Developmental trajectory of oligodendrocyte progenitor cells in the human brain revealed by single cell RNA sequencing

生物 转录组 少突胶质细胞 祖细胞 基因表达 核糖核酸 细胞 细胞生物学 神经干细胞 神经科学 基因 分子生物学 干细胞 遗传学 髓鞘 中枢神经系统
作者
Kelly Perlman,Charles Couturier,Moein Yaqubi,Arnaud Tanti,Qiao‐Ling Cui,Florian Pernin,Jo Anne Stratton,Jiannis Ragoussis,Luke M. Healy,Kevin Petrecca,Roy Dudley,Myriam Srour,Jeffrey A. Hall,Timothy E. Kennedy,Naguib Mechawar,Jack P. Antel
出处
期刊:Glia [Wiley]
卷期号:68 (6): 1291-1303 被引量:70
标识
DOI:10.1002/glia.23777
摘要

Abstract Characterizing the developmental trajectory of oligodendrocyte progenitor cells (OPC) is of great interest given the importance of these cells in the remyelination process. However, studies of human OPC development remain limited by the availability of whole cell samples and material that encompasses a wide age range, including time of peak myelination. In this study, we apply single cell RNA sequencing to viable whole cells across the age span and link transcriptomic signatures of oligodendrocyte‐lineage cells with stage‐specific functional properties. Cells were isolated from surgical tissue samples of second‐trimester fetal, 2‐year‐old pediatric, 13‐year‐old adolescent, and adult donors by mechanical and enzymatic digestion, followed by percoll gradient centrifugation. Gene expression was analyzed using droplet‐based RNA sequencing (10X Chromium). Louvain clustering analysis identified three distinct cellular subpopulations based on 5,613 genes, comprised of an early OPC (e‐OPC) group, a late OPC group (l‐OPC), and a mature OL (MOL) group. Gene ontology terms enriched for e‐OPCs included cell cycle and development, for l‐OPCs included extracellular matrix and cell adhesion, and for MOLs included myelination and cytoskeleton. The e‐OPCs were mostly confined to the premyelinating fetal group, and the l‐OPCs were most highly represented in the pediatric age group, corresponding to the peak age of myelination. Cells expressing a signature characteristic of l‐OPCs were identified in the adult brain in situ using RNAScope. These findings highlight the transcriptomic variability in OL‐lineage cells before, during, and after peak myelination and contribute to identifying novel pathways required to achieve remyelination.
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