Bevans Carville G, Krettler Christoph, Reinhart Christoph, Tran Hélène, Koßmann Katja, Watzka Matthias, Oldenburg Johannes
Department of Structural Biology, Max Planck Institute of Biophysics, Frankfurt-am-Main, Germany.
Biochim Biophys Acta. 2013 Aug;1830(8):4202-10. doi: 10.1016/j.bbagen.2013.04.018. Epub 2013 Apr 22.
Warfarin directly inhibits vitamin K 2,3-epoxide reductase (VKOR) enzymes. Since the early 1970s, warfarin inhibition of vitamin K 2,3-epoxide reductase complex subunit 1 (VKORC1), an essential enzyme for proper function of blood coagulation in higher vertebrates, has been studied using an in vitro dithiothreitol (DTT) driven enzymatic assay. However, various studies based on this assay have reported warfarin dose-response data, usually summarized as half-maximal inhibitory concentration (IC50), that vary over orders of magnitude and reflect the broad range of conditions used to obtain VKOR assay data.
We standardized the implementation of the DTT-driven VKOR activity assay to measure enzymatic Michaelis constants (Km) and warfarin IC50 for human VKORC1. A data transformation is defined, based on the previously confirmed bi bi ping-pong mechanism for VKORC1, that relates assay condition-dependent IC50 to condition-independent Ki.
Determination of the warfarin Ki specifically depends on measuring both substrate concentrations, both Michaelis constants for the VKORC1 enzyme, and pH in the assay.
The Ki is not equal to the IC50 value directly measured using the DTT-driven VKOR assay.
In contrast to warfarin IC50 values determined in previous studies, warfarin inhibition expressed as Ki can now be compared between studies, even when the specific DTT-driven VKOR assay conditions differ. This implies that warfarin inhibition reported for wild-type and variant VKORC1 enzymes from previous reports should be reassessed and new determinations of Ki are required to accurately report and compare in vitro warfarin inhibition results.
华法林直接抑制维生素K 2,3 - 环氧化物还原酶(VKOR)。自20世纪70年代初以来,一直使用体外二硫苏糖醇(DTT)驱动的酶促测定法研究华法林对维生素K 2,3 - 环氧化物还原酶复合物亚基1(VKORC1)的抑制作用,VKORC1是高等脊椎动物血液凝固正常功能所必需的酶。然而,基于该测定法的各种研究报告的华法林剂量反应数据,通常总结为半数最大抑制浓度(IC50),其在几个数量级上变化,反映了用于获得VKOR测定数据的广泛条件。
我们对DTT驱动的VKOR活性测定法的实施进行了标准化,以测量人VKORC1的酶促米氏常数(Km)和华法林IC50。基于先前确认的VKORC1的双底物双乒乓机制定义了一种数据转换,该机制将测定条件依赖性IC50与条件独立性Ki相关联。
华法林Ki的测定具体取决于测量两种底物浓度、VKORC1酶的两个米氏常数以及测定中的pH值。
Ki不等于使用DTT驱动的VKOR测定法直接测量的IC50值。
与先前研究中确定的华法林IC50值不同,即使特定的DTT驱动的VKOR测定条件不同,现在也可以在不同研究之间比较以Ki表示的华法林抑制作用。这意味着应重新评估先前报告中野生型和变异型VKORC1酶的华法林抑制作用,并且需要新的Ki测定来准确报告和比较体外华法林抑制结果。
