Fecal microbiota transfer between young and aged mice reverses hallmarks of the aging gut, eye, and brain

生物 肠道菌群 炎症 粪便 免疫学 肠-脑轴 脑功能 衰老的大脑 粪便细菌疗法 健康衰老 神经科学 生态学 老年学 医学 遗传学 艰难梭菌 抗生素 认知
作者
Aimée Parker,Stefano Romano,Rebecca Ansorge,Asmaa Aboelnour,Gwénaëlle Le Gall,George M. Savva,Matthew G. Pontifex,Andrea Telatin,David Baker,Emily Jones,David Vauzour,Steven Rudder,L. Ashley Blackshaw,Glen Jeffery,Simon R. Carding
出处
期刊:Microbiome [BioMed Central]
卷期号:10 (1): 1400-1403 被引量:314
标识
DOI:10.1186/s40168-022-01243-w
摘要

Abstract Background Altered intestinal microbiota composition in later life is associated with inflammaging, declining tissue function, and increased susceptibility to age-associated chronic diseases, including neurodegenerative dementias. Here, we tested the hypothesis that manipulating the intestinal microbiota influences the development of major comorbidities associated with aging and, in particular, inflammation affecting the brain and retina. Methods Using fecal microbiota transplantation, we exchanged the intestinal microbiota of young (3 months), old (18 months), and aged (24 months) mice. Whole metagenomic shotgun sequencing and metabolomics were used to develop a custom analysis workflow, to analyze the changes in gut microbiota composition and metabolic potential. Effects of age and microbiota transfer on the gut barrier, retina, and brain were assessed using protein assays, immunohistology, and behavioral testing. Results We show that microbiota composition profiles and key species enriched in young or aged mice are successfully transferred by FMT between young and aged mice and that FMT modulates resulting metabolic pathway profiles. The transfer of aged donor microbiota into young mice accelerates age-associated central nervous system (CNS) inflammation, retinal inflammation, and cytokine signaling and promotes loss of key functional protein in the eye, effects which are coincident with increased intestinal barrier permeability. Conversely, these detrimental effects can be reversed by the transfer of young donor microbiota. Conclusions These findings demonstrate that the aging gut microbiota drives detrimental changes in the gut–brain and gut–retina axes suggesting that microbial modulation may be of therapeutic benefit in preventing inflammation-related tissue decline in later life. Graphical abstract
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