Journal: Nature Communications
Article Title: Human endothelial cells promote a human neural stem cell type B phenotype via Notch signaling
doi: 10.1038/s41467-025-60194-6
Figure Lengend Snippet: a 15-year-old human SVZ was stained for GFAP, CD31, and DAPI and imaged with confocal microscopy (scale bar 50 μm) ( n = 1, biological repeats at other stages in Supplementary Fig. ). Arrowheads point to examples of GFAP+ processes contacting vasculature in the niche. Box denotes region for maximum projection of 3 confocal images (1 µm each, middle panel, scale bar 50 μm) to show overlap between GFAP+ processes and CD31+ vessels, which is shown in greater detail in zoomed panel (right, scale bar 25 μm) and denoted by yellow arrowheads. b 2-year-old human SVZ was stained for GFAP, SOX2, CD31, and DAPI and imaged with confocal microscopy ( n = 1, biological repeats at other stages in Supplementary Fig. ). SOX2+ nucleus surrounded by GFAP is denoted by the fat arrow, while GFAP+ process extending from the cell is marked by the thin arrow. The GFAP+ process contacts the CD31+ vessel (V) along the region denoted by the arrowhead. Scale bar 10 μm. c 6-year-old human SVZ stained for GFAP, PROM1, CD31, and DAPI and imaged with confocal microscopy ( n = 1, biological repeats at other stages in Supplementary Figs. , ). Processes from cells co-expressing GFAP and PROM1 extend toward and wrap around CD31+ vessels. Bottom right panel represents maximum projection of 9 confocal images (1 μm each). Scale bars, 30 um. d Schematic summarizing hEC-hNSPC reciprocal communication. HEC contact increases the percentage of hNSPCs with a type B cell phenotype via Notch signaling involving the Notch ligand DLL4 on hECs and Notch receptor on hNSPCs. As shown previously, hNSPCs increase hEC vessel formation, creating a positive feedback interaction between these critical cell types . Created with BioRender.com.
Article Snippet: Recombinant human Notch ligand Fc chimera proteins DLL4, JAG1, and JAG2 (R&D Systems) were plated on coverslips at a 20 μg/mL concentration along with laminin after PDL coating.
Techniques: Staining, Confocal Microscopy, Expressing