Involvement of the gut microbiota in the metabolic phenotypes of two sympatric gerbils

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-25 DOI:10.1016/j.cbpa.2024.111710
Jing Wen , Wenting Li , Tingbei Bo , Boyang Ding , Xueying Zhang , Dehua Wang
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Abstract

Temporal niche partitioning is a crucial strategy for sympatric species to avoid predation and competition for habitat space and food resources. This study investigated the effect of the gut microbiota on the metabolic rhythms of two sympatric gerbil species (Meriones unguiculatus and Meriones meridianus) to test the hypothesis that the oscillatory patterns of microbiota may not fully mirror those of the host's metabolism. Experiment 1 compared the circadian metabolic and gut microbiota rhythms of M. unguiculatus (n = 12) and M. meridianus (n = 12) and measured the subjects' body temperatures and environmental temperature preferences. In Experiment 2.1, six M. meridianus gerbils were treated with antibiotics, and in Experiment 2.2, 21 M. unguiculatus gerbils (seven per treatment) were randomly gavaged with saline or a gut microbiota suspension from either M. unguiculatus or M. meridianus; their metabolic rhythms were subsequently measured. The results showed that the two gerbils had different metabolic phenotypes that determined activity heterogeneity and contributed to their coexistence. The relative abundances of Bacteroidetes, Actinobacteria, and Cyanobacteria in M. meridianus varied rhythmically in parallel with the daily metabolic rate, which was significantly higher at night than during the day. The rhythm of the metabolic rate was not noticeable in M. unguiculatus. However, in M.unguiculatus, the relative abundances of Firmicutes, Bacteroidetes, Proteobacteria, and Verrucomicrobia were significantly higher during the day than at night, while Cyanobacteria exhibited the opposite pattern. Antibiotic treatment significantly weakened the metabolic rhythms of M. meridianus, and the circadian rhythms slowly recovered after stopping antibiotic gavage. However, after transplanting M. meridianus' gut microbiota into M. unguiculatus, the metabolic rate of M. unguiculatus was not significantly different from that of the control groups. Our hypothesis was partly supported: the microbiota was only partially involved in regulating the metabolic rhythms of gerbils, and other factors could compensate for the effect of the gut microbiota on host metabolic rhythms. This finding underscores the complexity of host–microbiota interactions and highlights the need for further exploration into the multifaceted mechanisms governing host metabolic regulation.

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肠道微生物群参与了两只同栖沙鼠的代谢表型。
时间生态位划分是同域物种避免捕食和竞争栖息地空间及食物资源的重要策略。本研究调查了肠道微生物群对两种同域沙鼠(Meriones unguiculatus和Meriones meridianus)代谢节律的影响,以验证微生物群的振荡模式可能并不完全反映宿主代谢模式的假设。实验 1 比较了 M. unguiculatus(n = 12)和 M. meridianus(n = 12)的昼夜代谢和肠道微生物群节律,并测量了受试者的体温和环境温度偏好。在实验 2.1 中,6 只 Meridianus 沙鼠接受了抗生素治疗;在实验 2.2 中,21 只 M. unguiculatus 沙鼠(每种处理 7 只)被随机灌胃生理盐水或 M. unguiculatus 或 M. meridianus 的肠道微生物悬浮液;随后测量了它们的新陈代谢节律。结果表明,两只沙鼠具有不同的代谢表型,这决定了它们的活动异质性,并促成了它们的共存。子午沙鼠体内类杆菌、放线菌和蓝细菌的相对丰度随每日代谢率的变化而有节律地变化,夜间代谢率明显高于白天。新陈代谢率的节律在 M. unguiculatus 中并不明显。然而,在贻贝中,固着菌、类杆菌、蛋白菌和蛭形微菌的相对丰度在白天明显高于夜间,而蓝藻则表现出相反的模式。抗生素治疗明显削弱了子午蝇蛆的代谢节律,停止灌胃抗生素后昼夜节律缓慢恢复。然而,在将梅花虫的肠道微生物群移植到阉割梅花虫体内后,阉割梅花虫的代谢率与对照组没有明显差异。我们的假设得到了部分支持:微生物群仅部分参与调节沙鼠的代谢节律,其他因素可以弥补肠道微生物群对宿主代谢节律的影响。这一发现突出了宿主与微生物群相互作用的复杂性,并强调了进一步探索宿主代谢调节的多方面机制的必要性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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