通过脊髓批量和单细胞 RNA-Seq 分析鉴定 KLF6/PSGs 和 NPY 相关 USF2/CEACAM 转录调控网络。

Identification of KLF6/PSGs and NPY-Related USF2/CEACAM Transcriptional Regulatory Networks via Spinal Cord Bulk and Single-Cell RNA-Seq Analysis.

机构信息

Department of Neurosurgery, Changxing People's Hospital, Changxing, Zhejiang Province, China.

出版信息

Dis Markers. 2021 Nov 29;2021:2826609. doi: 10.1155/2021/2826609. eCollection 2021.

DOI:10.1155/2021/2826609

PMID:34880956

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8648463/

Abstract

BACKGROUND

To further understand the development of the spinal cord, an exploration of the patterns and transcriptional features of spinal cord development in newborn mice at the cellular transcriptome level was carried out.

METHODS

The mouse single-cell sequencing (scRNA-seq) dataset was downloaded from the GSE108788 dataset. Single-cell RNA-Seq (scRNA-Seq) was conducted on cervical and lumbar spinal V2a interneurons from 2 P0 neonates. Single-cell analysis using the Seurat package was completed, and marker mRNAs were identified for each cluster. Then, pseudotemporal analysis was used to analyze the transcription changes of marker mRNAs in different clusters over time. Finally, the functions of these marker mRNAs were assessed by enrichment analysis and protein-protein interaction (PPI) networks. A transcriptional regulatory network was then constructed using the TRRUST dataset.

RESULTS

A total of 949 cells were screened. Single-cell analysis was conducted based on marker mRNAs of each cluster, which revealed the heterogeneity of neonatal mouse spinal cord neuronal cells. Functional analysis of pseudotemporal trajectory-related marker mRNAs suggested that pregnancy-specific glycoproteins (PSGs) and carcinoembryonic antigen cell adhesion molecules (CEACAMs) were the core mRNAs in cluster 3. GSVA analysis then demonstrated that the different clusters had differences in pathway activity. By constructing a transcriptional regulatory network, USF2 was identified to be a transcriptional regulator of CEACAM1 and CEACAM5, while KLF6 was identified to be a transcriptional regulator of PSG3 and PSG5. This conclusion was then validated using the Genotype-Tissue Expression (GTEx) spinal cord transcriptome dataset.

CONCLUSIONS

This study completed an integrated analysis of a single-cell dataset with the utilization of marker mRNAs. USF2/CEACAM1&5 and KLF6/PSG3&5 transcriptional regulatory networks were identified by spinal cord single-cell analysis.

摘要

背景

为了进一步了解脊髓的发育，我们在细胞转录组水平上对新生小鼠脊髓发育的模式和转录特征进行了探索。

方法

从 GSE108788 数据集下载了小鼠单细胞测序（scRNA-seq）数据集。对 2 只 P0 新生鼠颈段和腰段 V2a 中间神经元进行单细胞 RNA-Seq（scRNA-Seq）。使用 Seurat 包进行单细胞分析，确定每个簇的标记 mRNA。然后，通过伪时间分析来分析不同簇中标记 mRNA 随时间的转录变化。最后，通过富集分析和蛋白质-蛋白质相互作用（PPI）网络评估这些标记 mRNA 的功能。然后使用 TRRUST 数据集构建转录调控网络。

结果

共筛选出 949 个细胞。基于每个簇的标记 mRNA 进行单细胞分析，揭示了新生鼠脊髓神经元细胞的异质性。伪时间轨迹相关标记 mRNA 的功能分析表明，妊娠特异性糖蛋白（PSG）和癌胚抗原细胞黏附分子（CEACAM）是 3 号簇的核心 mRNA。GSVA 分析进一步表明，不同簇在途径活性上存在差异。通过构建转录调控网络，鉴定出 USF2 是 CEACAM1 和 CEACAM5 的转录调控因子，而 KLF6 是 PSG3 和 PSG5 的转录调控因子。这一结论随后通过 Genotype-Tissue Expression（GTEx）脊髓转录组数据集得到了验证。

结论

本研究利用标记 mRNA 对单细胞数据集进行了综合分析。通过脊髓单细胞分析，鉴定出 USF2/CEACAM1&5 和 KLF6/PSG3&5 转录调控网络。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ed82/8648463/bd7832d0f92c/DM2021-2826609.001.jpg

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通过脊髓批量和单细胞 RNA-Seq 分析鉴定 KLF6/PSGs 和 NPY 相关 USF2/CEACAM 转录调控网络。

Identification of KLF6/PSGs and NPY-Related USF2/CEACAM Transcriptional Regulatory Networks via Spinal Cord Bulk and Single-Cell RNA-Seq Analysis.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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