伏隔核中的不确定带投射神经元以及 GABA 能和 GLP-1 机制参与了胃功能和食物摄入的控制。
Zona incerta projection neurons and GABAergic and GLP-1 mechanisms in the nucleus accumbens are involved in the control of gastric function and food intake.
机构信息
Department of Pathophysiology, School of Basic Medicine, Qingdao University, Qingdao, Shandong 266071, China.
Doctoral School of Biomedical Sciences, KU Leuven, B-300 Leuven, Belgium; Family Medicine Department, Qingdao United Family Hospital, Qingdao, Shandong 266001, China.
出版信息
Neuropeptides. 2020 Apr;80:102018. doi: 10.1016/j.npep.2020.102018. Epub 2020 Jan 15.
OBJECTIVE
Our aim was to explore the effect of γ-aminobutyric acid (GABA) signaling in the nucleus accumbens (NAc) on promoting gastric function and food intake through glucagon-like peptide 1 (GLP-1)-sensitive gastric distension (GD) neurons under the regulatory control of the zona incerta (ZI).
METHODS
GABA neuronal projections were traced using retrograde tracing following fluorescence immunohistochemistry. An extracellular electrophysiological recording method was used to observe the firing of neurons in the NAc. HPLC was used to quantify the GABA and glutamate levels in the NAc after electrical stimulation of the ZI. Gastric functions including gastric motility and secretion, as well as food intake, were measured after the administration of different concentrations of GABA in the NAc or electrical stimulation of the ZI.
RESULTS
Some of the GABA-positive neurons arising from the ZI projected to the NAc. Some GABA-A receptor (GABA-AR)-immunoreactive neurons in the NAc were also positive for GLP-1 receptor (GLP-1R) immunoreactivity. The firing of most GLP-1-sensitive GD neurons was decreased by GABA infusion in the NAc. Intra-NAc GABA administration also promoted gastric function and food intake. The responses induced by GABA were partially blocked by the GABA-AR antagonist bicuculline (BIC) and weakened by the GLP-1R antagonist exendin 9-39 (Ex9). Electrical stimulation of the ZI changed the firing patterns of most GLP-1-sensitive GD neurons in the NAc and promoted gastric function and food intake. Furthermore, these excitatory effects induced by electrical stimulation of the ZI were weakened by preadministration of BIC in the NAc.
CONCLUSION
Retrograde tracing and immunohistochemical staining showed a GABAergic pathway from the ZI to the NAc. GABAergic and GLP-1 mechanisms in the NAc are involved in the control of gastric function and food intake. In addition, the interaction (direct or indirect) between the ZI and these NAc mechanisms is involved in the control of gastric function and food intake.
目的
我们旨在探讨在间脑(ZI)调节控制下,通过胰高血糖素样肽 1(GLP-1)敏感的胃扩张(GD)神经元,γ-氨基丁酸(GABA)信号在伏隔核(NAc)中对促进胃功能和摄食的影响。
方法
通过荧光免疫组织化学进行逆行追踪,追踪 GABA 神经元投射。使用细胞外电生理记录方法观察 NAc 中神经元的放电。电刺激 ZI 后,使用高效液相色谱法(HPLC)定量 NAc 中的 GABA 和谷氨酸水平。在 NAc 中给予不同浓度的 GABA 或电刺激 ZI 后,测量胃功能(包括胃动力和分泌)和摄食。
结果
来自 ZI 的一些 GABA 阳性神经元投射到 NAc。NAc 中的一些 GABA-A 受体(GABA-AR)免疫反应性神经元也对 GLP-1 受体(GLP-1R)免疫反应性呈阳性。GABA 输注于 NAc 时,大多数 GLP-1 敏感的 GD 神经元的放电减少。NAc 内 GABA 给药也促进了胃功能和摄食。GABA 引起的反应部分被 GABA-AR 拮抗剂荷包牡丹碱(BIC)阻断,并且被 GLP-1R 拮抗剂 exendin 9-39(Ex9)减弱。电刺激 ZI 改变了 NAc 中大多数 GLP-1 敏感的 GD 神经元的放电模式,并促进了胃功能和摄食。此外,电刺激 ZI 引起的这些兴奋作用在 NAc 中预先给予 BIC 后减弱。
结论
逆行追踪和免疫组织化学染色显示了从 ZI 到 NAc 的 GABA 能通路。NAc 中的 GABA 能和 GLP-1 机制参与了胃功能和摄食的控制。此外,ZI 和这些 NAc 机制之间的相互作用(直接或间接)参与了胃功能和摄食的控制。
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