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Gut microbiota of the young ameliorates physical fitness of the aged in mice

Cited 21 time in Web of Science Cited 21 time in Scopus
Authors

Kim, Kwang H.; Chung, Yusook; Huh, Ji-Won; Park, Dong Jin; Cho, Yejin; Oh, Yeseul; Jeong, Haengdueng; Yoon, Jaekyung; Kang, Ju-Hee; Shin, Hae-Sol; Kim, Hyoung-Chin; Kwon, Soon-Kyeong; Seo, Kyoung Yul; Oh, Seung Hyun; Seong, Je Kyung; Ha, Sang-Jun; Nam, Ki Taek; Kim, Jihyun F.

Issue Date
2022-12
Publisher
BioMed Central
Citation
Microbiome, Vol.10 No.1, p. 238
Abstract
Background: Aging is a natural process that an organism gradually loses its physical fitness and functionality. Great efforts have been made to understand and intervene in this deteriorating process. The gut microbiota affects host physiology, and dysbiosis of the microbial community often underlies the pathogenesis of host disorders. The commensal microbiota also changes with aging; however, the interplay between the microbiota and host aging remains largely unexplored. Here, we systematically examined the ameliorating effects of the gut microbiota derived from the young on the physiology and phenotypes of the aged.Results: As the fecal microbiota was transplanted from young mice at 5 weeks after birth into 12-month-old ones, the thickness of the muscle fiber and grip strength were increased, and the water retention ability of the skin was enhanced with thickened stratum corneum. Muscle thickness was also marginally increased in 25-month-old mice after transferring the gut microbiota from the young. Bacteria enriched in 12-month-old mice that received the young-derived microbiota significantly correlated with the improved host fitness and altered gene expression. In the dermis of these mice, transcription of Dbn1 was most upregulated and DBN1-expressing cells increased twice. Dbn1-heterozygous mice exhibited impaired skin barrier function and hydration.Conclusions: We revealed that the young-derived gut microbiota rejuvenates the physical fitness of the aged by altering the microbial composition of the gut and gene expression in muscle and skin. Dbn1, for the first time, was found to be induced by the young microbiota and to modulate skin hydration. Our results provide solid evidence that the gut microbiota from the young improves the vitality of the aged.
ISSN
2049-2618
URI
https://hdl.handle.net/10371/205002
DOI
https://doi.org/10.1186/s40168-022-01386-w
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  • College of Veterinary Medicine
  • Department of Veterinary Medicine
Research Area Metabolic syndrome model construction and omics research, Mouse locomotion and metabolic phenotyping analysis, Study of immune regulatory response in obesity, 대사증후군 모델 구축 및 오믹스 연구, 마우스 운동 및 대사 표현형 분석, 비만에서의 면역 조절 반응 연구

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