眼镜蛇(Naja nivea)毒液的毒素多样性、细胞毒性和酶活性。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-11 DOI:10.3390/toxins16100438
Tim Lüddecke, Ignazio Avella, Maik Damm, Lennart Schulte, Johanna Eichberg, Kornelia Hardes, Susanne Schiffmann, Marina Henke, Thomas Timm, Günter Lochnit, Andreas Vilcinskas
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引用次数: 0

摘要

"真正的 "眼镜蛇(Naja 属)是非洲和亚洲最常发生蛇咬伤事故的毒蛇之一。开普眼镜蛇(Naja nivea)是非洲眼镜蛇中最重要的毒蛇之一,但人们对其毒液的了解还远远不够。在这里,我们使用了一种散弹枪蛋白质组学方法来更好地了解 N. nivea 毒液的定性组成,并测试了其细胞毒性、蛋白酶活性以及对细胞内 Ca2+ 释放和 NO 合成的影响。我们鉴定了代表 17 个蛋白家族的 156 种毒液成分,其中最主要的是三指毒素,大部分为短链类型。在已鉴定的三指毒素条目中,三分之二被归类为细胞毒素,其余被归类为神经毒素,包括短链、长链和祖先三指毒素。我们还发现了蛇毒金属蛋白酶以及 CRISP、l-氨基酸氧化酶和其他家族的成员。蛋白酶活性及其对细胞内 Ca2+ 释放和 NO 合成的影响较低。磷脂酶 A2 的活性出奇地高,尽管在分析的毒液中该毒素家族的含量很少。只有在毒液浓度较高时才会产生细胞毒性,巨噬细胞和神经母细胞瘤细胞株的存活率最低。这些结果与眼镜蛇咬伤引起的主要神经中毒症状相符。目前对尼夫拉蛇毒液复杂的定性和有趣的功能进行的概述可能会为该物种毒液的病理生物化学提供启示。
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The Toxin Diversity, Cytotoxicity, and Enzymatic Activity of Cape Cobra (Naja nivea) Venom.

"True" cobras (genus Naja) are among the venomous snakes most frequently involved in snakebite accidents in Africa and Asia. The Cape cobra (Naja nivea) is one of the African cobras of highest medical importance, but much remains to be learned about its venom. Here, we used a shotgun proteomics approach to better understand the qualitative composition of N. nivea venom and tested its cytotoxicity and protease activity as well as its effect on intracellular Ca2+ release and NO synthesis. We identified 156 venom components representing 17 protein families, with the dominant ones being three-finger toxins, mostly of the short-chain type. Two-thirds of the three-finger toxin entries identified were assigned as cytotoxins, while the remainder were categorized as neurotoxins, including short-chain, long-chain, and ancestral three-finger toxins. We also identified snake venom metalloproteinases and members of CRISP, l-amino acid oxidase, and other families. Protease activity and its effect on intracellular Ca2+ release and NO synthesis were low. Phospholipase A2 activity was surprisingly high, despite this toxin family being marginally recovered in the analyzed venom. Cytotoxicity was relevant only at higher venom concentrations, with macrophage and neuroblastoma cell lines showing the lowest viability. These results are in line with the predominantly neurotoxic envenomation symptoms caused by Cape cobra bites. The present overview of the qualitatively complex and functionally intriguing venom of N. nivea may provide insights into the pathobiochemistry of this species' venom.

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