Elucidating the identity of resistance mechanisms to prednisolone exposure in acute lymphoblastic leukemia cells through transcriptomic analysis: A computational approach.

Emmanouil G Sifakis, George I Lambrou, Andriana Prentza, Spiros Vlahopoulos, Dimitris Koutsouris, Fotini Tzortzatou-Stathopoulou, Aristotelis A Chatziioannou
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引用次数: 8

Abstract

Background: It has been shown previously that glucocorticoids exert a dual mechanism of action, entailing cytotoxic, mitogenic as well as cell proliferative and anti-apoptotic responses, in a dose-dependent manner on CCRF-CEM cells at 72 h. Early gene expression response implies a dose-dependent dual mechanism of action of prednisolone too, something reflected on cell state upon 72 h of treatment.

Methods: In this work, a generic, computational microarray data analysis framework is proposed, in order to examine the hypothesis, whether CCRF-CEM cells exhibit an intrinsic or acquired mechanism of resistance and investigate the molecular imprint of this, upon prednisolone treatment. The experimental design enables the examination of both the dose (0 nM, 10 nM, 22 uM, 700 uM) effect of glucocorticoid exposure and the dynamics (early and late, namely 4 h, 72 h) of the molecular response of the cells at the transcriptomic layer.

Results: In this work, we demonstrated that CCRF-CEM cells may attain a mixed mechanism of response to glucocorticoids, however, with a clear preference towards an intrinsic mechanism of resistance. Specifically, at 4 h, prednisolone appeared to down-regulate apoptotic genes. Also, low and high prednisolone concentrations up-regulates genes related to metabolism and signal-transduction in both time points, thus favoring cell proliferative actions. In addition, regulation of NF-κB-related genes implies an inherent mechanism of resistance through the established link of NF-κB inflammatory role and GC-induced resistance. The analysis framework applied here highlights prednisolone-activated regulatory mechanisms through identification of early responding sets of genes. On the other hand, study of the prolonged exposure to glucocorticoids (72 h exposure) highlights the effect of homeostatic feedback mechanisms of the treated cells.

Conclusions: Overall, it appears that CCRF-CEM cells in this study exhibit a diversified, combined pattern of intrinsic and acquired resistance to prednisolone, with a tendency towards inherent resistant characteristics, through activation of different molecular courses of action.

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通过转录组学分析阐明急性淋巴细胞对泼尼松龙暴露的耐药机制:一种计算方法。
背景:先前已有研究表明,糖皮质激素在72 h时对CCRF-CEM细胞具有剂量依赖性的双重作用机制,包括细胞毒性、有丝分裂以及细胞增殖和抗凋亡反应。早期基因表达反应也意味着强的松龙具有剂量依赖性的双重作用机制,这反映在治疗72 h时的细胞状态上。方法:在这项工作中,提出了一个通用的计算微阵列数据分析框架,以检验假设,CCRF-CEM细胞是否表现出内在或获得性的耐药机制,并研究泼尼松龙治疗后这种机制的分子印记。实验设计能够检测糖皮质激素暴露的剂量(0 nM, 10 nM, 22 uM, 700 uM)效应和转录组层细胞分子反应的动态(早期和晚期,即4 h, 72 h)。结果:在这项工作中,我们证明了CCRF-CEM细胞可能对糖皮质激素产生混合的反应机制,然而,明显倾向于内在的抵抗机制。具体来说,在4小时,强的松龙似乎下调了凋亡基因。此外,强的松龙低浓度和高浓度在两个时间点上调与代谢和信号转导相关的基因,从而有利于细胞增殖作用。此外,NF-κB相关基因的调控通过NF-κB炎症作用与gc诱导的耐药之间的联系,暗示了其内在的耐药机制。本文应用的分析框架强调通过识别早期反应的基因,强的松龙激活的调控机制。另一方面,长期暴露于糖皮质激素(暴露72小时)的研究强调了处理细胞的稳态反馈机制的影响。结论:总的来说,在本研究中,CCRF-CEM细胞通过激活不同的分子作用过程,对强的松龙表现出内在和获得性耐药的多样化组合模式,并倾向于固有耐药特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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