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近年来因子 XII 结构与功能的新进展。

Recent advances in factor XII structure and function.

机构信息

Department of Pathology, Microbiology and Immunology, Vanderbilt University Medical Center, Nashville, Tennessee, USA.

出版信息

Curr Opin Hematol. 2022 Sep 1;29(5):233-243. doi: 10.1097/MOH.0000000000000727. Epub 2022 Jul 18.

DOI:10.1097/MOH.0000000000000727
PMID:35916558
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9350914/
Abstract

PURPOSE OF REVIEW

Factor XII (FXII), the precursor of the protease FXIIa, contributes to pathologic processes including angioedema and thrombosis. Here, we review recent work on structure-function relationships for FXII based on studies using recombinant FXII variants.

RECENT FINDINGS

FXII is a homolog of pro-hepatocyte growth factor activator (Pro-HGFA). We prepared FXII in which domains are replaced by corresponding parts of Pro-HGA, and tested them in FXII activation and activity assays. In solution, FXII and prekallikrein undergo reciprocal activation to FXIIa and kallikrein. The rate of this process is restricted by the FXII fibronectin type-2 and kringle domains. Pro-HGA replacements for these domains accelerate FXII and prekallikrein activation. When FXII and prekallikrein bind to negatively charged surfaces, reciprocal activation is enhanced. The FXII EGF1 domain is required for surface binding.

SUMMARY

We propose a model in which FXII is normally maintained in a closed conformation resistant to activation by intramolecular interactions involving the fibronectin type-2 and kringle domains. These interactions are disrupted when FXII binds to a surface through EGF1, enhancing FXII activation and prekallikrein activation by FXIIa. These observations have important implications for understanding the contributions of FXII to disease, and for developing therapies to treat thrombo-inflammatory disorders.

摘要

目的综述

因子 XII(FXII),蛋白酶 FXIIa 的前体,有助于包括血管性水肿和血栓形成在内的病理过程。在这里,我们基于使用重组 FXII 变体的研究,综述 FXII 的结构-功能关系的最新进展。

最近的发现

FXII 是前肝细胞生长因子激活剂(Pro-HGFA)的同源物。我们制备了 FXII,其中结构域被 Pro-HGA 的相应部分取代,并在 FXII 激活和活性测定中对它们进行了测试。在溶液中,FXII 和激肽释放酶相互激活为 FXIIa 和激肽。这个过程的速度受 FXII 纤维连接蛋白类型 2 和 Kringle 结构域的限制。这些结构域的 Pro-HGA 取代物加速了 FXII 和激肽释放酶的激活。当 FXII 和激肽释放酶结合到带负电荷的表面时,相互激活增强。FXII 的 EGF1 结构域是表面结合所必需的。

总结

我们提出了一个模型,即 FXII 通常保持在一种封闭的构象中,这种构象不易受到涉及纤维连接蛋白类型 2 和 Kringle 结构域的分子内相互作用的激活。当 FXII 通过 EGF1 与表面结合时,这些相互作用被破坏,从而增强了 FXII 的激活和 FXIIa 对激肽释放酶的激活。这些观察结果对理解 FXII 对疾病的贡献以及开发治疗血栓炎症性疾病的疗法具有重要意义。

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