病原生物和共生生物通过马氏管-肠道逆流对背鳍双壳类动物的微生物群平衡做出贡献

Yanning Liu, Rengang Luo, Shuai Bai, Bruno Lemaitre, Hongyu Zhang, Xiaoxue Li
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摘要

宿主与肠道微生物群的相互作用比好坏更复杂。在某种情况下,肠道共生细菌和病原菌都能为宿主提供必要的功能,但在另一种情况下,它们又会损害宿主的健康。因此,必须严格控制这些肠道细菌,以避免对宿主造成有害影响。然而,病原菌和其他共生细菌如何协调建立宿主免疫防御系统仍不清楚。在这里,我们利用栉水母科果蝇 Bactrocera dorsalis 报告说,病原菌和其他肠道共生细菌都会释放酪胺,宿主昆虫能识别酪胺。细菌感染后,这些酪胺会诱导形成昆虫保留的马尔皮希安小管-肠道逆流,这需要酪胺受体和水汽素。与此同时,病原菌而非肠道共生细菌会诱导产生活性氧,这些活性氧被逆流保存下来,通过增加肠道蠕动来促进细菌的清除。更重要的是,我们的研究结果表明,马氏管-肠道逆流能维持适当的微生物群组成。我们的研究提出了一个模型,即病原体诱导的活性氧可通过马尔皮质小管-肠道逆流来保存,其中既包括病原体,也包括共生细菌。此外,我们的研究还提供了马氏管与肠道之间的相互作用,以确保肠道微生物群的有效维持。
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Pathobiont and symbiont contribute to microbiota homeostasis through Malpighian tubules-gut countercurrent flow in Bactrocera dorsalis
Host-gut microbiota interactions are more complex than good or bad. Both gut symbiotic bacteria and pathobionts can provide essential functions to their host in one scenario and yet be detrimental to host health in another. So, these gut-dwelling bacteria must be tightly controlled to avoid harmful effects on the host. However, how pathobionts and other symbiotic bacteria coordinate to establish a host immune defense system remains unclear. Here, using a Tephritidae fruit fly Bactrocera dorsalis, we report that both pathobionts and other gut symbiotic bacteria release tyramine, which is recognized by the host insects. These tyramines induce the formation of insect-conserved Malpighian tubules-gut countercurrent flow upon bacterial infection, which requires tyramine receptors and aquaporins. At the same time, pathobionts but not gut symbiotic bacteria induce the generation of reactive oxygen species, which are preserved by the countercurrent flow, promoting bacteria elimination through increasing gut peristalsis. More importantly, our results show that the Malpighian tubules-gut countercurrent flow maintains proper microbiota composition. Our work suggests a model where pathobiont-induced reactive oxygen species are preserved by Malpighian tubules-gut countercurrent flow involving both pathobionts and symbiotic bacteria. Furthermore, our work provides a Malpighian tubules-gut interaction that ensures efficient maintenance of the gut microbiota.
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