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膜结合因子VIII的结构域组织

Domain organization of membrane-bound factor VIII.

作者信息

Stoilova-McPhie Svetla, Lynch Gillian C, Ludtke Steven, Pettitt B Montgomery

机构信息

Department of Neuroscience and Cell Biology, University of Texas Medical Branch, Galveston, TX, USA.

出版信息

Biopolymers. 2013 Jul;99(7):448-59. doi: 10.1002/bip.22199.

DOI:10.1002/bip.22199
PMID:23616213
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4090243/
Abstract

Factor VIII (FVIII) is the blood coagulation protein which when defective or deficient causes for hemophilia A, a severe hereditary bleeding disorder. Activated FVIII (FVIIIa) is the cofactor to the serine protease factor IXa (FIXa) within the membrane-bound Tenase complex, responsible for amplifying its proteolytic activity more than 100,000 times, necessary for normal clot formation. FVIII is composed of two noncovalently linked peptide chains: a light chain (LC) holding the membrane interaction sites and a heavy chain (HC) holding the main FIXa interaction sites. The interplay between the light and heavy chains (HCs) in the membrane-bound state is critical for the biological efficiency of FVIII. Here, we present our cryo-electron microscopy (EM) and structure analysis studies of human FVIII-LC, when helically assembled onto negatively charged single lipid bilayer nanotubes. The resolved FVIII-LC membrane-bound structure supports aspects of our previously proposed FVIII structure from membrane-bound two-dimensional (2D) crystals, such as only the C2 domain interacts directly with the membrane. The LC is oriented differently in the FVIII membrane-bound helical and 2D crystal structures based on EM data, and the existing X-ray structures. This flexibility of the FVIII-LC domain organization in different states is discussed in the light of the FVIIIa-FIXa complex assembly and function.

摘要

凝血因子VIII(FVIII)是一种血液凝固蛋白,当它有缺陷或缺乏时会导致甲型血友病,这是一种严重的遗传性出血性疾病。活化的FVIII(FVIIIa)是膜结合的凝血酶原酶复合物中丝氨酸蛋白酶因子IXa(FIXa)的辅因子,负责将其蛋白水解活性放大超过100000倍,这是正常凝血形成所必需的。FVIII由两条非共价连接的肽链组成:一条轻链(LC)包含膜相互作用位点,一条重链(HC)包含主要的FIXa相互作用位点。在膜结合状态下,轻链和重链(HCs)之间的相互作用对于FVIII的生物学效率至关重要。在此,我们展示了对人FVIII-LC的冷冻电子显微镜(EM)和结构分析研究,当它螺旋组装到带负电荷的单脂质双层纳米管上时。解析出的FVIII-LC膜结合结构支持了我们之前从膜结合二维(2D)晶体提出的FVIII结构的一些方面,例如只有C2结构域直接与膜相互作用。基于EM数据和现有的X射线结构,FVIII-LC在FVIII膜结合螺旋结构和2D晶体结构中的取向不同。根据FVIIIa-FIXa复合物的组装和功能,讨论了FVIII-LC结构域组织在不同状态下的这种灵活性。

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A membrane-interactive surface on the factor VIII C1 domain cooperates with the C2 domain for cofactor function.VIII 因子 C1 结构域上的一个膜相互作用表面与 C2 结构域共同发挥辅助因子功能。
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Reconstruction of helical filaments and tubes.螺旋细丝和管的重建。
氯喹通过嵌入 DNA 的作用机制为其毒性提供了深入了解。
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Expression of the gene encoding blood coagulation factor VIII without domain B in bacterial expression system.在细菌表达系统中无B结构域的凝血因子VIII编码基因的表达
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Lactadherin's Multistate Binding Predicts Stable Membrane-Bound Conformations of Factors V and VIII's C Domains.乳铁蛋白的多态性结合预测了因子 V 和 VIII 的 C 结构域的稳定的膜结合构象。
Biochemistry. 2023 Oct 17;62(20):3020-3032. doi: 10.1021/acs.biochem.3c00274. Epub 2023 Sep 25.
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Molecular engineering of cyclic azobenzene-peptide hybrid ligands for the purification of human blood Factor VIII via photo-affinity chromatography.用于通过光亲和色谱法纯化人血因子VIII的环状偶氮苯-肽杂合配体的分子工程。
Adv Funct Mater. 2023 Apr 4;33(14). doi: 10.1002/adfm.202213881. Epub 2023 Jan 25.
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