Hayes Matthew R, Bradley Lauren, Grill Harvey J
Graduate Groups of Psychology and Neuroscience, University of Pennsylvania, Philadelphia, Pennsylvania 19104, USA.
Endocrinology. 2009 Jun;150(6):2654-9. doi: 10.1210/en.2008-1479. Epub 2009 Mar 5.
Exogenous activation of central nervous system glucagon-like peptide-1 (GLP-1) receptors (GLP-1Rs) reduces food intake. Experiments addressed whether endogenous central GLP-1R activity is involved in the control of normal feeding and examined which gastrointestinal satiation signals contribute to this control. Given that nucleus tractus solitarius (NTS) neurons are the source of central GLP-1, that caudal brainstem circuits mediate the intake suppression triggered by exogenous hindbrain GLP-1R activation, and that these neurons process gastrointestinal vagal signals, the role of endogenous hindbrain GLP-1R activation to intake control was the focus of the analysis. Food intake increased with GLP-1R antagonist [Exendin-(9-39) (Ex-9)] [10 microg, fourth intracerebroventricular (icv)] delivery to overnight food-deprived rats after ingestion of 9 ml Ensure diet. Direct medial NTS injection of a ventricle subthreshold dose (1.0 microg) of Ex-9 increased food intake and established the contribution of this GLP-1R population to the effect observed with ventricular administration. To determine whether satiation signals of gastric vs. intestinal origin drive the GLP-1R-mediated NTS effect on food intake, two experiments were performed in overnight-fasted rats. In one, Ensure was infused intraduodenally (0.4 ml/min for 20 min); in another, the stomach was distended (9 ml SILASTIC brand balloon) for 15 min before fourth icv Ex-9. The intake suppression by duodenal nutrient infusion was not affected by GLP-1R blockade, but the feeding suppression after gastric distension was significantly attenuated by fourth icv Ex-9. We conclude that endogenous NTS GLP-1R activation driven by gastric satiation signals contributes to the control of normal feeding.
中枢神经系统胰高血糖素样肽-1(GLP-1)受体(GLP-1Rs)的外源性激活可减少食物摄入量。实验探讨了内源性中枢GLP-1R活性是否参与正常进食的控制,并研究了哪些胃肠道饱腹感信号有助于这种控制。鉴于孤束核(NTS)神经元是中枢GLP-1的来源,尾侧脑干回路介导外源性后脑GLP-1R激活引发的进食抑制,且这些神经元处理胃肠道迷走神经信号,内源性后脑GLP-1R激活对进食控制的作用是分析的重点。在摄入9毫升安素饮食后,向过夜禁食的大鼠脑室内注射GLP-1R拮抗剂[艾塞那肽-(9-39)(Ex-9)][10微克,第四脑室注射(icv)],食物摄入量增加。直接向内侧NTS注射脑室阈下剂量(1.0微克)的Ex-9可增加食物摄入量,并确定了这群GLP-1R对脑室给药所观察到的效应的作用。为了确定胃源性与肠源性饱腹感信号是否驱动GLP-1R介导的NTS对食物摄入的影响,在过夜禁食的大鼠中进行了两项实验。一项实验中,将安素经十二指肠输注(0.4毫升/分钟,持续20分钟);另一项实验中,在第四脑室注射Ex-9前15分钟,用(9毫升硅橡胶气球)扩张胃。十二指肠营养输注引起的进食抑制不受GLP-1R阻断的影响,但胃扩张后的进食抑制在第四脑室注射Ex-9后显著减弱。我们得出结论,由胃饱腹感信号驱动的内源性NTS GLP-1R激活有助于正常进食的控制。