Identification and analysis of epithelial-mesenchymal transition-related key long non-coding RNAs in hypospadias

IF 1.9 4区 生物学 Q4 CELL BIOLOGY IET Systems Biology Pub Date : 2024-07-25 DOI:10.1049/syb2.12096
Hongjie Gao, Chen Ding, Mengmeng Chang, Zhiyi Lu, Ding Li, Dan Bi, Fengyin Sun
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Abstract

EMT dysfunction is a dominant mechanisms of hypospadias. Thus, identification of EMT-related lncRNAs based on transcriptome sequencing data of hypospadias might provide novel molecular markers and therapeutic targets for hypospadias. First, the microarray data related to hypospadias were downloaded from Gene Expression Omnibus (GEO). Besides, the differentially expressed lncRNAs and messenger RNAs (mRNAs) related to EMT were screened to construct lncRNA-mRNA co-expression interaction pairs. In addition, the microRNA (miRNA) prediction analysis was performed through bioinformatics methods to construct a ceRNA network. Moreover, function prediction and function enrichment and pathway analyses were also performed. Finally, the core EMT-related lncRNAs were verified based on mRNA expression changes and cell functions. A total of 6 EMT-related lncRNAs were identified and 123 mRNA-lncRNA co-expression interaction pairs were screened in this study. Additionally, a ceRNA regulatory network comprising 17 mRNAs, 4 lncRNAs, and 28 miRNAs was constructed based on the prediction of hypospadias-related miRNAs. The validation results of the dataset GSE121712 revealed that only BEX1 was positively correlated with the expression of the lncRNA GNAS-AS1 (r = 0.874, P < 0.01), both of which had high expression. The cell experiment results demonstrated that interfering with the expression of GNAS-AS1 significantly promoted the proliferation, migration, and EMT of cells. Importantly, it was confirmed that GNAS-AS1 can serve as a ceRNA and play an important role in the EMT of hypospadias. Hence, it may be considered as a potential target in the treatment of this disease.

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尿道下裂中上皮-间质转化相关关键长非编码 RNA 的鉴定与分析
EMT功能障碍是尿道下裂的主要发病机制。因此,根据尿道下裂的转录组测序数据鉴定与EMT相关的lncRNA可能为尿道下裂提供新的分子标记和治疗靶点。首先,从基因表达总库(Gene Expression Omnibus,GEO)中下载了尿道下裂相关的芯片数据。此外,还筛选了与EMT相关的差异表达的lncRNA和信使RNA(mRNA),以构建lncRNA-mRNA共表达相互作用对。此外,还通过生物信息学方法进行了微RNA(miRNA)预测分析,构建了ceRNA网络。此外,还进行了功能预测、功能富集和通路分析。最后,根据mRNA表达变化和细胞功能验证了与EMT相关的核心lncRNA。本研究共鉴定出6个EMT相关lncRNA,并筛选出123对mRNA-lncRNA共表达相互作用对。此外,在预测尿道下裂相关 miRNA 的基础上,构建了由 17 个 mRNA、4 个 lncRNA 和 28 个 miRNA 组成的 ceRNA 调控网络。数据集GSE121712的验证结果显示,只有BEX1与lncRNA GNAS-AS1的表达呈正相关(r = 0.874,P < 0.01),两者均为高表达。细胞实验结果表明,干扰 GNAS-AS1 的表达会显著促进细胞的增殖、迁移和 EMT。重要的是,实验证实 GNAS-AS1 可作为一种 ceRNA,在尿道下裂的 EMT 中发挥重要作用。因此,它可被视为治疗尿道下裂的潜在靶点。
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来源期刊
IET Systems Biology
IET Systems Biology 生物-数学与计算生物学
CiteScore
4.20
自引率
4.30%
发文量
17
审稿时长
>12 weeks
期刊介绍: IET Systems Biology covers intra- and inter-cellular dynamics, using systems- and signal-oriented approaches. Papers that analyse genomic data in order to identify variables and basic relationships between them are considered if the results provide a basis for mathematical modelling and simulation of cellular dynamics. Manuscripts on molecular and cell biological studies are encouraged if the aim is a systems approach to dynamic interactions within and between cells. The scope includes the following topics: Genomics, transcriptomics, proteomics, metabolomics, cells, tissue and the physiome; molecular and cellular interaction, gene, cell and protein function; networks and pathways; metabolism and cell signalling; dynamics, regulation and control; systems, signals, and information; experimental data analysis; mathematical modelling, simulation and theoretical analysis; biological modelling, simulation, prediction and control; methodologies, databases, tools and algorithms for modelling and simulation; modelling, analysis and control of biological networks; synthetic biology and bioengineering based on systems biology.
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