[电针通过调节中枢胰高血糖素样肽-1,改善肥胖并促进白色脂肪组织棕色化]。

Ye Zhu, Jun Tian, Yu-Wei Shao, Juan Zhao, Shao-Hui Jia, Qing Shu
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引用次数: 0

摘要

目的观察电针(EA)对白色脂肪组织(WAT)的影响。对白色脂肪组织(WAT)褐变的影响。方法:将30只雄性Wistar大鼠随机分为正常组、模型组、EA组、HM3D组和EA+HM4D组,每组6只。肥胖大鼠模型通过高脂饮食喂养 8 周获得。在双侧孤束核(NTS)注射与DREADDs结合的腺相关病毒,EA+HM4D组应用rAAV-GLP-1+rAAV-4D,HM3D组应用rAAV-GLP-1+rAAV-3D,其他3组应用rAAV-GLP-1+rAAV-GFP。建模后,EA组和EA+HM4D组大鼠分别在双侧 "祖三里"(ST36)、"丰隆"(ST40)、"广元"(CV4)和 "中关"(CV5)接受EA治疗。和 "中万"(CV12),连续波(2 赫兹,1 毫安)10分钟,每周3次,共8周。在干预前和干预后的 2、4、6 和 8 周测量各组大鼠的体重。称量大鼠腹部和肾周的脂肪重量、血清甘油三酯(TG)和总胆固醇(TC)用自动分析仪检测血清中甘油三酯(TG)和总胆固醇(TC)的含量,用比色法检测非酯化脂肪酸(NEFA)的含量。用比色试剂盒检测。用HE染色法观察腹腔WAT脂滴的形态。实时PCR检测NTS中GLP-1、下丘脑腹内侧核(VMH)中AMPK、皮下脂肪中UCP1和PGC-1α的mRNA表达。通过Western印迹检测了GLP-1、AMPK、磷酸化-AMPK、UCP1和PGC-1α的蛋白表达水平。免疫荧光法观察 NTS 中 GLP-1 神经元的激活水平:结果:与正常组相比,腹部WAT脂滴增大,体重、血清TG、TC、NEFA含量、腹部和肾周WAT质量、AMPK mRNA和蛋白表达水平明显升高(PPα),AMPK蛋白磷酸化水平降低(PPPPPα),AMPK蛋白磷酸化水平升高(PPPPα)(PPPPC结论:EA能有效促进褐变:EA能有效促进脂肪褐变,这可能与激活NTS中的GLP-1神经元、促进VMH中AMPK磷酸化和UCP1上调有关。
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[Electroacupuncture improves obesity and promotes white adipose tissue browning by regulating central glucagon-like peptide-1].

Objective: To observe the effect of electroacupuncture (EA) on white adipose tissue (WAT) browning by regulating central glucagon-like peptide-1 (GLP-1), so as to explore the possible central mechanisms of EA in improving obesity.

Methods: Thirty male Wistar rats were randomly divided into normal group, model group, EA group, HM3D group, and EA+HM4D group, with 6 rats in each group. The obesity rat model was obtained by feeding with high-fat diet for 8 weeks. Adeno-associated virus combined with DREADDs was injected into bilateral nucleus of solitary tract (NTS), with rAAV-GLP-1+rAAV-4D applied to the EA+HM4D group, rAAV-GLP-1+rAAV-3D applied to the HM3D group, and rAAV-GLP-1+rAAV-GFP applied to other 3 groups. After modeling, rats in the EA and EA+HM4D groups received EA treatment at bilateral "Zusanli"(ST36), "Fenglong"(ST40), "Guanyuan"(CV4) and "Zhongwan"(CV12), with successive waves (2 Hz, 1 mA) for 10 minutes, 3 times a week, for a total of 8 weeks. Body mass of rats in each group were measured before and 2, 4, 6, and 8 weeks after intervention. Abdominal and perirenal WAT mass was weighed, serum triglyceride (TG) and total cholesterol (TC) contents were detected by using automatic analyzer, and nonestesterified fatty acid (NEFA) content was detected by using colorimetric assay kit. The morphology of abdominal WAT lipid droplets was observed by HE staining. The mRNA expressions of GLP-1 in NTS, AMPK in ventromedial nucleus of hypothalamus(VMH), UCP1 and PGC-1α in subcutaneous fat were detected by real-time PCR. The protein expression levels of GLP-1, AMPK, phosphorylated-AMPK, UCP1 and PGC-1α were detected by Western blot. The activation level of GLP-1 neurons in NTS was observed by immunofluorescence.

Results: Compared with the normal group, abdominal WAT lipid droplets were enlarged, body weight, serum TG, TC, NEFA contents, abdominal and perirenal WAT mass, mRNA and protein expression levels of AMPK were significantly increased(P<0.01, P<0.05), while GLP-1 neurons activation level, mRNA and protein expression levels of GLP-1, UCP1 and PGC-1α, and AMPK protein phosphorylation were decreased (P<0.01) in the model group. After EA intervention, body weight at 6 and 8 weeks after intervention and other indexes mentioned above were all significantly reversed (P<0.01, P<0.05) in the EA group in comparison with those of the model group. Compared with the EA group, the HM3D group had reduced abdominal WAT lipid droplets size, decreased serum TG, TC, and NEFA contents, and protein expression level of AMPK(P<0.01, P<0.05), with increased mRNA and protein expression levels of GLP-1, UCP1 and PGC-1α, and phosphorylation level of AMPK protein(P<0.01, P<0.05), while the EA+HM4D group had enlarged abdominal WAT lipid droplets, increased body weight 6 and 8 weeks after intervention, abdominal and renal WAT mass, and NEFA content (P<0.01, P<0.05), with decreased serum TG content, activation level of GLP-1 neurons in the NTS, mRNA and protein expression levels of GLP-1, UCP1 and PGC-1αP<0.01, P<0.05), as well as down-regulated phosphorylation of AMPK protein and mRNA (P<0.01, P<0.05).

Conclusion: EA can effectively promote the browning of WAT, which may be related to the activation of GLP-1 neurons in the NTS, as well as the promotion of the phosphorylation of AMPK in the VMH and up-regulation of UCP1.

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