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Literature DB >> 26856890

Relief of hypoxia by angiogenesis promotes neural stem cell differentiation by targeting glycolysis.

Christian Lange¹, Miguel Turrero Garcia², Ilaria Decimo¹, Francesco Bifari¹, Guy Eelen¹, Annelies Quaegebeur¹, Ruben Boon¹, Hui Zhao³, Bram Boeckx³, Junlei Chang⁴, Christine Wu⁴, Ferdinand Le Noble⁵, Diether Lambrechts³, Mieke Dewerchin¹, Calvin J Kuo⁴, Wieland B Huttner², Peter Carmeliet⁶.

Abstract

Blood vessels are part of the stem cell niche in the developing cerebral cortex, but their in vivo role in controlling the expansion and differentiation of neural stem cells (NSCs) in development has not been studied. Here, we report that relief of hypoxia in the developing cerebral cortex by ingrowth of blood vessels temporo-spatially coincided with NSC differentiation. Selective perturbation of brain angiogenesis in vessel-specific Gpr124 null embryos, which prevented the relief from hypoxia, increased NSC expansion at the expense of differentiation. Conversely, exposure to increased oxygen levels rescued NSC differentiation in Gpr124 null embryos and increased it further in WT embryos, suggesting that niche blood vessels regulate NSC differentiation at least in part by providing oxygen. Consistent herewith, hypoxia-inducible factor (HIF)-1α levels controlled the switch of NSC expansion to differentiation. Finally, we provide evidence that high glycolytic activity of NSCs is required to prevent their precocious differentiation in vivo Thus, blood vessel function is required for efficient NSC differentiation in the developing cerebral cortex by providing oxygen and possibly regulating NSC metabolism.

Entities: Chemical Disease Gene

Keywords: hypoxia; neural stem cell; neurogenesis; stem cell metabolism; vascular niche

Mesh：

Substances：

Year: 2016 PMID： 26856890 PMCID： PMC5207321 DOI： 10.15252/embj.201592372

Source DB: PubMed Journal: EMBO J ISSN： 0261-4189 Impact factor: 11.598

59 in total

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