Add to ORKGGlucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels, but how glucose inhibits these cells is unknown. We studied glucose inhibition of orexin/hypocretin neurons, which promote wakefulness (their loss causes narcolepsy) and also regulate metabolism and reward. Here we demonstrate that their inhibition by glucose is mediated by ion channels not previously implicated in central or peripheral glucose sensing: tandem-pore K(+) (K(2P)) channels. Importantly, we show that this electrical mechanism is sufficiently sensitive to encode variations in glucose levels reflecting those occurring physiologically between normal meals. Moreover, we provide evidence that glucose acts at an extracellular site on orexin...
The hypothalamus have been recognized for decades as one of the major brain centers for the control ...
Hypothalamic orexin/hypocretin (orx/hcrt) neurons regulate energy balance, wakefulness, and reward; ...
The firing of hypothalamic hypocretin/orexin neurons is vital for normal sleep-wake transitions, but...
Glucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels, but h...
Glucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels, but h...
SummaryGlucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels...
Relatively little is known about the mechanisms that link changing levels of glucose and neuronal ac...
Central orexin/hypocretin neurons promote wakefulness, feeding and reward-seeking, and control blood...
Central orexin/hypocretin neurons promote wakefulness, feeding and reward-seeking, and control blood...
OBJECTIVE: Glucose sensing by specialized neurons of the hypothalamus is vital for normal energy bal...
Brain glucose sensing is critical for healthy energy balance, but how appropriate neurocircuits enco...
International audienceGlucose sensing by hypothalamic neurons triggers adaptive metabolic and behavi...
SummaryBlood glucose levels are tightly controlled, a process thought to be orchestrated primarily b...
The hypothalamus have been recognized for decades as one of the major brain centers for the control ...
SummaryHypothalamic orexin/hypocretin (orx/hcrt) neurons regulate energy balance, wakefulness, and r...
The hypothalamus have been recognized for decades as one of the major brain centers for the control ...
Hypothalamic orexin/hypocretin (orx/hcrt) neurons regulate energy balance, wakefulness, and reward; ...
The firing of hypothalamic hypocretin/orexin neurons is vital for normal sleep-wake transitions, but...
Glucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels, but h...
Glucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels, but h...
SummaryGlucose-inhibited neurons orchestrate behavior and metabolism according to body energy levels...
Relatively little is known about the mechanisms that link changing levels of glucose and neuronal ac...
Central orexin/hypocretin neurons promote wakefulness, feeding and reward-seeking, and control blood...
Central orexin/hypocretin neurons promote wakefulness, feeding and reward-seeking, and control blood...
OBJECTIVE: Glucose sensing by specialized neurons of the hypothalamus is vital for normal energy bal...
Brain glucose sensing is critical for healthy energy balance, but how appropriate neurocircuits enco...
International audienceGlucose sensing by hypothalamic neurons triggers adaptive metabolic and behavi...
SummaryBlood glucose levels are tightly controlled, a process thought to be orchestrated primarily b...
The hypothalamus have been recognized for decades as one of the major brain centers for the control ...
SummaryHypothalamic orexin/hypocretin (orx/hcrt) neurons regulate energy balance, wakefulness, and r...
The hypothalamus have been recognized for decades as one of the major brain centers for the control ...
Hypothalamic orexin/hypocretin (orx/hcrt) neurons regulate energy balance, wakefulness, and reward; ...
The firing of hypothalamic hypocretin/orexin neurons is vital for normal sleep-wake transitions, but...