Department of Integrative Biology and Museum of Vertebrate Zoology, University of California Berkeley, Berkeley, California.
Department of Ecology and Evolution, Research School of Biology, The Australian National University, Acton, Australian Capital Territory, Australia.
Mol Ecol. 2019 May;28(9):2378-2390. doi: 10.1111/mec.14905. Epub 2018 Nov 15.
The maintenance of oxygen homeostasis in the gut is critical for the maintenance of a healthy gut microbiota. However, few studies have explored how the concentration of atmospheric oxygen affects the gut microbiota in natural populations. High-altitude environments provide an opportunity to study the potential effects of atmospheric oxygen on the composition and function of the gut microbiota. Here, we characterized the caecal microbial communities of wild house mice (Mus musculus domesticus) in two independent altitudinal transects, one in Ecuador and one in Bolivia, from sea level to nearly 4,000 m. First, we found that differences in altitude were associated with differences in the gut microbial community after controlling for the effects of body mass, diet, reproductive status and population of origin. Second, obligate anaerobes tended to show a positive correlation with altitude, while all other microbes tended to show a negative correlation with altitude. These patterns were seen independently in both transects, consistent with the expected effects of atmospheric oxygen on gut microbes. Prevotella was the most-enriched genus at high elevations in both transects, consistent with observations in high-altitude populations of pikas, ruminants and humans, and also consistent with observations of laboratory mice exposed to hypoxic conditions. Lastly, the renin-angiotensin system, a recently proposed microbiota-mediated pathway of blood pressure regulation, was the top predicted metagenomic pathway enriched in high altitudes in both transects. These results suggest that high-altitude environments affect the composition and function of the gut microbiota in wild mammals.
肠道内氧平衡的维持对于维持健康的肠道微生物群至关重要。然而,很少有研究探讨大气氧浓度如何影响自然种群中的肠道微生物群。高海拔环境为研究大气氧对肠道微生物群组成和功能的潜在影响提供了机会。在这里,我们对来自厄瓜多尔和玻利维亚两个独立海拔梯度的野生家鼠(Mus musculus domesticus)盲肠微生物群落进行了特征描述,海拔范围从海平面到近 4000 米。首先,我们发现,在控制体重、饮食、生殖状态和起源种群的影响后,海拔差异与肠道微生物群落的差异有关。其次,专性厌氧菌往往与海拔呈正相关,而所有其他微生物往往与海拔呈负相关。这两种模式在两个梯度中都是独立存在的,这与大气氧对肠道微生物的预期影响一致。普雷沃特菌在两个梯度中的高海拔地区都最为丰富,这与高原地区土拨鼠、反刍动物和人类的观察结果一致,也与实验室中暴露于低氧条件下的小鼠的观察结果一致。最后,肾素-血管紧张素系统(renin-angiotensin system),一种最近提出的与微生物群有关的血压调节途径,是两个梯度中高海拔地区预测丰度最高的代谢组学途径。这些结果表明,高海拔环境会影响野生哺乳动物肠道微生物群的组成和功能。