[PDF][PDF] Glucose stimulation of hypothalamic MCH neurons involves KATP channels, is modulated by UCP2, and regulates peripheral glucose homeostasis
D Kong, L Vong, LE Parton, C Ye, Q Tong, X Hu… - Cell metabolism, 2010 - cell.com
D Kong, L Vong, LE Parton, C Ye, Q Tong, X Hu, B Choi, JC Brüning, BB Lowell
Cell metabolism, 2010•cell.comBlood glucose levels are tightly controlled, a process thought to be orchestrated primarily by
peripheral mechanisms (insulin secretion by β cells, and insulin action on muscle, fat, and
liver). The brain also plays an important, albeit less well-defined role. Subsets of neurons in
the brain are excited by glucose; in many cases this involves ATP-mediated closure of K
ATP channels. To understand the relevance of this, we are manipulating glucose sensing
within glucose-excited neurons. In the present study, we demonstrate that glucose excitation …
peripheral mechanisms (insulin secretion by β cells, and insulin action on muscle, fat, and
liver). The brain also plays an important, albeit less well-defined role. Subsets of neurons in
the brain are excited by glucose; in many cases this involves ATP-mediated closure of K
ATP channels. To understand the relevance of this, we are manipulating glucose sensing
within glucose-excited neurons. In the present study, we demonstrate that glucose excitation …
Summary
Blood glucose levels are tightly controlled, a process thought to be orchestrated primarily by peripheral mechanisms (insulin secretion by β cells, and insulin action on muscle, fat, and liver). The brain also plays an important, albeit less well-defined role. Subsets of neurons in the brain are excited by glucose; in many cases this involves ATP-mediated closure of KATP channels. To understand the relevance of this, we are manipulating glucose sensing within glucose-excited neurons. In the present study, we demonstrate that glucose excitation of MCH-expressing neurons in the lateral hypothalamus is mediated by KATP channels and is negatively regulated by UCP2 (a mitochondrial protein that reduces ATP production), and that glucose sensing by MCH neurons plays an important role in regulating glucose homeostasis. Combined, the glucose-excited neurons are likely to play key, previously unexpected roles in regulating blood glucose.
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