Zhaohui Lan scite author profile

The mechanisms by which oligodendroglia modulate CNS angiogenesis remain elusive. Previous in vitro data suggest that oligodendroglia regulate CNS endothelial cell proliferation and blood vessel formation through hypoxia inducible factor alpha (HIFα)-activated Wnt (but not VEGF) signaling. Using in vivo genetic models, we show that HIFα in oligodendroglia is necessary and sufficient for angiogenesis independent of CNS regions. At the molecular level, HIFα stabilization in oligodendroglia does not perturb Wnt signaling but rather activates VEGF. At the functional level, genetically blocking oligodendroglia-derived VEGF but not Wnt significantly decreases oligodendroglial HIFα-regulated CNS angiogenesis. Blocking astrogliaderived Wnt signaling reduces astroglial HIFα-regulated CNS angiogenesis. Together, our in vivo data demonstrate that oligodendroglial HIFα regulates CNS angiogenesis through Wnt-independent and VEGF-dependent signaling. These findings suggest an alternative mechanistic understanding of CNS angiogenesis by postnatal glial cells and unveil a glial cell type-dependent HIFα-Wnt axis in regulating CNS vessel formation.

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Microplastics impair digestive performance but show little effects on antioxidant activity in mussels under low pH conditions

Wang¹,

Huang²,

Wei³

et al. 2020

Environmental Pollution

120

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The personality of Japanese flounder (Paralichthys olivaceus) and gene expression related with osmoregulatory capacity in the gills

Zou

Lan

et al. 2019

Aquaculture

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Glial type specific regulation of CNS angiogenesis by HIFα-activated different signaling pathways

Zhang

Zhu

Gui

et al. 2020

Preprint

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AbstractThe mechanisms by which oligodendroglia modulate CNS angiogenesis remain elusive. Previous in vitro data suggest that oligodendroglia regulate CNS endothelial cell proliferation and blood vessel formation through hypoxia inducible factor alpha (HIFα)-activated Wnt (but not VEGF) signaling. Using in vivo genetic models, we show that HIFα in oligodendroglia is necessary and sufficient for angiogenesis independent of CNS regions. At the molecular level, HIFα stabilization in oligodendroglia does not perturb Wnt signaling but remarkably activates VEGF. At the functional level, genetically blocking oligodendroglia-derived VEGF but not Wnt significantly decreases oligodendroglial HIFα-regulated CNS angiogenesis. Interestingly, blocking astroglia-derived Wnt signaling reduces astroglial HIFα-regulated CNS angiogenesis. Together, our in vivo data clearly demonstrate that oligodendroglial HIFα regulates CNS angiogenesis through Wnt-independent and VEGF-dependent signaling. Our findings represent an alternative mechanistic understanding of CNS angiogenesis by postnatal glial cells and unveil a glial cell type-dependent HIFα-Wnt axis in regulating CNS vessel formation.

show abstract

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Zhaohui Lan

Glial type specific regulation of CNS angiogenesis by HIFα-activated different signaling pathways

Microplastics impair digestive performance but show little effects on antioxidant activity in mussels under low pH conditions

The personality of Japanese flounder (Paralichthys olivaceus) and gene expression related with osmoregulatory capacity in the gills

Glial type specific regulation of CNS angiogenesis by HIFα-activated different signaling pathways

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