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首页> 美国卫生研究院文献>PLoS Clinical Trials >MicroRNA Expression in Alpha and Beta Cells of Human Pancreatic Islets
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MicroRNA Expression in Alpha and Beta Cells of Human Pancreatic Islets

机译:在人类胰岛的α和β细胞中的MicroRNA表达。

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microRNAs (miRNAs) play an important role in pancreatic development and adult β-cell physiology. Our hypothesis is based on the assumption that each islet cell type has a specific pattern of miRNA expression. We sought to determine the profile of miRNA expression in α-and β-cells, the main components of pancreatic islets, because this analysis may lead to a better understanding of islet gene regulatory pathways. Highly enriched (>98%) subsets of human α-and β-cells were obtained by flow cytometric sorting after intracellular staining with c-peptide and glucagon antibody. The method of sorting based on intracellular staining is possible because miRNAs are stable after fixation. MiRNA expression levels were determined by quantitative high throughput PCR-based miRNA array platform screening. Most of the miRNAs were preferentially expressed in β-cells. From the total of 667 miRNAs screened, the Significant Analysis of Microarray identified 141 miRNAs, of which only 7 were expressed more in α-cells (α-miRNAs) and 134 were expressed more in β-cells (β-miRNAs). Bioinformatic analysis identified potential targets of β-miRNAs analyzing the Beta Cell Gene Atlas, described in the T1Dbase, the web platform, supporting the type 1 diabetes (T1D) community. cMaf, a transcription factor regulating glucagon expression expressed selectively in α-cells (TFα) is targeted by β-miRNAs; miR-200c, miR-125b and miR-182. Min6 cells treated with inhibitors of these miRNAs show an increased expression of cMaf RNA. Conversely, over expression of miR-200c, miR-125b or miR-182 in the mouse alpha cell line αTC6 decreases the level of cMAF mRNA and protein. MiR-200c also inhibits the expression of Zfpm2, a TFα that inhibits the PI3K signaling pathway, at both RNA and protein levels.In conclusion, we identified miRNAs differentially expressed in pancreatic α- and β-cells and their potential transcription factor targets that could add new insights into different aspects of islet biology and pathophysiology.
机译:microRNA(miRNA)在胰腺发育和成年β细胞生理中起重要作用。我们的假设基于以下假设:每种胰岛细胞类型都有特定的miRNA表达模式。我们试图确定在胰岛的主要成分α细胞和β细胞中miRNA表达的概况,因为这种分析可能导致人们更好地了解胰岛基因的调控途径。在用c肽和胰高血糖素抗体进行细胞内染色后,通过流式细胞术分选获得了高度富集(> 98%)的人类α细胞和β细胞亚群。基于细胞内染色的分类方法是可行的,因为miRNA在固定后是稳定的。通过基于定量高通量PCR的miRNA阵列平台筛选来确定miRNA表达水平。大多数miRNA优先在β细胞中表达。从总共筛选的667个miRNA中,微阵列的显着分析确定了141个miRNA,其中只有7个在α细胞(α-miRNA)中表达更多,在134个在β细胞(β-miRNA)中表达更多。生物信息学分析确定了分析β细胞基因图谱的β-miRNA的潜在靶点,该文献已在网络平台T1Dbase中进行了描述,该平台支持1型糖尿病(T1D)社区。 cMaf,β-miRNA靶向调控在α细胞(TFα)中选择性表达的胰高血糖素表达的转录因子; miR-200c,miR-125b和miR-182。用这些miRNA抑制剂处理的Min6细胞显示cMaf RNA的表达增加。相反,miR-200c,miR-125b或miR-182在小鼠α细胞系αTC6中的过度表达会降低cMAF mRNA和蛋白质的水平。 MiR-200c还可以在RNA和蛋白质水平上抑制Zfpm2(一种抑制PI3K信号通路的TFα)的表达。总之,我们确定了在胰腺α和β细胞中差异表达的miRNA及其潜在的转录因子靶标。为胰岛生物学和病理生理学的不同方面增添新见解。

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