单细胞转录组学、网络系统药理学和综合转录组学网络分析确定了 2 型糖尿病的诊断靶点和候选药物。

Tingting Li, Qiumei Lin, Danni Zhou, Yi Jiang, Sheng Chen, Ruoqing Li
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引用次数: 0

摘要

目的:发现 2 型糖尿病(T2D)的新治疗靶点并开发新的诊断模型:2 型糖尿病是一种慢性疾病,可以通过口服降糖药控制病情,但无法完全治愈。T2D 患病率的持续上升和现有治疗方法的局限性迫切要求开发新的药物,以有效控制疾病的发展:我们的目标是发现治疗 T2D 的新靶点,并开发一种新的诊断模型:方法:应用单细胞转录组、网络系统药理学和转录物学等方法确定T2D诊断靶点和候选药物,并分析其潜在的分子机制:通过单细胞聚类分析,我们在正常胰岛β细胞样本和T2D胰岛β细胞样本之间发现了7个亚群。通过蛋白相互作用(PPI)分析和分子复合检测(MCODE)分析,共筛选出胰岛素相关基因和糖尿病相关基因交汇处的27个关键基因。值得注意的是,ESR1、MME 和 CCR5 对 T2D 诊断的曲线下面积(AUC)值分别高达 67.95%、66.67% 和 66.03%。由于MME在T2D样本中的表达明显高于正常样本,我们筛选了155种针对T2D中MME的候选药物。最后,分子对接显示,MME与DB05490之间的结合力很强,DB05490是治疗T2D最有效的候选药物之一:结论:我们的研究筛选出了T2D的诊断特征和潜在治疗药物,为T2D生物标志物的开发及其药物发现提供了有价值的见解。
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Single-cell Transcriptomics, Web-based Systems Pharmacology and Integrated Transcriptomics Network Analysis Identified Diagnostic Targets and Drug Candidates for Type 2 Diabetes.

Aim: To discover new therapeutic targets for Type 2 diabetes (T2D) and develop a new diagnostic model.

Background: T2D is a chronic disease that can be controlled by oral hypoglycemic drugs, however, it cannot be fully cured. The continued increase in the prevalence of T2D and the limitations of existing treatments urgently call for the development of new drugs to be able to effectively control the progression of the disease.

Objective: We aimed to discover new therapeutic targets for T2D and to develop a new diagnostic model.

Method: Single-cell transcriptome, web-based systematic pharmacology, and transcriptology were applied to identify T2D diagnostic targets and drug candidates and to analyze the underlying molecular mechanisms.

Results: By single-cell clustering analysis, we identified seven subsets between the normal islet β-cell samples and T2D islet β-cell samples. A total of 27 key genes in the intersection of insulin- related genes and diabetes-related genes were selected by protein-protein interaction (PPI) analysis and MolecularComplexDetection (MCODE) analysis. Notably, ESR1, MME, and CCR5 had the area under curves (AUC) values as high as 67.95%, 66.67%, and 66.03% for the diagnosis of T2D, respectively. Since the expression of MME in T2D samples was significantly higher than in normal samples, we screened 155 drug candidates against MME in T2D. Finally, the molecular docking revealed a strong binding strength between MME and DB05490, which was one of the most effective candidate drugs for treating T2D.

Conclusion: Our study screens for diagnostic signatures and potential therapeutic agents for T2D, which provides valuable insights into the development of T2D biomarkers and their drug discovery.

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