Dietary nutrients shape complex interactions between hosts and their commensal gut bacteria, further promoting flexibility in host-microbiota associations that can drive nutritional symbiosis. However, it remains less clear if diet-dependent host signaling mechanisms also influence these associations. Using Drosophila, we show here that nuclear factor κB (NF-κB)/Relish, an innate immune transcription factor emerging as a signaling node linking nutrient-immune-metabolic interactions, is vital to adapt gut microbiota species composition to host diet macronutrient composition. We find that Relish is required within midgut enterocytes to amplify host-Lactobacillus associations, an important bacterial mediator of nutritional symbiosis, and thus modulate microbiota composition in response to dietary adaptation. Relish limits diet-dependent transcriptional inducibility of the cap-dependent translation inhibitor 4E-BP/Thor to control microbiota composition. Furthermore, maintaining cap-dependent translation in response to dietary adaptation is critical to amplify host-Lactobacillus associations. These results highlight that NF-κB-dependent host signaling mechanisms, in coordination with host translation control, shape diet-microbiota interactions.

译文

饮食营养素塑造宿主与其肠道菌之间复杂的相互作用,从而进一步促进宿主微生物群关联的灵活性,从而推动营养共生。然而,尚不清楚饮食依赖性宿主信号传导机制是否也影响这些关联。使用果蝇,我们在这里显示核因子κB(NF-κB)/ Relish,一种先天免疫转录因子,作为连接营养物-免疫-代谢相互作用的信号节点而出现,对于适应肠道微生物群组成来容纳饮食中的大量营养素组成至关重要。我们发现,中肠肠上皮细胞内需要Relish来放大宿主-乳酸杆菌,营养共生的重要细菌介体,从而调节微生物群组成以适应饮食适应。津津有味地限制了帽依赖性翻译抑制剂4E-BP / Thor的饮食依赖性转录诱导性,以控制微生物群的组成。此外,响应于饮食适应性而维持帽依赖性翻译对于扩增宿主-乳酸杆菌协会是至关重要的。这些结果表明,与宿主翻译控制协同作用,依赖于NF-κB的宿主信号传导机制影响了饮食-微生物群落的相互作用。

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