Department of Molecular Medicine (MOMA), Aarhus University Hospital, Palle Juul-Jensens Boulevard 99, 8200, Aarhus N, Denmark.
Department of Clinical Medicine, Aarhus University, Palle Juul-Jensens Boulevard 82, 8200, Aarhus N, Denmark.
Sci Rep. 2021 Apr 28;11(1):9170. doi: 10.1038/s41598-021-88480-5.
High throughput single-cell RNA sequencing (scRNAseq) can provide mRNA expression profiles for thousands of cells. However, miRNAs cannot currently be studied at the same scale. By exploiting that miRNAs bind well-defined sequence motifs and typically down-regulate target genes, we show that motif enrichment analysis can be used to derive miRNA activity estimates from scRNAseq data. Motif enrichment analyses have traditionally been used to derive binding motifs for regulatory factors, such as miRNAs or transcription factors, that have an effect on gene expression. Here we reverse its use. By starting from the miRNA seed site, we derive a measure of activity for miRNAs in single cells. We first establish the approach on a comprehensive set of bulk TCGA cancer samples (n = 9679), with paired mRNA and miRNA expression profiles, where many miRNAs show a strong correlation with measured expression. By downsampling we show that the method can be used to estimate miRNA activity in sparse data comparable to scRNAseq experiments. We then analyze a human and a mouse scRNAseq data set, and show that for several miRNA candidates, including liver specific miR-122 and muscle specific miR-1 and miR-133a, we obtain activity measures supported by the literature. The methods are implemented and made available in the miReact software. Our results demonstrate that miRNA activities can be estimated at the single cell level. This allows insights into the dynamics of miRNA activity across a range of fields where scRNAseq is applied.
高通量单细胞 RNA 测序 (scRNAseq) 可以为数千个细胞提供 mRNA 表达谱。然而,目前还不能在同一规模上研究 miRNAs。通过利用 miRNAs 能够很好地结合特定序列基序并且通常下调靶基因这一特性,我们表明,基序富集分析可用于从 scRNAseq 数据中推导出 miRNA 活性估计值。基序富集分析传统上用于推导对基因表达有影响的调节因子(如 miRNAs 或转录因子)的结合基序。在这里,我们反其道而行之。从 miRNA 的种子位点开始,我们推导出单细胞中 miRNAs 的活性度量。我们首先在包含配对的 mRNA 和 miRNA 表达谱的综合 TCGA 癌症样本集 (n = 9679) 上建立了该方法,其中许多 miRNAs 与测量的表达呈强相关性。通过降采样,我们表明该方法可用于估计与 scRNAseq 实验相当稀疏的数据中的 miRNA 活性。然后,我们分析了一个人类和一个小鼠 scRNAseq 数据集,并表明对于几个 miRNA 候选物,包括肝脏特异性 miR-122 和肌肉特异性 miR-1 和 miR-133a,我们获得了文献支持的活性测量值。该方法已在 miReact 软件中实现并提供。我们的结果表明,可以在单细胞水平上估计 miRNA 的活性。这可以深入了解 miRNA 活性在应用 scRNAseq 的一系列领域中的动态。
