Separate gut-brain circuits for fat and sugar reinforcement combine to promote overeating.

Cell metabolism Pub Date : 2024-02-06 Epub Date: 2024-01-18 DOI:10.1016/j.cmet.2023.12.014
Molly McDougle, Alan de Araujo, Arashdeep Singh, Mingxin Yang, Isadora Braga, Vincent Paille, Rebeca Mendez-Hernandez, Macarena Vergara, Lauren N Woodie, Abhishek Gour, Abhisheak Sharma, Nikhil Urs, Brandon Warren, Guillaume de Lartigue
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Abstract

Food is a powerful natural reinforcer that guides feeding decisions. The vagus nerve conveys internal sensory information from the gut to the brain about nutritional value; however, the cellular and molecular basis of macronutrient-specific reward circuits is poorly understood. Here, we monitor in vivo calcium dynamics to provide direct evidence of independent vagal sensing pathways for the detection of dietary fats and sugars. Using activity-dependent genetic capture of vagal neurons activated in response to gut infusions of nutrients, we demonstrate the existence of separate gut-brain circuits for fat and sugar sensing that are necessary and sufficient for nutrient-specific reinforcement. Even when controlling for calories, combined activation of fat and sugar circuits increases nigrostriatal dopamine release and overeating compared with fat or sugar alone. This work provides new insights into the complex sensory circuitry that mediates motivated behavior and suggests that a subconscious internal drive to consume obesogenic diets (e.g., those high in both fat and sugar) may impede conscious dieting efforts.

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肠道和大脑分别强化脂肪和糖分的回路,共同促进了暴饮暴食。
食物是一种强大的天然强化剂,能引导进食决策。迷走神经从肠道向大脑传递有关营养价值的内部感觉信息;然而,人们对宏量营养素特异性奖励回路的细胞和分子基础知之甚少。在这里,我们通过监测体内钙离子的动态变化,为检测食物中的脂肪和糖提供了独立迷走神经传感途径的直接证据。通过对肠道注入营养物质时激活的迷走神经元进行活动依赖性基因捕获,我们证明了存在独立的肠道-大脑脂肪和糖感知回路,这些回路对于营养特异性强化是必要且充分的。即使控制了卡路里,脂肪和糖回路的联合激活也会增加黑质纹状体多巴胺的释放,并增加暴饮暴食。这项研究为了解介导动机行为的复杂感官回路提供了新的视角,并表明潜意识中摄入致肥饮食(如高脂肪和高糖饮食)的内驱力可能会阻碍有意识的节食努力。
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