Systematic review of comparative transcriptomic studies of cellular resistance to genotoxic stress

IF 6.4 2区 医学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Z.B. Ismailov , E.S. Belykh , A.A. Chernykh , A.M. Udoratina , D.V. Kazakov , A.V. Rybak , S.N. Kerimova , I.O. Velegzhaninov
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Abstract

The development of resistance by tumor cells to various types of therapy is a significant problem that decreases the effectiveness of oncology treatments. For more than two decades, comparative transcriptomic studies of tumor cells with different sensitivities to ionizing radiation and chemotherapeutic agents have been conducted in order to identify the causes and mechanisms underlying this phenomenon. However, the results of such studies have little in common and often contradict each other. We have assumed that a systematic analysis of a large number of such studies will provide new knowledge about the mechanisms of development of therapeutic resistance in tumor cells. Our comparison of 123 differentially expressed gene (DEG) lists published in 98 papers suggests a very low degree of consistency between the study results. Grouping the data by type of genotoxic agent and tumor type did not increase the similarity. The most frequently overexpressed genes were found to be those encoding the transport protein ABCB1 and the antiviral defense protein IFITM1. We put forward a hypothesis that the role played by the overexpression of the latter in the development of resistance may be associated not only with the stimulation of proliferation, but also with the limitation of exosomal communication and, as a result, with a decrease in the bystander effect. Among down regulated DEGs, BNIP3 was observed most frequently. The expression of BNIP3, together with BNIP3L, is often suppressed in cells resistant to non-platinum genotoxic chemotherapeutic agents, whereas it is increased in cells resistant to ionizing radiation. These observations are likely to be mediated by the binary effects of these gene products on survival, and regulation of apoptosis and autophagy. The combined data also show that even such obvious mechanisms as inhibition of apoptosis and increase of proliferation are not universal but show multidirectional changes.

对基因毒性应激细胞抗性比较转录组学研究的系统回顾
肿瘤细胞对各种类型的治疗产生耐药性是降低肿瘤治疗有效性的一个重要问题。二十多年来,对对电离辐射和化疗药物具有不同敏感性的肿瘤细胞进行了比较转录组学研究,以确定这种现象的原因和机制。然而,这些研究的结果几乎没有共同点,而且往往相互矛盾。我们认为,对大量此类研究的系统分析将为肿瘤细胞治疗耐药性的发展机制提供新的知识。我们对发表在98篇论文中的123个差异表达基因(DEG)列表的比较表明,研究结果之间的一致性非常低。按基因毒性药物类型和肿瘤类型对数据进行分组并没有增加相似性。发现最常见的过表达基因是编码转运蛋白ABCB1和抗病毒防御蛋白IFITM1的基因。我们提出了一个假设,即后者在耐药性发展中的过度表达不仅可能与增殖的刺激有关,还可能与外泌体通讯的限制有关,因此,与旁观者效应的减少有关。在下调的DEG中,BNIP3最为常见。BNIP3和BNIP3L的表达通常在对非铂基因毒性化疗剂具有耐药性的细胞中被抑制,而在对电离辐射具有耐药性的电池中增加。这些观察结果可能是由这些基因产物对生存、细胞凋亡和自噬的调节的二元作用介导的。综合数据还表明,即使是抑制细胞凋亡和增加增殖这样明显的机制也不是普遍的,而是显示出多方向的变化。
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来源期刊
CiteScore
12.20
自引率
1.90%
发文量
22
审稿时长
15.7 weeks
期刊介绍: The subject areas of Reviews in Mutation Research encompass the entire spectrum of the science of mutation research and its applications, with particular emphasis on the relationship between mutation and disease. Thus this section will cover advances in human genome research (including evolving technologies for mutation detection and functional genomics) with applications in clinical genetics, gene therapy and health risk assessment for environmental agents of concern.
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