评估在研究硒依赖性谷胱甘肽过氧化物酶 2 (GPX2) 参与结直肠癌时使用细胞系的情况

IF 2.9 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Diseases (Basel, Switzerland) Pub Date : 2024-09-10 DOI:10.3390/diseases12090207
R Steven Esworthy
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引用次数: 0

摘要

众所周知,氢过氧化物(ROOHs)是一种能够介导突变的破坏性物质,而通过氧化蛋白质的巯基来改变与癌症有关的通路,从而起到信号传导的作用,这一点已得到越来越多的关注。谷胱甘肽过氧化物酶 2(GPX2)是一种抗氧化酶,能以谷胱甘肽(GSH)为代价还原 ROOH。GPX2 在肿瘤发生过程中的表达水平有大幅增减的趋势,这使研究人员开始关注它在癌症中的作用。然而,GPX2 只是代谢 ROOH 的多个酶家族中的一个组成部分,在这些其他 ROOH 还原活动中,GPX2 的水平往往很低。结直肠癌(CRC)被选为研究 GPX2 功能的案例,因为结直肠组织和癌症是 GPX2 高表达的部位。表达水平的变化会产生重大影响。GPX2 和 NADPH 氧化酶 1(NOX1)之间的联系在早期的研究中也很少涉及,本文对这一联系进行了讨论,并提供了结肠和 CRC 中独特联系的数据。在涉及 GPX2 在 CRC 中的作用的临床前研究中,肿瘤衍生细胞系非常常用。一般来说,这类工作的选择仅限于根据 GPX2 的高低表达来确定细胞系,标准的研究方案是在低表达细胞系中过表达,在高表达细胞系中抑制 GPX2 的表达,以确定受影响的通路。这就忽略了细胞系中涉及多种基因表达谱和各种驱动基因突变差异的 CRC 亚型,以及 GPX2 表达水平的巨大差异。本报告显示,GPX2表达量低和高的细胞系有分离成不同CRC亚类的趋势,这表明仅根据GPX2水平进行选择可能会提供误导性和相互矛盾的结果,因为它忽视了细胞系的其他特性,也没有考虑到ROOHs潜在蛋白靶标的差异。本文介绍的 CRC 和细胞系分类方案旨在帮助工作人员进行临床前研究,但在 GPX2 和 CRC 的研究中却基本上没有被注意到。启动研究的前提通常是正常细胞向 CRC 的转变与 GPX2 的上调有关。这可能是正确的。然而,CRC 的源正常细胞几乎可以是任何结肠细胞类型,其中一些细胞的 GPX2 水平非常高。本研究将探讨这些因素。
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Evaluation of the Use of Cell Lines in Studies of Selenium-Dependent Glutathione Peroxidase 2 (GPX2) Involvement in Colorectal Cancer.

Hydroperoxides (ROOHs) are known as damaging agents capable of mediating mutation, while a role as signaling agents through oxidation of protein sulfhydryls that can alter cancer-related pathways has gained traction. Glutathione peroxidase 2 (GPX2) is an antioxidant enzyme that reduces ROOHs at the expense of glutathione (GSH). GPX2 is noted for a tendency of large increases or decreases in expression levels during tumorigenesis that leads to investigators focusing on its role in cancer. However, GPX2 is only one component of multiple enzyme families that metabolize ROOH, and GPX2 levels are often very low in the context of these other ROOH-reducing activities. Colorectal cancer (CRC) was selected as a case study for examining GPX2 function, as colorectal tissues and cancers are sites where GPX2 is highly expressed. A case can be made for a significant impact of changes in expression levels. There is also a link between GPX2 and NADPH oxidase 1 (NOX1) from earlier studies that is seldom addressed and is discussed, presenting data on a unique association in colon and CRC. Tumor-derived cell lines are quite commonly used for pre-clinical studies involving the role of GPX2 in CRC. Generally, selection for this type of work is limited to identifying cell lines based on high and low GPX2 expression with the standard research scheme of overexpression in low-expressing lines and suppression in high-expressing lines to identify impacted pathways. This overlooks CRC subtypes among cell lines involving a wide range of gene expression profiles and a variety of driver mutation differences, along with a large difference in GPX2 expression levels. A trend for low and high GPX2 expressing cell lines to segregate into different CRC subclasses, indicated in this report, suggests that choices based solely on GPX2 levels may provide misleading and conflicting results by disregarding other properties of cell lines and failing to factor in differences in potential protein targets of ROOHs. CRC and cell line classification schemes are presented here that were intended to assist workers in performing pre-clinical studies but are largely unnoted in studies on GPX2 and CRC. Studies are often initiated on the premise that the transition from normal to CRC is associated with upregulation of GPX2. This is probably correct. However, the source normal cells for CRC could be almost any colon cell type, some with very high GPX2 levels. These factors are addressed in this study.

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