Computational Design of a Truncated Javan Spitting Cobra (Naja sputatrix) Venom Cardiotoxin Analogue as a Promising Insulinotropic Agent

Biotropika: Journal of Tropical Biology Pub Date : 2024-01-23 DOI:10.21776/ub.biotropika.2023.011.03.03

Ichda Arini Dinana, Widodo Widodo, Nia Kurniawan

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Abstract

Treatment options for diabetes may vary widely, however, around 50% of all diabetic patients do not reach the minimum glycemic target. Therefore, drugs that are able to lower glucose levels through unconventional targets are still needed for the treatment of type 2 diabetes. This study aimed to investigate the activity of cardiotoxins from N. sputatrix towards Kv channels as potential targets for glucose level reduction. Molecular docking analysis was conducted using the ClusPro web server, and the resulting protein-ligand interactions were visualized using BioVia Discovery Studio and LigPlus v.4.5.3. The stability of the docking structures was further examined through molecular dynamics simulations. The CTX-1, CTX-3, CTX-4, CTX-5, and CTX-KJC3 sequences from N. sputatrix were aligned and modeled, focusing on the 62-81 amino acid residues. The models of CTX-3, CTX-4, and CTX-5 demonstrated interactions with the binding site of the KcsA receptor. Additionally, substituting the Val74 residue in the CTX62-81 fragment with Lys74 resulted in reduced binding energy and mitigated the cytotoxic effects of CTX, while maintaining its insulinotropic activity

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通过计算设计一种截短的爪哇喷吐眼镜蛇（Naja sputatrix）毒液心脏毒素类似物，将其作为一种前景看好的促胰岛素分泌剂

糖尿病的治疗方案可能千差万别，但约有 50%的糖尿病患者达不到最低血糖目标。因此，治疗 2 型糖尿病仍然需要能够通过非常规靶点降低血糖水平的药物。本研究旨在研究 N. sputatrix 的心脏毒素对 Kv 通道的活性，Kv 通道是降低血糖水平的潜在靶点。使用 ClusPro 网络服务器进行了分子对接分析，并使用 BioVia Discovery Studio 和 LigPlus v.4.5.3 可视化了由此产生的蛋白质配体相互作用。通过分子动力学模拟进一步检验了对接结构的稳定性。对来自 N. sputatrix 的 CTX-1、CTX-3、CTX-4、CTX-5 和 CTX-KJC3 序列进行了对齐和建模，重点研究了 62-81 个氨基酸残基。CTX-3、CTX-4 和 CTX-5 的模型显示了与 KcsA 受体结合位点的相互作用。此外，用 Lys74 取代 CTX62-81 片段中的 Val74 残基可降低结合能，减轻 CTX 的细胞毒性作用，同时保持其促胰岛素活性。

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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Biotropika: Journal of Tropical Biology

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