Autocrine VEGF drives neural stem cell proximity to the adult hippocampus vascular niche
Tyler J Dause, Jiyeon K Denninger, Robert Osap, Ashley E Walters, Joshua D Rieskamp, Elizabeth D Kirby- Health, Toxicology and Mutagenesis
- Plant Science
- Biochemistry, Genetics and Molecular Biology (miscellaneous)
- Ecology
The vasculature is a key component of adult brain neural stem cell (NSC) niches. In the adult mammalian hippocampus, NSCs reside in close contact with a dense capillary network. How this niche is maintained is unclear. We recently found that adult hippocampal NSCs express VEGF, a soluble factor with chemoattractive properties for vascular endothelia. Here, we show that global and NSC-specific VEGF loss led to dissociation of NSCs and their intermediate progenitor daughter cells from local vasculature. Surprisingly, though, we found no changes in local vascular density. Instead, we found that NSC-derived VEGF supports maintenance of gene expression programs in NSCs and their progeny related to cell migration and adhesion. In vitro assays revealed that blockade of VEGF receptor 2 impaired NSC motility and adhesion. Our findings suggest that NSCs maintain their own proximity to vasculature via self-stimulated VEGF signaling that supports their motility towards and/or adhesion to local blood vessels.