COVID-19肝脏样本中差异表达基因的药物-疾病相互作用:一项计算机分析

IF 0.1 4区医学 Q4 MEDICINE, RESEARCH & EXPERIMENTAL

Investigacion clinica Pub Date : 2021-11-29 DOI:10.22209/ic.v62n4a03

Susan Omar Rasool, Ata Mirzaei Nahr, Sania Eskandari, Milad Hosseinzadeh, Soheila Asoudeh Moghanloo, F. Ebrahimzadeh

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引用次数: 1

摘要

虽然各种研究都报道了COVID-19肝损伤，但人们对COVID-19患者的疾病-药物反应提出了担忧。在这项研究中，我们在基因表达的计算机模型中检验了基因与疾病相互作用的假设，以寻求细胞色素P450基因的变化。本研究使用死亡COVID-19患者肝脏尸检基因表达综合数据集(GSE150316)。非酒精性脂肪肝活检作为对照(GSE167523)。此外，采用DESeq/EdgeR方法进行基因表达分析。采用GO数据库，路径设置为p<0.05。检索药物-基因相互作用数据库(DGIdb)查找相互作用。结果显示，与健康肝脏相比，SARS-CoV-2中有5147个基因下调，5122个基因上调。与细胞色素相比，在检测到的差异表达基因(DEG)中，34个细胞色素下调，4个细胞色素上调。药物-基因相互作用数据库(DGIdb)提供了与COVID-19可能相互作用的药物清单，以及metacetamol、phenethyl异氰酸酯、amodiaquine、螺内酯、amiloride、阿塞诺可豆醇、clopidogrel、phenprocoumon、trimipramine、phenazepan等药物。此外，异黄酮、缬草和香豆素的膳食化合物以及咖啡因代谢被证明可能与COVID-19疾病相互作用。我们的研究表明，细胞色素P450基因的表达水平可能在COVID-19后发生改变。此外，建议在进一步的研究中，将药物-疾病相互作用清单用于临床评估。

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Drug-disease interactions of differentially expressed genes in COVID-19 liver samples: an in-silico analysis

While COVID-19 liver injuries have been reported in various studies, concerns are raised about disease-drug reactions in COVID-19 patients. In this study, we examined the hypothesis of gene-disease interactions in an in-silico model of gene expression to seek changes in cytochrome P450 genes. The Gene Expression Omnibus dataset of the liver autopsy in deceased COVID-19 patients (GSE150316) was used in this study. Non-alcoholic fatty liver biopsies were used as the control (GSE167523). Besides, gene expression analysis was performed using the DESeq/EdgeR method. The GO databases were used, and the paths were set at p<0.05. The drug-gene interaction database (DGIdb) was searched for interactions. According to the results, 5,147 genes were downregulated, and 5,122 genes were upregulated in SARS-CoV-2 compared to healthy livers. Compared to the cytochromes, 34 cytochromes were downregulated, while 4 cytochromes were upregulated among the detected differentially expressed genes (DEG). The drug-gene interaction database (DGIdb) provided a list of medications with potential interactions with COVID-19 as well as metacetamol, phenethyl isocyanate, amodiaquine, spironolactone, amiloride, acenocoumarol, clopidogrel, phenprocoumon, trimipramine, phenazepam, etc. Besides, dietary compounds of isoflavones, valerian, and coumarin, as well as caffeine metabolism were shown to have possible interactions with COVID-19 disease. Our study showed that expression levels of cytochrome P450 genes could get altered following COVID-19. In addition, a drug-disease interaction list is recommended to be used for evaluations in clinical considerations in further studies.

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