Abstract
Human cortical radial glial cells are primary neural stem cells that give rise to cortical glutaminergic projection pyramidal neurons, glial cells (oligodendrocytes and astrocytes) and olfactory bulb GABAergic interneurons. One of prominent features of the human cortex is enriched with glial cells, but there are major gaps in understanding how these glial cells are generated. Herein, by integrating analysis of published human cortical single-cell RNA-Seq datasets with our immunohistochemistical analyses, we show that around gestational week 18, EGFR-expressing human cortical truncated radial glial cells (tRGs) give rise to basal multipotent intermediate progenitors (bMIPCs) that express EGFR, ASCL1, OLIG2 and OLIG1. These bMIPCs undergo several rounds of mitosis and generate cortical oligodendrocytes, astrocytes and olfactory bulb interneurons. We also characterized molecular features of the cortical tRG. Integration of our findings suggests a general picture of the lineage progression of cortical radial glial cells, a fundamental process of the developing human cerebral cortex.
Highlights
Radial glial cells (RGCs) are the primary stem cells during neural development [1,2,3]
We focus on the molecular features of the truncated radial glial cells (tRGs), pyramidal neurons (PyNs)-intermediate progenitor cells (IPCs), basal MIPCs (bMIPCs), astrocyte lineage-restricted IPCs (APCs), oligodendrocyte-lineage-restricted IPCs (OPCs) and olfactory bulb interneurons (OBiNs)-IPC cell types
By a re-analysis of published scRNASeq datasets from human fetal brains at GW17-GW18 and GW21-GW26, we have found that: 1) EGFR is expressed in tRGs but not in vRGs or outer radial glia cells (oRGs); 2) EGFR? tRGs appear to generate EGFR? PyN-IPCs and EGFR? bMIPCs; these bMIPCs give rise to cortical OPCs, APCs, and OBiNIPCs; 3) HOPX, FAM107A, TNC and LIFR are expressed in tRGs, in addition to vRGs and oRGs; 4) tRGs express numerous hallmarks of cells in the astrocyte lineage
Summary
Radial glial cells (RGCs) are the primary stem cells during neural development [1,2,3] They have a bipolar shape with their shorter apical process contacting with the ventricular surface and the much longer basal (outer) process contacting with the pial surface [4, 5]. The properties of mouse cortical RGCs undergo a major switch and start to produce a different type of IPC that is multipotent. They generate cortical oligodendrocytes, astrocytes and OBiNs, which we have termed multipotent IPCs (MIPCs) [6]. Around embryonic day (E)16.5, mouse cortical RGCs give rise to EGFR?ASCL1? apical MIPCs (aMIPCs) in the ventricular zone (VZ) and subventricular zone (SVZ). aMIPCs, are transitional cells which differentiate into
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