Explanation of Structure and Function of kv1.3 Potent Blocker From Mesobuthus eupeus Venom Gland: A New Promise in Drug Development

IF 1 Q4 PHARMACOLOGY & PHARMACY
M. Khodayar, Masoud Mahdavinia, M. Baradaran, A. Jalali
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引用次数: 1

Abstract

Background: Scorpions and other venomous animals are sought with great concern because venom is a source of novel peptides with exciting features. Some toxins of scorpion venom are effectors of potassium channels. Previous studies strongly support the importance of potassium channel toxins for use as pharmacological tools or potential drugs. Objectives: Here, a three-dimensional (3-D) structure and function of a potent acidic blocker of the human voltage-gated potassium ion channel, Kv1.3, previously identified in the scorpion Mesobuthus eupeus venom gland, were interpreted. Methods: The 3-D structure of meuK2-2 was generated using homology modeling. The interaction of meuK2-2 with the Kv1.3 channel was evaluated using a computational protocol employing peptide-protein docking experiments, pose clustering, and 100 ns molecular dynamic simulations to make the 3-D models of the meuK2-2/Kv1.3 complex trustworthy. Results: A CSα/β (cysteine-stabilized α-helical and β-sheet) fold was found for the 3-D structure of meuK2-2. In a different mechanism from what was identified so far, meuK2-2 binds to both turret and pore loop of Kv1.3 through two key residues (Ala28 and Ser11) and H-bonds. The binding of meuK2-2 induces some conformational changes to Kv1.3. Eventually, the side chain of a positively charged amino acid (His9) occupies the channel's pore. All together blocks the ion permeation pathway. Conclusions: MeuK2-2 could block Kv1.3 by a new mechanism. So, it could be a unique target for further investigations to develop a pharmacological tool and potential drug.
蛇毒腺kv1.3强效阻滞剂的结构和功能解释:药物开发的新前景
背景:蝎子和其他有毒动物受到极大关注,因为毒液是具有令人兴奋的特征的新肽的来源。蝎子毒液中的一些毒素是钾通道的效应器。先前的研究强烈支持钾通道毒素作为药理工具或潜在药物的重要性。目的:本文对一种强效的人体电压门控钾离子通道酸性阻滞剂Kv1.3的三维(3-D)结构和功能进行了解释,Kv1.3先前在蝎子Mesobuthus eupeus毒腺中被发现。方法:采用同源性建模方法生成meuK2-2的三维结构。利用肽-蛋白对接实验、位姿聚类和100 ns分子动力学模拟的计算方案来评估meuK2-2与Kv1.3通道的相互作用,以使meuK2-2/Kv1.3复合物的三维模型可信。结果:在meuK2-2的三维结构中发现了CSα/β(半胱氨酸稳定的α-螺旋和β-片)折叠。meuK2-2通过两个关键残基(Ala28和Ser11)和氢键与Kv1.3的转塔和孔环结合,其机制与目前发现的不同。meuK2-2的结合诱导了Kv1.3的构象变化。最终,带正电的氨基酸(His9)的侧链占据了通道的孔。所有这些共同阻断了离子渗透途径。结论:MeuK2-2可通过新机制阻断Kv1.3。因此,它可能是进一步研究开发药理学工具和潜在药物的独特目标。
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
CiteScore
1.40
自引率
0.00%
发文量
26
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