使用RNA-seq鉴定适合人类脂肪来源干细胞缺氧研究的管家基因。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Huan Ting Ong, Cecilia M Prêle, Rodney J Dilley
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引用次数: 0

摘要

背景:缺氧培养条件已被用于研究缺氧对许多疾病模型中基因表达的影响。然而,一些常用的管家基因(如GAPDH和PGK1)的启动子区域中存在的缺氧反应元件可能会混淆相关基因的表达分析。因此,关于哪个管家基因适合研究缺氧诱导的细胞反应,存在持续的争论。具体地说,关于管家基因在间充质干细胞缺氧培养中是稳定的,仍然存在矛盾的信息。在这项研究中,从文献中筛选的候选管家基因与常氧和低氧人类脂肪源性干细胞培养的RNAseq数据相匹配,以确定基因表达是否受到缺氧的调节。选取候选基因的表达水平计算变异系数。然后,在使用qRT-PCR验证之前,考虑平均变异系数和归一化对数倍变化,对基因进行排名和入围。然后使用GeNorm、NormFinder、BestKeeper、comparative[公式:见文本]、RefFinder和Livak方法确定管家基因的适宜性。结果:在Nx和Hx条件下培养的hADSC生成的RNAseq数据集中分析了文献中鉴定的78个候选基因的基因表达水平。从数据集中筛选出15个变异系数≤0.15的候选基因,差异表达分析结果进一步筛选出8个表达水平变异最小的基因。选择前4个管家基因候选基因ALAS1、RRP1、GUSB和POLR2B进行qRT-PCR验证。此外,18S,一种常用的内务基因,但在RNAseq方法中未检测到的核糖体RNA,被添加到内务基因候选列表中进行验证。qRT-PCR结果表明,在缺氧条件下培养的细胞中,18S和RRP1稳定表达。结论:我们已经证明18S和RRP1是适合用于人类脂肪来源干细胞缺氧研究的管家基因,应该联合使用。此外,这些数据表明,常用的GAPDH和PGK1不适合用于研究缺氧对人类脂肪源性干细胞的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Using RNA-seq to identify suitable housekeeping genes for hypoxia studies in human adipose-derived stem cells.

Using RNA-seq to identify suitable housekeeping genes for hypoxia studies in human adipose-derived stem cells.

Using RNA-seq to identify suitable housekeeping genes for hypoxia studies in human adipose-derived stem cells.

Using RNA-seq to identify suitable housekeeping genes for hypoxia studies in human adipose-derived stem cells.

Background: Hypoxic culture conditions have been used to study the impact of oxygen deprivation has on gene expression in a number of disease models. However, hypoxia response elements present in the promoter regions of some commonly used housekeeping genes, such as GAPDH and PGK1, can confound the relative gene expression analysis. Thus, there is ongoing debate as to which housekeeping gene is appropriate for studies investigating hypoxia-induced cell responses. Specifically, there is still contradicting information for which housekeeping genes are stable in hypoxia cultures of mesenchymal stem cells. In this study, candidate housekeeping genes curated from the literature were matched to RNAseq data of normoxic and hypoxic human adipose-derived stem cell cultures to determine if gene expression was modulated by hypoxia or not. Expression levels of selected candidates were used to calculate coefficient of variation. Then, accounting for the mean coefficient of variation, and normalised log twofold change, genes were ranked and shortlisted, before validating with qRT-PCR. Housekeeping gene suitability were then determined using GeNorm, NormFinder, BestKeeper, comparative[Formula: see text], RefFinder, and the Livak method.

Results: Gene expression levels of 78 candidate genes identified in the literature were analysed in the RNAseq dataset generated from hADSC cultured under Nx and Hx conditions. From the dataset, 15 candidates with coefficient of variation ≤ 0.15 were identified, where differential expression analysis results further shortlisted 8 genes with least variation in expression levels. The top 4 housekeeping gene candidates, ALAS1, RRP1, GUSB, and POLR2B, were chosen for qRT-PCR validation. Additionally, 18S, a ribosomal RNA commonly used as housekeeping gene but not detected in the RNAseq method, was added to the list of housekeeping gene candidates to validate. From qRT-PCR results, 18S and RRP1 were determined to be stably expressed in cells cultured under hypoxic conditions.

Conclusions: We have demonstrated that 18S and RRP1 are suitable housekeeping genes for use in hypoxia studies with human adipose-derived stem cell and should be used in combination. Additionally, these data shown that the commonly used GAPDH and PGK1 are not suitable housekeeping genes for investigations into the effect of hypoxia in human adipose-derived stem cell.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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