通过网络生物学、药物再利用和虚拟筛选策略,探索胃癌的潜在生物标志物和先导分子。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-30 DOI:10.1007/s11030-024-10995-6
Sagarika Saha, Sanket Bapat, Durairaj Vijayasarathi, Renu Vyas
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引用次数: 0

摘要

胃癌对全球健康构成了重大挑战,需要采用创新方法来发现生物标志物和进行治疗干预。本研究采用了一种整合网络生物学、药物再利用和虚拟筛选的多元策略,以阐明和扩展胃癌的分子图谱。我们利用来自不同数据库的数据和文本挖掘技术,确定了与胃癌有关的关键基因,并对其进行了优先排序。网络分析突显了错综复杂的基因相互作用,强调了潜在的治疗靶点,如 CTNNB1、BCL2、TP53 等,并强调了 ACTB 是对疾病进展至关重要的顶级枢纽基因。通过分子对接和动力学模拟验证,对 626 种经 FDA 批准用于消化系统相关癌症的药物进行药物再利用,发现 Norgestimate 和 Nimesulide 可能是治疗胃癌的最佳候选药物。此外,通过对已知化学类型的支架库进行组合合成,生成了 56,160 个虚拟化合物,其中 76 个新化合物是根据关键残基的结合亲和力和相互作用进行优先排序的。热点残基分析发现,GLU 214 和其他残基对配体结合稳定性至关重要,可增强化合物的功效和特异性。这些发现支持了靶向胃癌治疗中β-肌动蛋白的治疗潜力,预示着进一步实验验证和临床转化的前景。总之,本研究强调了可再利用药物和虚拟筛选的潜力,这些药物可与现有的抗胃癌药物联合用于胃癌治疗,强调了计算方法在药物发现中的作用。
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Exploring potential biomarkers and lead molecules in gastric cancer by network biology, drug repurposing and virtual screening strategies.

Gastric cancer poses a significant global health challenge, necessitating innovative approaches for biomarker discovery and therapeutic intervention. This study employs a multifaceted strategy integrating network biology, drug repurposing, and virtual screening to elucidate and expand the molecular landscape of gastric cancer. We identified and prioritized key genes implicated in gastric cancer by utilizing data from diverse databases and text-mining techniques. Network analysis underscored intricate gene interactions, emphasizing potential therapeutic targets such as CTNNB1, BCL2, TP53, etc, and highlighted ACTB among the top hub genes crucial in disease progression. Drug repurposing on 626 FDA-approved drugs for digestive system-related cancers revealed Norgestimate and Nimesulide as likely top candidates for gastric cancer, validated by molecular docking and dynamics simulations. Further, combinatorial synthesis of scaffold libraries derived from known chemotypes generated 56,160 virtual compounds, of which 76 new compounds were prioritized based on promising binding affinities and interactions at critical residues. Hotspot residue analysis identified GLU 214 and others as essential for ligand binding stability, enhancing compound efficacy and specificity. These findings support the therapeutic potential of targeting beta-actin protein in gastric cancer treatment, suggesting a future for further experimental validation and clinical translation. In conclusion, this study highlights the potential of repurposable drugs and virtual screening which can be used in combination with existing anti-gastric cancer drugs for gastric cancer therapy, emphasizing the role of computational methodologies in drug discovery.

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CiteScore
7.20
自引率
4.30%
发文量
567
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