Kang Ling, Sanders Nicole M, Dunn-Meynell Ambrose A, Gaspers Larry D, Routh Vanessa H, Thomas Andrew P, Levin Barry E
Department of Neurology and Neurosciences, New Jersey Medical School, University of Medicine and Dentistry, Newark, New Jersey, USA.
Am J Physiol Regul Integr Comp Physiol. 2008 Mar;294(3):R784-92. doi: 10.1152/ajpregu.00645.2007. Epub 2007 Dec 19.
Antecedent insulin-induced hypoglycemia (IIH) reduces adrenomedullary responses (AMR) to subsequent bouts of hypoglycemia. The ventromedial hypothalamus [VMH: arcuate (ARC) + ventromedial nuclei] contains glucosensing neurons, which are thought to be mediators of these AMR. Since type 1 diabetes mellitus often begins in childhood, we used juvenile (4- to 5-wk-old) rats to demonstrate that a single bout of IIH (5 U/kg sc) reduced plasma glucose by 24% and peak epinephrine by 59% 1 day later. This dampened AMR was associated with 46% higher mRNA for VMH glucokinase, a key mediator of neuronal glucosensing. Compared with neurons from saline-injected rats, ventromedial nucleus glucose-excited neurons from insulin-injected rats demonstrated a leftward shift in their glucose responsiveness (EC50 = 0.45 and 0.10 mmol/l for saline and insulin, respectively, P = 0.05) and a 31% higher maximal activation by glucose (P = 0.05), although this maximum occurred at a higher glucose concentration (saline, 0.7 vs. insulin, 1.5 mmol/l). Although EC50 values did not differ, ARC glucose-excited neurons had 19% higher maximal activation, which occurred at a lower glucose concentration in insulin- than saline-injected rats (saline, 2.5 vs. insulin, 1.5 mmol/l). In addition, ARC glucose-inhibited neurons from insulin-injected rats were maximally inhibited at a fivefold lower glucose concentration (saline, 2.5 vs. insulin, 0.5 mmol/l), although this inhibition declined at >0.5 mmol/l glucose. These data suggest that the increased VMH glucokinase after IIH may contribute to the increased responsiveness of VMH glucosensing neurons to glucose and the associated blunting of the AMR.
先前的胰岛素诱导性低血糖(IIH)会降低肾上腺髓质对随后低血糖发作的反应(AMR)。腹内侧下丘脑[VMH:弓状核(ARC)+腹内侧核]含有葡萄糖感应神经元,被认为是这些AMR的介导者。由于1型糖尿病通常始于儿童期,我们使用幼年(4至5周龄)大鼠来证明单次IIH发作(5 U/kg皮下注射)在1天后可使血糖降低24%,肾上腺素峰值降低59%。这种减弱的AMR与VMH葡萄糖激酶的mRNA水平高46%有关,葡萄糖激酶是神经元葡萄糖感应的关键介导者。与注射生理盐水的大鼠的神经元相比,注射胰岛素的大鼠的腹内侧核葡萄糖兴奋神经元的葡萄糖反应性出现左移(生理盐水组和胰岛素组的半数有效浓度分别为0.45和0.10 mmol/l,P = 0.05),且葡萄糖的最大激活程度高31%(P = 0.05),尽管这种最大值出现在更高的葡萄糖浓度下(生理盐水组为0.7 mmol/l,胰岛素组为1.5 mmol/l)。尽管半数有效浓度值没有差异,但ARC葡萄糖兴奋神经元的最大激活程度高19%,在注射胰岛素的大鼠中,这种最大激活出现在比注射生理盐水的大鼠更低的葡萄糖浓度下(生理盐水组为2.5 mmol/l,胰岛素组为1.5 mmol/l)。此外,注射胰岛素的大鼠的ARC葡萄糖抑制神经元在葡萄糖浓度低五倍时受到最大抑制(生理盐水组为2.5 mmol/l,胰岛素组为0.5 mmol/l),尽管这种抑制在葡萄糖浓度>0.5 mmol/l时会下降。这些数据表明,IIH后VMH葡萄糖激酶的增加可能有助于VMH葡萄糖感应神经元对葡萄糖反应性的增加以及相关的AMR减弱。
