In silico Discovery of Leptukalins, The New Potassium Channel Blockers from the Iranian Scorpion, Hemiscorpius Lepturus.

Maryam Khalili-Salmasi, Ahmad Nazarian, Amir Amirkhani, Hasan Mirzahoseini, Kamran Pooshang Bagheri
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Abstract

Background: Blocking Kv 1.2 and Kv 1.3 potassium channels using scorpion venom- derived toxins holds potential therapeutic value. These channels are implicated in autoimmune diseases such as neurodegenerative diseases, multiple sclerosis, rheumatoid arthritis, and type 1 diabetes.

Objective: The present work aims at the discovery and in silico activity analysis of potassium channel blockers (KTxs) from the cDNA library derived from the venom gland of Iranian scorpion Hemiscorpius lepturus (H. lepturus).

Methods: The sequence regarding potassium channel blockers were extracted based on Gene Ontology for H. lepturus venom gland. Homology analyses, superfamily, family, and evolutionary signatures of H. lepturus KTxs (H.L KTxs) were determined by using BLASTP, COBALT, PROSITE, and InterPro servers. The predicted 3D structures of H.L KTxs were superimposed against their homologs to predict structure activity relationship. Molecular docking analysis was also performed to predict the binding affinity of H.L KTxs to Kv 1.2 and Kv 1.3 channels. Finally, the toxicity was predicted.

Results: Seven H.L KTxs, designated as Leptukalin, were extracted from the cDNA library of H. lepturus venom gland. Homology analyses proved that they can act as potassium channel blockers and they belong to the superfamily and family of Scorpion Toxin-like and Short-chain scorpion toxins, respectively. Structural alignment results confirmed the activity of H.L KTxs. Binding affinity of all H.L KTxs to Kv 1.2 and Kv 1.3 channels ranged from -4.4 to -5.5 and -4 to -5.7 Kcal/mol, respectively. In silico toxicity assay showed that Leptukalin 3, Leptukalin 5, and Leptukalin 7 were non-toxic.

Conclusion: Three non-toxic KTxs, Leptukalin 3, 5, and 7, were successfully discovered from the cDNA library of H. lepturus venom gland. Gathering all data together, the discovered peptides are promising potassium channel blockers. Accordingly, Leptukalin 3, 5, and 7 could be suggested for complementary in vitro studies and mouse model of autoimmune diseases.

从伊朗蝎子 Hemiscorpius Lepturus 中发现新的钾离子通道阻断剂 Leptukalins。
背景:利用蝎毒衍生毒素阻断 Kv 1.2 和 Kv 1.3 钾通道具有潜在的治疗价值。这些通道与自身免疫性疾病有关,如神经退行性疾病、多发性硬化症、类风湿性关节炎和 1 型糖尿病:本研究旨在从伊朗蝎子 Hemiscorpius lepturus(H. lepturus)毒腺中提取的 cDNA 文库中发现钾通道阻滞剂(KTxs),并对其进行硅学活性分析:方法:根据 H. lepturus 毒腺的基因本体提取了钾通道阻滞剂的序列。利用 BLASTP、COBALT、PROSITE 和 InterPro 服务器确定了 H.L KTxs(H.L KTxs)的同源性分析、超家族、家族和进化特征。将预测的 H.L KTxs 三维结构与其同源物进行叠加,以预测其结构活性关系。还进行了分子对接分析,以预测 H.L KTxs 与 Kv 1.2 和 Kv 1.3 通道的结合亲和力。最后,对其毒性进行了预测:结果:从H. lepturus毒腺的cDNA文库中提取了7个H.L KTxs,命名为Leptukalin。同源性分析证明,它们可以作为钾离子通道阻断剂,分别属于蝎毒素类超家族和短链蝎毒素家族。结构比对结果证实了 H.L KTxs 的活性。所有 H.L KTxs 与 Kv 1.2 和 Kv 1.3 通道的结合亲和力分别为 -4.4 至 -5.5 和 -4 至 -5.7 Kcal/mol。硅毒性分析表明,Leptukalin 3、Leptukalin 5 和 Leptukalin 7 是无毒的:结论:成功地从钩端螺旋体毒腺的 cDNA 文库中发现了三种无毒的 KTx,即钩吻肽 3、钩吻肽 5 和钩吻肽 7。综合所有数据,所发现的多肽是很有前景的钾通道阻断剂。因此,Leptukalin 3、5 和 7 可用于体外研究和自身免疫性疾病小鼠模型的补充研究。
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