肥胖倾向大鼠纹状体多巴胺系统中预先存在的差异及饮食诱导的改变。

Pre-existing differences and diet-induced alterations in striatal dopamine systems of obesity-prone rats.

作者信息

Vollbrecht Peter J, Mabrouk Omar S, Nelson Andrew D, Kennedy Robert T, Ferrario Carrie R

机构信息

Department of Pharmacology, University of Michigan, Ann Arbor, Michigan, USA.

Medicinal Chemistry, University of Michigan, Ann Arbor, Michigan, USA.

出版信息

Obesity (Silver Spring). 2016 Mar;24(3):670-7. doi: 10.1002/oby.21411. Epub 2016 Feb 5.

DOI:10.1002/oby.21411

PMID:26847484

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4855850/

Abstract

OBJECTIVE

Interactions between pre-existing differences in mesolimbic function and neuroadaptations induced by consumption of fatty, sugary foods are thought to contribute to human obesity. This study examined basal and cocaine-induced changes in striatal neurotransmitter levels without diet manipulation and D2 /D3 dopamine receptor-mediated transmission prior to and after consumption of "junk-foods" in obesity-prone and obesity-resistant rats.

METHODS

Microdialysis and liquid chromatography-mass spectrometry were used to determine basal and cocaine-induced changes in neurotransmitter levels in real time with cocaine-induced locomotor activity. Sensitivity to the D2 /D3 dopamine receptor agonist quinpirole was examined before and after restricted junk-food exposure. Selectively bred obesity-prone and obesity-resistant rats were used.

RESULTS

Cocaine-induced locomotion was greater in obesity-prone rats versus obesity-resistant rats prior to diet manipulation. Basal and cocaine-induced increases in dopamine and serotonin levels did not differ. Obesity-prone rats were more sensitive to the D2 receptor-mediated effects of quinpirole, and junk-food produced modest alterations in quinpirole sensitivity in obesity-resistant rats.

CONCLUSIONS

These data show that mesolimbic systems differ prior to diet manipulation in susceptible versus resistant rats, and that consumption of fatty, sugary foods produce different neuroadaptations in these populations. These differences may contribute to enhanced food craving and an inability to limit food intake in susceptible individuals.

摘要

目的

中脑边缘系统功能的预先存在差异与食用高脂肪、高糖食物所诱导的神经适应性之间的相互作用被认为是导致人类肥胖的原因。本研究在易肥胖和抗肥胖大鼠食用“垃圾食品”之前和之后，在不进行饮食操控的情况下，检测了纹状体神经递质水平的基础变化和可卡因诱导的变化，以及D2 / D3多巴胺受体介导的传递。

方法

采用微透析和液相色谱 - 质谱联用技术，实时测定可卡因诱导的运动活性时神经递质水平的基础变化和可卡因诱导的变化。在限制垃圾食品暴露前后，检测对D2 / D3多巴胺受体激动剂喹吡罗的敏感性。使用选择性培育的易肥胖和抗肥胖大鼠。

结果

在饮食操控之前，可卡因诱导的运动在易肥胖大鼠中比抗肥胖大鼠更大。多巴胺和血清素水平的基础变化和可卡因诱导的增加没有差异。易肥胖大鼠对喹吡罗的D2受体介导的作用更敏感，垃圾食品在抗肥胖大鼠中对喹吡罗敏感性产生适度改变。

结论

这些数据表明，在饮食操控之前，中脑边缘系统在易感大鼠和抗性大鼠中存在差异，并且食用高脂肪、高糖食物在这些群体中产生不同的神经适应性。这些差异可能导致易感个体中食物渴望增强和无法限制食物摄入量。

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