Division of Endocrinology and Metabolism, Department of Homeostatic Regulation, National Institute for Physiological Science, National Institutes of Natural Sciences, Okazaki, Aichi, Japan.
Department of Physiological Science, School of Life Sciences, SOKENDAI (The Graduate University for Advanced Studies), Hayama, Kanagawa, Japan.
Diabetes. 2017 Sep;66(9):2372-2386. doi: 10.2337/db16-1344. Epub 2017 Jul 3.
The ventromedial hypothalamus (VMH) regulates glucose and energy metabolism in mammals. Optogenetic stimulation of VMH neurons that express steroidogenic factor 1 (SF1) induces hyperglycemia. However, leptin acting via the VMH stimulates whole-body glucose utilization and insulin sensitivity in some peripheral tissues, and this effect of leptin appears to be mediated by SF1 neurons. We examined the effects of activation of SF1 neurons with DREADD (designer receptors exclusively activated by designer drugs) technology. Activation of SF1 neurons by an intraperitoneal injection of clozapine--oxide (CNO), a specific hM3Dq ligand, reduced food intake and increased energy expenditure in mice expressing hM3Dq in SF1 neurons. It also increased whole-body glucose utilization and glucose uptake in red-type skeletal muscle, heart, and interscapular brown adipose tissue, as well as glucose production and glycogen phosphorylase activity in the liver, thereby maintaining blood glucose levels. During hyperinsulinemic-euglycemic clamp, such activation of SF1 neurons increased insulin-induced glucose uptake in the same peripheral tissues and tended to enhance insulin-induced suppression of glucose production by suppressing gluconeogenic gene expression and glycogen phosphorylase activity in the liver. DREADD technology is thus an important tool for studies of the role of the brain in the regulation of insulin sensitivity in peripheral tissues.
腹内侧下丘脑(VMH)调节哺乳动物的葡萄糖和能量代谢。光遗传刺激表达类固醇生成因子 1(SF1)的 VMH 神经元会导致高血糖。然而,瘦素通过 VMH 作用于一些外周组织,刺激全身葡萄糖利用和胰岛素敏感性,瘦素的这种作用似乎是由 SF1 神经元介导的。我们研究了 DREADD(专门被设计药物激活的受体的设计)技术激活 SF1 神经元的效果。在表达 hM3Dq 的 SF1 神经元中,通过腹腔注射氯氮平-氧化物(CNO)激活 SF1 神经元,可减少进食量并增加能量消耗。它还增加了全身葡萄糖在红型骨骼肌、心脏和肩胛间棕色脂肪组织中的利用和摄取,以及肝脏中的葡萄糖生成和糖原磷酸化酶活性,从而维持血糖水平。在高胰岛素-正常血糖钳夹期间,SF1 神经元的这种激活增加了外周组织中胰岛素诱导的葡萄糖摄取,并通过抑制肝脏中糖异生基因表达和糖原磷酸化酶活性,有助于增强胰岛素对葡萄糖生成的抑制作用。因此,DREADD 技术是研究大脑在调节外周组织胰岛素敏感性中的作用的重要工具。
