针对蛋白酶体和组蛋白去乙酰化酶抑制剂在tp53突变癌症中的合成致死药物组合

Shaoli Das, Xiang Deng, K. Camphausen, U. Shankavaram
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引用次数: 1

摘要

背景:我们最近发布了SL-BioDP,这是一个网络资源,用于查询、探索和可视化18种癌症类型的潜在合成致死靶点和可能的协同药物组合。方法:根据SL-BioDP的预测合成致死模型,我们推断TP53突变可能导致硼替佐米和伏立诺他联合用药的协同作用。在这里,我们展示了如何通过结合来自癌细胞系的药物筛选数据来推断药物联合结果,并分别展示了药物靶点、蛋白酶体和组蛋白去乙酰化酶(HDAC)途径的潜在协同作用,以提高患者的生存优势。结果:我们发现TP53突变与蛋白酶体和HDAC通路的多个基因在许多癌症类型中具有潜在的合成致死性。同时发现HDAC与蛋白酶体存在潜在的合成致死关系。利用肿瘤细胞系的药物筛选数据,发现在蛋白酶体通路下调的TP53突变细胞中,HDAC抑制剂药物Vorinostat的敏感性增加。结论:我们的计算机药物基因组学研究表明,蛋白酶体和HDAC抑制剂的潜在协同药物组合可能被认为是tp53突变型癌症的潜在治疗方法。
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Synthetic Lethal Drug Combinations Targeting Proteasome and Histone Deacetylase Inhibitors in TP53-Mutated Cancers
Background: We have recently published SL-BioDP, a web resource for querying, exploration and visualization of potential synthetic lethal targets and possible synergistic drug combinations for 18 cancer types. Methods: From our predictive synthetic lethality model used in SL-BioDP, we inferred TP53 mutation lead to potential synergistic drug combination of Bortezomib and Vorinostat. Here we show, how to extrapolate the drug combination results by combining drug screening data from cancer cell lines and showed the potential synergy of the drug targets, proteasome, and histone deacetylase (HDAC) pathways respectively, for patient survival advantage. Results: We found that TP53 mutation is potentially synthetic lethal with multiple genes from the proteasome and HDAC pathways exclusively in many cancer types. Also, HDAC and proteasomes were found to have potential synthetic lethal relationship. Using drug screening data in cancer cell line, the sensitivity of the HDAC inhibitor drug Vorinostat was found to be increased in TP53 mutated cells where the proteasome pathway was downregulated. Conclusions: Our in-silico pharmacogenomic study indicates that the potential synergistic drug combination of proteasome and HDAC inhibitors may be considered as potential treatment for TP53-mutant cancers.
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