纤维蛋白原 γA/γ' 异构体不会促进小鼠急性动脉血栓形成。

The fibrinogen γA/γ' isoform does not promote acute arterial thrombosis in mice.

机构信息

Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA.

出版信息

J Thromb Haemost. 2014 May;12(5):680-9. doi: 10.1111/jth.12534.

DOI:10.1111/jth.12534

PMID:24916154

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4098759/

Abstract

BACKGROUND

Elevated plasma fibrinogen is associated with arterial thrombosis in humans and promotes thrombosis in mice by increasing fibrin formation and thrombus fibrin content. Fibrinogen is composed of six polypeptide chains: (Aα, Bβ, and γ)2. Alternative splicing of the γ chain leads to a dominant form (γA/γA) and a minor species (γA/γ'). Epidemiological studies have detected elevated γA/γ' fibrinogen in patients with arterial thrombosis, suggesting that this isoform promotes thrombosis. However, in vitro data show that γA/γ' is anticoagulant due to its ability to sequester thrombin and suggest its expression is upregulated in response to inflammatory processes.

OBJECTIVE

To determine whether γA/γ' fibrinogen is prothrombotic in vivo.

METHODS

We separated γA/γA and γA/γ' fibrinogen from human plasma-purified fibrinogen and determined the effects on in vitro plasma clot formation and on in vivo thrombus formation and circulating thrombin-antithrombin complexes in mice.

RESULTS AND CONCLUSIONS

Both γA/γA and γA/γ' fibrinogen were cleaved by murine and human thrombin and were incorporated into murine and human clots. When γA/γA or γA/γ' was spiked into plasma, γA/γA increased the fibrin formation rate to a greater extent than γA/γ'. In mice, compared to controls, γA/γA infusion shortened the time to carotid artery occlusion, whereas γA/γ' infusion did not. Additionally, γA/γ' infusion led to lower levels of plasma thrombin-antithrombin complexes following arterial injury, whereas γA/γA infusion did not. These data suggest that γA/γ' binds thrombin in vivo and decreases prothrombotic activity. Together, these findings indicate that elevated levels of γA/γA fibrinogen promote arterial thrombosis in vivo, whereas γA/γ' does not.

摘要

背景

血浆纤维蛋白原升高与人类动脉血栓形成有关，并通过增加纤维蛋白形成和血栓纤维蛋白含量促进小鼠血栓形成。纤维蛋白原由 6 条多肽链组成：（Aα、Bβ 和γ）2。γ 链的选择性剪接导致主要形式（γA/γA）和次要形式（γA/γ'）。流行病学研究在动脉血栓形成患者中检测到升高的 γA/γ'纤维蛋白原，表明该同工型促进血栓形成。然而，体外数据表明，由于其能够隔离凝血酶，γA/γ'具有抗凝作用，并表明其表达在炎症过程中上调。

目的

确定 γA/γ'纤维蛋白原在体内是否具有促血栓形成作用。

方法

我们从人血浆纯化纤维蛋白原中分离出 γA/γA 和 γA/γ'纤维蛋白原，并测定其对体外血浆凝块形成以及体内血栓形成和循环凝血酶-抗凝血酶复合物的影响在小鼠中。

结果和结论

鼠和人凝血酶均可裂解 γA/γA 和 γA/γ'纤维蛋白原，并将其掺入鼠和人凝块中。当 γA/γA 或 γA/γ'被加入到血浆中时，γA/γA 比 γA/γ'更能增加纤维蛋白形成速率。与对照组相比，在小鼠中，γA/γA 输注缩短了颈总动脉闭塞时间，而 γA/γ'输注则没有。此外，与 γA/γA 输注相比，γA/γ'输注导致动脉损伤后血浆凝血酶-抗凝血酶复合物水平降低，而 γA/γA 输注则没有。这些数据表明，γA/γ'在体内结合凝血酶并降低促血栓形成活性。综上所述，这些发现表明，升高的 γA/γA 纤维蛋白原在体内促进动脉血栓形成，而 γA/γ'则没有。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2093/4098759/34b18d3bbab3/nihms597742f1.jpg

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纤维蛋白原 γA/γ' 异构体不会促进小鼠急性动脉血栓形成。

The fibrinogen γA/γ' isoform does not promote acute arterial thrombosis in mice.

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