中枢神经系统和非中枢神经系统血管内皮细胞的转录组和表观基因组图谱。

Transcriptional and epigenomic landscapes of CNS and non-CNS vascular endothelial cells.

机构信息

Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, United States.

Department of Neuroscience, Johns Hopkins University School of Medicine, Baltimore, United States.

出版信息

Elife. 2018 Sep 6;7:e36187. doi: 10.7554/eLife.36187.

DOI:10.7554/eLife.36187

PMID:30188322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6126923/

Abstract

Vascular endothelial cell (EC) function depends on appropriate organ-specific molecular and cellular specializations. To explore genomic mechanisms that control this specialization, we have analyzed and compared the transcriptome, accessible chromatin, and DNA methylome landscapes from mouse brain, liver, lung, and kidney ECs. Analysis of transcription factor (TF) gene expression and TF motifs at candidate -regulatory elements reveals both shared and organ-specific EC regulatory networks. In the embryo, only those ECs that are adjacent to or within the central nervous system (CNS) exhibit canonical Wnt signaling, which correlates precisely with blood-brain barrier (BBB) differentiation and expression. In the early postnatal brain, single-cell RNA-seq of purified ECs reveals (1) close relationships between veins and mitotic cells and between arteries and tip cells, (2) a division of capillary ECs into vein-like and artery-like classes, and (3) new endothelial subtype markers, including new validated tip cell markers.

摘要

血管内皮细胞 (EC) 的功能取决于适当的器官特异性分子和细胞特化。为了探索控制这种特化的基因组机制，我们分析和比较了来自小鼠脑、肝、肺和肾 EC 的转录组、可及染色质和 DNA 甲基化组图谱。转录因子 (TF) 基因表达和候选调节元件上的 TF 基序的分析揭示了共享和器官特异性的 EC 调控网络。在胚胎中，只有那些与中枢神经系统 (CNS) 相邻或位于 CNS 内的 EC 表现出典型的 Wnt 信号传导，这与血脑屏障 (BBB) 分化和表达精确相关。在出生后的早期大脑中，纯化的 EC 的单细胞 RNA-seq 揭示了 (1) 静脉和有丝分裂细胞之间以及动脉和尖端细胞之间的密切关系，(2) 毛细血管 EC 分为静脉样和动脉样两类，以及 (3) 新的内皮亚型标志物，包括新验证的尖端细胞标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f4c7/6126923/be0766e56477/elife-36187-fig1.jpg

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中枢神经系统和非中枢神经系统血管内皮细胞的转录组和表观基因组图谱。

Transcriptional and epigenomic landscapes of CNS and non-CNS vascular endothelial cells.

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