertion loop" essentially maintains its typical projecting structure. The D-stereoisomer of NAPAP and the L-stereoisomer of MQPA bind to thrombin with very similar conformations, as previously inferred from their binding to bovine trypsin; the arginine side-chain of the latter inserts into the specificity pocket in a "non-canonical" manner. The L-stereoisomer of 4-TAPAP, whose binding geometry towards trypsin was only poorly defined, is bound to the thrombin active-site in a compact conformation. In contrast to NAPAP, the distal p-amidino/guanidino groups of 4-TAPAP and MQPA do not interact with the carboxylate group of Asp189 in the thrombin specificity pocket in a "symmetrical" twin N-twin O manner, but through "lateral" single N-twin O contacts; in contrast to the p-amidino group of 4-TAPAP, however, the guanidyl group of MQPA packs favourably in the pocket due to an elaborate hydrogen bond network, which includes two entrapped water molecules. These thrombin structures confirm previous conclusions of the important role of the intermolecular hydrogen bonds formed with Gly216, and of the good sterical fit of the terminal bulky hydrophobic inhibitor groups with the hydrophobic aryl binding site and the S2-cavity, respectively, for tight thrombin active site binding of these non-peptidic inhibitors. These accurate crystal structures are presumed to be excellent starting points for the design and the elaboration of improved antithrombotics.

摘要

通过共结晶法获得了与几种“非肽类”苯甲脒和基于精氨酸的凝血酶抑制剂复合的牛ε-凝血酶的衍射良好的晶体。通过帕特森搜索法解析了与NAPAP、4-TAPAP或MQPA形成的三种复合物的2.3埃晶体结构,并将其精修至晶体学R值为0.167至0.178。不同抑制剂的结合对凝血酶的活性位点环境影响较小;特别是,暴露的“60插入环”基本上保持其典型的突出结构。NAPAP的D-立体异构体和MQPA的L-立体异构体以非常相似的构象与凝血酶结合,正如先前从它们与牛胰蛋白酶的结合中推断的那样;后者的精氨酸侧链以“非典型”方式插入特异性口袋。4-TAPAP的L-立体异构体,其对胰蛋白酶的结合几何形状定义不明确,以紧密构象结合到凝血酶活性位点。与NAPAP不同,4-TAPAP和MQPA的远端对氨基脒基/胍基不以“对称”的双N-双O方式与凝血酶特异性口袋中的Asp189羧基相互作用,而是通过“侧向”单N-双O接触;然而,与4-TAPAP的对氨基脒基不同,由于精心设计的氢键网络,包括两个截留的水分子,MQPA的胍基在口袋中堆积良好。这些凝血酶结构证实了先前关于与Gly216形成的分子间氢键的重要作用以及末端庞大的疏水抑制剂基团分别与疏水芳基结合位点和S2腔良好的空间契合对于这些非肽类抑制剂紧密结合凝血酶活性位点的结论。这些精确的晶体结构被认为是设计和开发改进的抗血栓药物的极佳起点。

文献AI研究员

20分钟写一篇综述,助力文献阅读效率提升50倍。

立即体验

用中文搜PubMed

大模型驱动的PubMed中文搜索引擎

马上搜索

文档翻译

学术文献翻译模型,支持多种主流文档格式。

立即体验