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The gut-brain axis mediates bacterial driven modulation of reward signaling.
Molecular Metabolism 2023 June 27
Obesity is associated with deficits in reward which have been linked to compensatory overeating. The vagus nerve is a direct neural pathway that conveys post-ingestive feedback from the gut to the brain, including the reward regions, and vagal activation causes stereotypical reward behaviors. Chronic high fat (HF) feeding alters vagal signaling potentially dampening food-associated reward. Microbiota composition changes rapidly with HF feeding, and a HF-type microbiota is sufficient to alter vagal structure and function. However, whether microbiota-driven alterations in vagal signaling affect host appetitive feeding behavior is unknown. Here, we investigate if microbiota composition modulates reward signaling and assess the role of the vagus in mediating microbiota to brain communication. Male germ-free Fisher rats were colonized with gastrointestinal contents from chow (low fat (LF) ConvLF) or HF (ConvHF) fed rats. Following colonization, ConvHF rats consumed significantly more food than ConvLF animals. ConvHF rats displayed lower feeding-induced extracellular DOPAC levels (a metabolite of dopamine) in the Nucleus Accumbens (NAc) as well as reduced motivation for HF foods compared to ConvLF rats. Dopamine receptor 2 (DDR2) expression levels in the NAc were also significantly lower in ConvHF animals. Similar deficits were observed in conventionally raised HF fed rats, showing that diet-driven alteration in reward can be initiated via microbiota. Selective gut to brain deafferentation restored DOPAC levels, DRD2 expression, and motivational drive in ConvHF rats. We concluded from these data that a HF-type microbiota is sufficient to alter appetitive feeding behavior and that bacteria to reward communication is mediated by the vagus nerve.
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