增强组织因子非依赖性活性的因子 VIIa 变异体的血小板结合和活性。

Platelet binding and activity of a factor VIIa variant with enhanced tissue factor independent activity.

机构信息

Duke University, Pathology and Laboratory Medicine Service, Durham Veterans Affairs Medical Centers, Durham, NC 27705, USA.

出版信息

J Thromb Haemost. 2011 Apr;9(4):759-66. doi: 10.1111/j.1538-7836.2011.04223.x.

DOI:10.1111/j.1538-7836.2011.04223.x

PMID:21294824

Abstract

BACKGROUND AND OBJECTIVES

Platelet binding and activity play important roles in the efficacy of factor VIIa (FVIIa) as a bypassing agent for hemophilia treatment. An analog of FVIIa with increased tissue factor (TF)-independent activity, NN1731, has been produced by introducing three amino acid changes in the protease domain. NN1731 has a conformation similar to TF-bound FVIIa, even in the absence of TF. This results in much greater intrinsic proteolytic activity, but similar activity in the presence of TF.

OBJECTIVES

We hypothesized that these changes would not alter binding to platelets or phospholipid, a characteristic thought to be localized to the Gla domain. The goal of the current work was to compare platelet binding and activity of NN1731 and wild-type FVIIa.

METHODS/RESULTS: FVIIa and NN1731 bound identically to phospholipid vesicles as assessed by both activity assays and electrophoretic quasielastic light scattering techniques. However, NN1731 bound to a greater number of sites on activated platelets than FVIIa, as assessed by flow cytometry. Removal of the Gla domain abolished binding of both FVIIa and NN1731. Inhibition of the active site did not reduce NN1731 binding to the level of FVIIa. When corrected for the amount of protein bound, NN1731 had greater activity than FVIIa on platelet surfaces.

CONCLUSIONS

While the Gla domain is essential for FVIIa binding to platelets, changes in the protease domain in NN1731 enhanced platelet binding as well as proteolytic activity. Features in addition to lipid composition appear to contribute to binding of rFVIIa and, especially, NN1731 to platelets.

摘要

背景和目的

血小板结合和活性在因子 VIIa（FVIIa）作为血友病治疗旁路剂的疗效中起着重要作用。通过在蛋白酶结构域中引入三个氨基酸变化，产生了一种组织因子（TF）非依赖性活性增加的 FVIIa 类似物 NN1731。NN1731 具有类似于 TF 结合的 FVIIa 的构象，即使在没有 TF 的情况下也是如此。这导致了更大的内在蛋白水解活性，但在存在 TF 的情况下活性相似。

目的

我们假设这些变化不会改变与血小板或磷脂的结合，这种特性被认为局限于 Gla 结构域。当前工作的目标是比较 NN1731 和野生型 FVIIa 与血小板的结合和活性。

方法/结果：通过活性测定和电泳准弹性光散射技术评估，FVIIa 和 NN1731 与磷脂囊泡结合相同。然而，通过流式细胞术评估，NN1731 与激活血小板上的更多结合位点结合，而 FVIIa 则较少。去除 Gla 结构域会消除 FVIIa 和 NN1731 的结合。活性位点的抑制不会降低 NN1731 与 FVIIa 的结合水平。当校正结合的蛋白质量时，NN1731 在血小板表面上的活性大于 FVIIa。

结论

虽然 Gla 结构域对于 FVIIa 与血小板的结合至关重要，但 NN1731 中蛋白酶结构域的变化增强了血小板的结合以及蛋白水解活性。除了脂质组成之外，其他特征似乎有助于 rFVIIa 尤其是 NN1731 与血小板的结合。

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增强组织因子非依赖性活性的因子 VIIa 变异体的血小板结合和活性。

Platelet binding and activity of a factor VIIa variant with enhanced tissue factor independent activity.

机构信息

出版信息

BACKGROUND AND OBJECTIVES

OBJECTIVES

CONCLUSIONS

背景和目的

目的

结论

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