RT Journal Article SR Electronic T1 A cellular atlas of the developing meninges reveals meningeal fibroblast diversity and function JF bioRxiv FD Cold Spring Harbor Laboratory SP 648642 DO 10.1101/648642 A1 DeSisto, John A1 O’Rourke, Rebecca A1 Bonney, Stephanie A1 Jones, Hannah E. A1 Guimiot, Fabien A1 Jones, Kenneth L. A1 Siegenthaler, Julie A. YR 2019 UL http://biorxiv.org/content/early/2019/05/24/648642.abstract AB The meninges, a multilayered structure that encases the CNS, is composed mostly of fibroblasts, along with vascular and immune cells. Meningeal fibroblasts are a vital source of signals that control neuronal migration and neurogenesis yet strikingly little is known about their development. We used single cell RNA sequencing to generate a cellular atlas of embryonic meningeal fibroblasts in control and Foxc1-KO mice in which severe CNS defects arise from failed meningeal fibroblast development. We report unique transcriptional signatures for dura, arachnoid and pial fibroblasts and identify S100a6 as the first unique marker of the pial layer. We describe a new meningeal fibroblast subtype marked by µ-Crystallin expression and show these cell types and markers are conserved in human fetal meninges. Our analysis demonstrates layer specific production of extracellular matrix components, transporter expression, and synthesis of secreted factors. Lastly, the cellular atlas of Foxc1-KO meninges provides insight into their severe phenotype, confirming a massive loss in arachnoid and dura fibroblasts and Foxc1-KO pial fibroblasts are so altered that they cluster as a different cell type based on gene expression. These studies provide an unprecedented view of meningeal fibroblast development, highlighting unexpected fibroblast diversity and function, while providing mechanistic insights into the meninges role in CNS development.