利用胰腺癌基因表达谱分析和模拟研究确定预后标志物和潜在治疗靶点

IF 1.5 4区 医学 Q4 CHEMISTRY, MEDICINAL
Samvedna Singh, Aman Chandra Kaushik, Himanshi Gupta, Divya Jhinjharia, Shakti Sahi
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引用次数: 0

摘要

背景:胰腺导管腺癌(PDAC)的5年相对生存率不到10%,是最致命的癌症之一。缺乏早期预后评估、分子靶向治疗面临挑战、辅助化疗效果不佳以及对化疗的强烈耐药性,这些因素共同导致胰腺癌的治疗面临挑战:本研究旨在通过鉴定胰腺癌的预后生物标志物、潜在药物靶点和可用于治疗的候选药物,加深对疾病机制及其进展的了解:方法:分析 GEO 数据库中的基因表达谱,以确定可靠的预后标志物和潜在的药物靶点。通过研究基因本体、KEGG通路和生存分析,了解关键DEGs的强大预后能力,从而研究该疾病的分子机制和生物通路。通过细胞系数据库筛选了美国 FDA 批准的抗癌药物,并进行了对接研究,以确定与 ARNTL2 和 PIK3C2A 具有高亲和力的药物。对药物靶标ARNTL2和PIK3C2A的原生状态以及与尼罗替尼的复合物进行了100纳秒的分子动态模拟,以验证它们在PDAC中的治疗潜力:结果:发现了SUN1、PSMG3、PIK3C2A、SCRN1和TRIAP1等关键调控基因的差异表达。通过对 CCLE 和 GDSC 胰腺癌细胞系进行敏感性分析,筛选出了尼罗替尼作为候选药物。分子动力学模拟揭示了尼洛替尼与 ARNTL2 和 PIK3C2A 结合的基本机制以及动态扰动。它验证了尼洛替尼是一种治疗胰腺癌的有前途的药物:本研究阐述了预后标志物、药物靶点和再利用抗癌药物,以突出它们在开发新型疗法的转化研究中的作用。我们的研究结果揭示了药物靶点 ARNTL2、表皮生长因子受体(EGFR)和 PI3KC2A 在胰腺癌治疗中的潜在和前瞻性临床应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of Prognostic Markers and Potential Therapeutic Targets using Gene Expression Profiling and Simulation Studies in Pancreatic Cancer.

Background: Pancreatic ductal adenocarcinoma (PDAC) has a 5-year relative survival rate of less than 10% making it one of the most fatal cancers. A lack of early measures of prognosis, challenges in molecular targeted therapy, ineffective adjuvant chemotherapy, and strong resistance to chemotherapy cumulatively make pancreatic cancer challenging to manage.

Objective: The present study aims to enhance understanding of the disease mechanism and its progression by identifying prognostic biomarkers, potential drug targets, and candidate drugs that can be used for therapy in pancreatic cancer.

Methods: Gene expression profiles from the GEO database were analyzed to identify reliable prognostic markers and potential drug targets. The disease's molecular mechanism and biological pathways were studied by investigating gene ontologies, KEGG pathways, and survival analysis to understand the strong prognostic power of key DEGs. FDA-approved anti-cancer drugs were screened through cell line databases, and docking studies were performed to identify drugs with high affinity for ARNTL2 and PIK3C2A. Molecular dynamic simulations of drug targets ARNTL2 and PIK3C2A in their native state and complex with nilotinib were carried out for 100 ns to validate their therapeutic potential in PDAC.

Results: Differentially expressed genes that are crucial regulators, including SUN1, PSMG3, PIK3C2A, SCRN1, and TRIAP1, were identified. Nilotinib as a candidate drug was screened using sensitivity analysis on CCLE and GDSC pancreatic cancer cell lines. Molecular dynamics simulations revealed the underlying mechanism of the binding of nilotinib with ARNTL2 and PIK3C2A and the dynamic perturbations. It validated nilotinib as a promising drug for pancreatic cancer.

Conclusion: This study accounts for prognostic markers, drug targets, and repurposed anti-cancer drugs to highlight their usefulness for translational research on developing novel therapies. Our results revealed potential and prospective clinical applications in drug targets ARNTL2, EGFR, and PI3KC2A for pancreatic cancer therapy.

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来源期刊
Current computer-aided drug design
Current computer-aided drug design 医学-计算机:跨学科应用
CiteScore
3.70
自引率
5.90%
发文量
46
审稿时长
>12 weeks
期刊介绍: Aims & Scope Current Computer-Aided Drug Design aims to publish all the latest developments in drug design based on computational techniques. The field of computer-aided drug design has had extensive impact in the area of drug design. Current Computer-Aided Drug Design is an essential journal for all medicinal chemists who wish to be kept informed and up-to-date with all the latest and important developments in computer-aided methodologies and their applications in drug discovery. Each issue contains a series of timely, in-depth reviews, original research articles and letter articles written by leaders in the field, covering a range of computational techniques for drug design, screening, ADME studies, theoretical chemistry; computational chemistry; computer and molecular graphics; molecular modeling; protein engineering; drug design; expert systems; general structure-property relationships; molecular dynamics; chemical database development and usage etc., providing excellent rationales for drug development.
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