From Venom to Vein: Factor VII Activation as a Major Pathophysiological Target for Procoagulant Australian Elapid Snake Venoms.

IF 3.9 3区医学 Q2 FOOD SCIENCE & TECHNOLOGY

Toxins Pub Date : 2024-10-06 DOI:10.3390/toxins16100430

Uthpala Chandrasekara, Abhinandan Chowdhury, Lorenzo Seneci, Christina N Zdenek, Nathan Dunstan, Bryan G Fry

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引用次数: 0

Abstract

Australian elapid snake venoms are uniquely procoagulant, utilizing blood clotting enzyme Factor Xa (FXa) as a toxin, which evolved as a basal trait in this clade. The subsequent recruitment of Factor Va (FVa) as a toxin occurred in the last common ancestor of taipans (Oxyuranus species) and brown snakes (Pseudonaja species). Factor II (prothrombin) activation has been stated as the primary mechanism for the lethal coagulopathy, but this hypothesis has never been tested. The additional activation of Factor VII (FVII) by Oxyuranus/Pseudonaja venoms has historically been considered as a minor, unimportant novelty. This study aimed to investigate the significance of toxic FVII activation relative to prothrombin activation by testing a wide taxonomical range of Australian elapid species with procoagulant venoms. The activation of FVII or prothrombin, with and without the Factor Va as a cofactor, was assessed, along with the structural changes involved in these processes. All procoagulant species could activate FVII, establishing this as a basal trait. In contrast, only some lineages could activate prothrombin, indicating that this is a derived trait. For species able to activate both zymogens, Factor VII was consistently more strongly activated than prothrombin. FVa was revealed as an essential cofactor for FVII activation, a mechanism previously undocumented. Species lacking FVa in their venom utilized endogenous plasma FVa to exert this activity. The ability of the human FXa:FVa complex to activate FVII was also revealed as a new feedback loop in the endogenous clotting cascade. Toxin sequence analyses identified structural changes essential for the derived trait of prothrombin activation. This study presents a paradigm shift in understanding how elapid venoms activate coagulation factors, highlighting the critical role of FVII activation in the pathophysiological effects upon the coagulation cascade produced by Australian elapid snake venoms. It also documented the novel use of Factor Va as a cofactor for FVII activation for both venom and endogenous forms of FXa. These findings are crucial for developing better antivenoms and treatments for snakebite victims and have broader implications for drug design and the treatment of coagulation disorders. The research also advances the evolutionary biology knowledge of snake venoms.

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从毒液到静脉：因子 VII 激活是促凝血澳大利亚箭毒的主要病理生理目标。

澳大利亚伶盗蛇的毒液具有独特的促凝血作用，利用凝血酶因子 Xa（FXa）作为毒素，这是该支系的基本特征。随后，在奚班蛇（Oxyuranus 种）和褐蛇（Pseudonaja 种）的最后一个共同祖先中，因子 Va（FVa）也被用作毒素。凝血因子 II（凝血酶原）活化被认为是致命凝血病的主要机制，但这一假设从未得到验证。氧化浣熊/伪尾蜥毒液对因子Ⅶ（FVII）的额外激活一直被认为是次要的、不重要的新现象。本研究的目的是通过测试具有促凝血毒液的多种澳大利亚麋鹿物种，研究毒性 FVII 激活相对于凝血酶原激活的重要性。在有因子 Va 作为辅助因子和没有因子 Va 作为辅助因子的情况下，对 FVII 或凝血酶原的活化以及这些过程中涉及的结构变化进行了评估。所有促凝物种都能激活 FVII，从而确定这是一种基本特性。相比之下，只有一些血统可以激活凝血酶原，这表明这是一种衍生性状。在能够激活两种酶原的物种中，因子Ⅶ的激活一直比凝血酶原更强。研究发现，FVa 是 FVII 激活所必需的辅助因子，这一机制以前未被记录。毒液中缺乏 FVa 的物种利用内源性血浆 FVa 来发挥这种活性。人类 FXa:FVa 复合物激活 FVII 的能力也被揭示为内源性凝血级联的一个新反馈回路。毒素序列分析确定了凝血酶原活化衍生性状所必需的结构变化。这项研究为了解伶盗蛇毒如何激活凝血因子提供了一个范式转换，突出了澳大利亚伶盗蛇毒在凝血级联的病理生理效应中激活 FVII 的关键作用。研究还记录了因子 Va 作为 FVII 激活的辅助因子对毒液和内源性 FXa 的新用途。这些发现对于开发更好的抗蛇毒血清和治疗蛇咬伤患者至关重要，并对药物设计和凝血障碍的治疗具有更广泛的影响。这项研究还推动了蛇毒进化生物学知识的发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Toxins TOXICOLOGY-

CiteScore

7.50

自引率

16.70%

发文量

765

审稿时长

16.24 days

期刊介绍： Toxins (ISSN 2072-6651) is an international, peer-reviewed open access journal which provides an advanced forum for studies related to toxins and toxinology. It publishes reviews, regular research papers and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.