通过肠道共生体进行氮循环在冬眠季节会在地松鼠中增加。
Nitrogen recycling via gut symbionts increases in ground squirrels over the hibernation season.
机构信息
Department of Comparative Biosciences, University of Wisconsin-Madison, Madison, WI 53706, USA.
Department of Bacteriology, University of Wisconsin-Madison, Madison, WI 53706, USA.
出版信息
Science. 2022 Jan 28;375(6579):460-463. doi: 10.1126/science.abh2950. Epub 2022 Jan 27.
Abstract
Hibernation is a mammalian strategy that uses metabolic plasticity to reduce energy demands and enable long-term fasting. Fasting mitigates winter food scarcity but eliminates dietary nitrogen, jeopardizing body protein balance. Here, we reveal gut microbiome-mediated urea nitrogen recycling in hibernating thirteen-lined ground squirrels (). Ureolytic gut microbes incorporate urea nitrogen into metabolites that are absorbed by the host, with the nitrogen reincorporated into the squirrel's protein pool. Urea nitrogen recycling is greatest after prolonged fasting in late winter, when urea transporter abundance in gut tissue and urease gene abundance in the microbiome are highest. These results reveal a functional role for the gut microbiome during hibernation and suggest mechanisms by which urea nitrogen recycling may contribute to protein balance in other monogastric animals.
摘要
冬眠是一种哺乳动物策略,它利用代谢可塑性来降低能量需求,并实现长期禁食。禁食可以缓解冬季食物短缺,但会消除膳食中的氮,从而危及身体蛋白质平衡。在这里,我们揭示了冬眠的十三线地松鼠肠道微生物组介导的尿素氮循环利用机制。脲解微生物将尿素氮纳入被宿主吸收的代谢物中,氮被重新纳入松鼠的蛋白质库中。在隆冬后期长时间禁食后,尿素氮循环利用率最高,此时肠道组织中的尿素转运蛋白丰度和微生物组中的脲酶基因丰度最高。这些结果揭示了肠道微生物组在冬眠期间的功能作用,并提出了尿素氮循环利用可能有助于其他单胃动物蛋白质平衡的机制。
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