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本文引用的文献

1
Substitution of valine for leucine 305 in factor VIIa increases the intrinsic enzymatic activity.
J Biol Chem. 2001 Aug 3;276(31):29195-9. doi: 10.1074/jbc.M102187200. Epub 2001 Jun 1.
2
Factor VIIa modified in the 170 loop shows enhanced catalytic activity but does not change the zymogen-like property.在170环中修饰的凝血因子VIIa显示出增强的催化活性,但不改变类酶原特性。
J Biol Chem. 2001 May 18;276(20):17229-35. doi: 10.1074/jbc.M009206200. Epub 2001 Feb 2.
3
Substitution of aspartic acid for methionine-306 in factor VIIa abolishes the allosteric linkage between the active site and the binding interface with tissue factor.在因子VIIa中,将天冬氨酸替代甲硫氨酸-306会消除活性位点与组织因子结合界面之间的变构联系。
Biochemistry. 2001 Mar 20;40(11):3251-6. doi: 10.1021/bi001612z.
4
Residue Met(156) contributes to the labile enzyme conformation of coagulation factor VIIa.残基甲硫氨酸(156)促成凝血因子VIIa不稳定的酶构象。
J Biol Chem. 2001 Mar 2;276(9):6616-20. doi: 10.1074/jbc.M004726200. Epub 2000 Nov 14.
5
Activation and active site occupation alter conformation in the region of the first epidermal growth factor-like domain of human factor VII.激活和活性位点占据会改变人因子VII第一个表皮生长因子样结构域区域的构象。
J Biol Chem. 2000 Nov 10;275(45):34894-900. doi: 10.1074/jbc.M001166200.
6
Binding of Zn2+ to a Ca2+ loop allosterically attenuates the activity of factor VIIa and reduces its affinity for tissue factor.锌离子与钙离子环结合会变构减弱凝血因子VIIa的活性,并降低其对组织因子的亲和力。
Protein Sci. 2000 May;9(5):859-66. doi: 10.1110/ps.9.5.859.
7
Peptide exosite inhibitors of factor VIIa as anticoagulants.作为抗凝剂的凝血因子VIIa肽外结合位点抑制剂。
Nature. 2000 Mar 30;404(6777):465-70. doi: 10.1038/35006574.
8
Crystal structure of active site-inhibited human coagulation factor VIIa (des-Gla).活性位点抑制的人凝血因子VIIa(去γ-羧基谷氨酸)的晶体结构
J Struct Biol. 1999 Oct;127(3):213-23. doi: 10.1006/jsbi.1999.4158.
9
Structure of human factor VIIa and its implications for the triggering of blood coagulation.人凝血因子VIIa的结构及其对血液凝固触发的影响。
Proc Natl Acad Sci U S A. 1999 Aug 3;96(16):8925-30. doi: 10.1073/pnas.96.16.8925.
10
Thermal effects on an enzymatically latent conformation of coagulation factor VIIa.热对凝血因子VIIa酶潜伏构象的影响。
Eur J Biochem. 1999 Apr;261(1):124-9. doi: 10.1046/j.1432-1327.1999.00258.x.

具有显著增强的内在活性的凝血因子VIIa变体的合理设计。

Rational design of coagulation factor VIIa variants with substantially increased intrinsic activity.

作者信息

Persson E, Kjalke M, Olsen O H

机构信息

Vascular Biochemistry, Novo Nordisk A/S, Novo Nordisk Park, DK-2760 Måløv, Denmark.

出版信息

Proc Natl Acad Sci U S A. 2001 Nov 20;98(24):13583-8. doi: 10.1073/pnas.241339498. Epub 2001 Nov 6.

DOI:10.1073/pnas.241339498
PMID:11698657
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC61084/
Abstract

A trace amount of coagulation factor VII (FVII) circulates in the blood in the activated form, FVIIa (EC 3.4.21.21), formed by internal proteolysis. To avoid disseminated thrombus formation, FVIIa remains in a conformation with zymogen-like properties. Association with tissue factor (TF), locally exposed upon vascular injury, is necessary to render FVIIa biologically active and initiate blood clotting. We have designed potent mutants of FVIIa by replacing residues believed to function as determinants for the inherent zymogenicity. The TF-independent rate of factor X activation was dramatically improved, up to about 100-fold faster than that obtained with the wild-type enzyme and close to that of the FVIIa-soluble TF complex. The mutants appear to retain the substrate specificity of the parent enzyme and can be further stimulated by TF. Insights into the mechanism behind the increased activity of the mutants, presumably also pertinent to the TF-induced, allosteric stimulation of FVIIa activity, were obtained by studying their calcium dependence and the accessibility of the N terminus of the protease domain to chemical modification. The FVIIa analogues promise to offer a more efficacious treatment of bleeding episodes especially in hemophiliacs with inhibitory antibodies precluding conventional replacement therapy.

摘要

微量的凝血因子VII(FVII)以活化形式FVIIa(EC 3.4.21.21)在血液中循环,FVIIa由内部蛋白水解形成。为避免弥散性血栓形成,FVIIa保持具有酶原样特性的构象。与血管损伤时局部暴露的组织因子(TF)结合,对于使FVIIa具有生物活性并启动血液凝固是必要的。我们通过替换被认为作为固有酶原性决定因素的残基,设计了强效的FVIIa突变体。因子X活化的非TF依赖速率显著提高,比野生型酶快约100倍,接近FVIIa - 可溶性TF复合物的速率。这些突变体似乎保留了亲本酶的底物特异性,并且可以被TF进一步刺激。通过研究它们的钙依赖性以及蛋白酶结构域N末端对化学修饰的可及性,深入了解了突变体活性增加背后的机制,推测这也与TF诱导的FVIIa活性的变构刺激有关。这些FVIIa类似物有望为出血发作提供更有效的治疗,特别是对于那些因抑制性抗体而无法进行传统替代疗法的血友病患者。