基于生物信息学筛选调节人类小梁网状细胞青光眼相关转录组的关键 LncRNA。

IF 3.3 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Junhong Guo, Yunfei Wu, Yue Sun, Dong Chen, Yijia Huang, Xiaoli Shen, Zhichao Yan, Jiantao Wang
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引用次数: 0

摘要

目的:人类小梁网(HTM)的形态和功能在青光眼中失调,而这种失调的分子机制仍然未知。我们根据已建立的体外模型,系统分析了细胞中重要的调控 RNA--长非编码 RNA(lncRNA)的表达模式,该模型的作用是研究维持 HTM 细胞对基质硬度增加的反应的调控网络:方法:利用转录组测序数据(RNA-seq)进行生物信息学分析,以确定基质硬度增加时表达失调的lncRNA。然后,我们干扰了几种调控失调的 lncRNA 在 HTM 细胞中的表达,以探索它们的分子靶标。交联免疫沉淀和测序法(CLIP-seq)被用来鉴定HTM细胞中的泽斯特同源增强子2(EZH2)靶向RNA。染色质 IP 和测序方法(ChIP-seq)用于鉴定 EZH2 和组蛋白 H3 赖氨酸 27(H3K27me3)的靶标:结果:通过RNA-seq确定了数千个调控失调的lncRNA对底物硬度增加的反应。对这些lncRNA的功能预测显示,它们可能调控关键的生物过程,包括细胞外基质(ECM)的组织。通过干扰lncRNA SHNG8、ZFHX4-AS1和RP11-552M11.4的表达,结果表明这些lncRNA广泛调控ECM相关基因的表达水平。此外,我们还发现 EZH2 的表达在底物硬度较高时显著下降。通过 CLIP-seq 鉴定 HTM 细胞中 EZH2 靶向的 RNA,我们发现 SNHG8 与 EZH2 结合。根据EZH2的CLIP-seq数据,我们发现在SNHG8调控基因的转录本中观察到了EZH2结合位点,但在EZH2和H3K27me3的ChIP-seq结果中没有观察到:我们的研究结果表明,SNHG8和EZH2可能通过影响基因的RNA丰度,合作调控了一部分基因的表达,从而解释了它们是如何支持HTM细胞形态和高密度的。这项研究通过鉴定功能性lncRNA,特别是SNHG8,有助于理解青光眼进展过程中HTM的改变,并提出了治疗青光眼的新靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bioinformatics-Based Screening of Key LncRNAs for Modulating the Transcriptome Associated with Glaucoma in Human Trabecular Meshwork Cells.

Objective: The morphology and functions of the human trabecular meshwork (HTM) are dysregulated in glaucoma, and the molecular mechanisms of this dysregulation remain unknown. According to an established in vitro model, whose function was to study the regulatory networks sustaining the response of HTM cells to the increased substrate stiffness, we systematically analyzed the expression pattern of long noncoding RNAs (lncRNAs), the important regulatory RNAs in cells.

Methods: Bioinformatics analysis was performed to identify the dysregulated lncRNAs in response to increased substrate stiffness using transcriptome sequencing data (RNA-seq). Then we interfered with the expression of several dysregulated lncRNAs in HTM cells to explore their molecular targets. The cross-linking immunoprecipitation and sequencing method (CLIP-seq) was used to identify enhancer of zeste homolog 2 (EZH2)-targeted RNAs in HTM cells. The chromatin IP and sequencing method (ChIP-seq) was used to identify the targets of EZH2 and histone H3 at lysine 27 (H3K27me3).

Results: The response of thousands of dysregulated lncRNAs to increased substrate stiffness was identified through RNA-seq. Functional prediction of these lncRNAs revealed that they potentially regulated key biological processes, including extracellular matrix (ECM) organization. By interfering with the expression of lncRNA SHNG8, ZFHX4-AS1, and RP11-552M11.4, the results demonstrated that those lncRNAs extensively regulated the expression levels of ECM-associated genes. Moreover, we found that EZH2 expression was significantly decreased at high substrate stiffness. Using CLIP-seq to identify EZH2-targeted RNAs in HTM cells, we found that SNHG8 was bound by EZH2. According to the CLIP-seq data of EZH2, we found that EZH2 binding sites were observed in the transcripts of SNHG8-regulated genes, but not in the ChIP-seq results of EZH2 and H3K27me3.

Conclusion: Our results suggest that SNHG8 and EZH2 may cooperate to regulate the expression of a subset of genes by influencing their RNA abundance, explaining how they support HTM cell morphology and high density. This study contributes to the understanding of the alteration of HTM during the progression of glaucoma by identifying functional lncRNAs, especially SNHG8, and suggests novel therapeutic targets to treat glaucoma.

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