荧光激活细胞分选后进行小RNA测序揭示了细胞周期进程中微小RNA表达的稳定性。

Fluorescence activated cell sorting followed by small RNA sequencing reveals stable microRNA expression during cell cycle progression.

作者信息

Grolmusz Vince Kornél, Tóth Eszter Angéla, Baghy Kornélia, Likó István, Darvasi Ottó, Kovalszky Ilona, Matkó János, Rácz Károly, Patócs Attila

机构信息

2nd Department of Medicine, Semmelweis University, Szentkirályi utca 46, 1088, Budapest, Hungary.

"Lendület" Hereditary Endocrine Tumours Research Group, Hungarian Academy of Sciences, Semmelweis University, Szentkirályi utca 46, 1088, Budapest, Hungary.

出版信息

BMC Genomics. 2016 May 27;17:412. doi: 10.1186/s12864-016-2747-6.

DOI:10.1186/s12864-016-2747-6

PMID:27234232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4884355/

Abstract

BACKGROUND

Previously, drug-based synchronization procedures were used for characterizing the cell cycle dependent transcriptional program. However, these synchronization methods result in growth imbalance and alteration of the cell cycle machinery. DNA content-based fluorescence activated cell sorting (FACS) is able to sort the different cell cycle phases without perturbing the cell cycle. MiRNAs are key transcriptional regulators of the cell cycle, however, their expression dynamics during cell cycle has not been explored.

METHODS

Following an optimized FACS, a complex initiative of high throughput platforms (microarray, Taqman Low Density Array, small RNA sequencing) were performed to study gene and miRNA expression profiles of cell cycle sorted human cells originating from different tissues. Validation of high throughput data was performed using quantitative real time PCR. Protein expression was detected by Western blot. Complex statistics and pathway analysis were also applied.

RESULTS

Beyond confirming the previously described cell cycle transcriptional program, cell cycle dependently expressed genes showed a higher expression independently from the cell cycle phase and a lower amplitude of dynamic changes in cancer cells as compared to untransformed fibroblasts. Contrary to mRNA changes, miRNA expression was stable throughout the cell cycle.

CONCLUSIONS

Cell cycle sorting is a synchronization-free method for the proper analysis of cell cycle dynamics. Altered dynamic expression of universal cell cycle genes in cancer cells reflects the transformed cell cycle machinery. Stable miRNA expression during cell cycle progression may suggest that dynamical miRNA-dependent regulation may be of less importance in short term regulations during the cell cycle.

摘要

背景

以前，基于药物的同步化程序用于表征细胞周期依赖性转录程序。然而，这些同步化方法会导致生长失衡和细胞周期机制的改变。基于DNA含量的荧光激活细胞分选（FACS）能够分选不同的细胞周期阶段而不干扰细胞周期。微小RNA（miRNA）是细胞周期的关键转录调节因子，然而，它们在细胞周期中的表达动态尚未得到探索。

方法

在优化FACS之后，开展了一项由高通量平台（微阵列、Taqman低密度阵列、小RNA测序）组成的综合研究，以研究源自不同组织的经细胞周期分选的人类细胞的基因和miRNA表达谱。使用定量实时PCR对高通量数据进行验证。通过蛋白质印迹法检测蛋白质表达。还应用了复杂的统计和通路分析。

结果

除了证实先前描述的细胞周期转录程序外，与未转化的成纤维细胞相比，细胞周期依赖性表达的基因在癌细胞中显示出与细胞周期阶段无关的更高表达以及更低的动态变化幅度。与mRNA变化相反，miRNA表达在整个细胞周期中是稳定的。

结论

细胞周期分选是一种无需同步化即可正确分析细胞周期动态的方法。癌细胞中普遍细胞周期基因的动态表达改变反映了转化的细胞周期机制。细胞周期进程中miRNA表达的稳定性可能表明，在细胞周期的短期调节中，依赖miRNA的动态调节可能不太重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/34e1/4884355/d85402735aae/12864_2016_2747_Fig1_HTML.jpg

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荧光激活细胞分选后进行小RNA测序揭示了细胞周期进程中微小RNA表达的稳定性。

Fluorescence activated cell sorting followed by small RNA sequencing reveals stable microRNA expression during cell cycle progression.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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