Endothelial HIF-1α Enables Hypothalamic Glucose Uptake to Drive POMC Neurons | Zendy

Luis Varela | Zendy; Shigetomo Suyama | Zendy; Yan Huang | Zendy; Marya Shanabrough | Zendy; Matthias H. Tschöp | Zendy; XiaoBing Gao | Zendy; Frank J. Giordano | Zendy; Tamas L. Horváth | Zendy

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Endothelial HIF-1α Enables Hypothalamic Glucose Uptake to Drive POMC Neurons

Author(s) -

Luis Varela,

Shigetomo Suyama,

Yan Huang,

Marya Shanabrough,

Matthias H. Tschöp,

XiaoBing Gao,

Frank J. Giordano,

Tamas L. Horváth

Publication year - 2017

Publication title -

diabetes

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.219

H-Index - 330

eISSN - 1939-327X

pISSN - 0012-1797

DOI - 10.2337/db16-1106

Subject(s) - proopiomelanocortin , endocrinology , medicine , hypoxia (environmental) , hypothalamus , downregulation and upregulation , gene knockdown , in vivo , carbohydrate metabolism , biology , chemistry , cell culture , gene , biochemistry , microbiology and biotechnology , organic chemistry , oxygen , genetics

Glucose is the primary driver of hypothalamic proopiomelanocortin (POMC) neurons. We show that endothelial hypoxia-inducible factor 1α (HIF-1α) controls glucose uptake in the hypothalamus and that it is upregulated in conditions of undernourishment, during which POMC neuronal activity is decreased. Endothelium-specific knockdown of HIF-1α impairs the ability of POMC neurons to adapt to the changing metabolic environment in vivo, resulting in overeating after food deprivation in mice. The impaired functioning of POMC neurons was reversed ex vivo or by parenchymal glucose administration. These observations indicate an active role for endothelial cells in the central control of metabolism and suggest that central vascular impairments may cause metabolic disorders.

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