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    Microbial shifts in the aging mouse gut

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    Langille_Ageing_Microbiome_2014.pdf (867.1Kb)
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    Publication date
    2014-12-05
    Author
    Langille, M.G.I.
    Meehan, Conor J.
    Koenig, J.E.
    Dhanani, A.S.
    Rose, R.A.
    Howlett, S.E.
    Beiko, R.G.
    Keyword
    Aging
    Alistipes
    B12
    Frailty index
    Mice
    Microbiome
    Rights
    © 2014 Langille et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
    Peer-Reviewed
    Yes
    
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    Abstract
    Background: The changes that occur in the microbiome of aging individuals are unclear, especially in light of the imperfect correlation of frailty with age. Studies in older human subjects have reported subtle effects, but these results may be confounded by other variables that often change with age such as diet and place of residence. To test these associations in a more controlled model system, we examined the relationship between age, frailty, and the gut microbiome of female C57BL/6 J mice. Results: The frailty index, which is based on the evaluation of 31 clinical signs of deterioration in mice, showed a near-perfect correlation with age. We observed a statistically significant relationship between age and the taxonomic composition of the corresponding microbiome. Consistent with previous human studies, the Rikenellaceae family, which includes the Alistipes genus, was the most significantly overrepresented taxon within middle-aged and older mice. The functional profile of the mouse gut microbiome also varied with host age and frailty. Bacterial-encoded functions that were underrepresented in older mice included cobalamin (B12) and biotin (B7) biosynthesis, and bacterial SOS genes associated with DNA repair. Conversely, creatine degradation, associated with muscle wasting, was overrepresented within the gut microbiomes of the older mice, as were bacterial-encoded β-glucuronidases, which can influence drug-induced epithelial cell toxicity. Older mice also showed an overabundance of monosaccharide utilization genes relative to di-, oligo-, and polysaccharide utilization genes, which may have a substantial impact on gut homeostasis. Conclusion: We have identified taxonomic and functional patterns that correlate with age and frailty in the mouse microbiome. Differences in functions related to host nutrition and drug pharmacology vary in an age-dependent manner, suggesting that the availability and timing of essential functions may differ significantly with age and frailty. Future work with larger cohorts of mice will aim to separate the effects of age and frailty, and other factors.
    URI
    http://hdl.handle.net/10454/17290
    Version
    Published version
    Citation
    Langille MGI, Meehan CJ, Koenig JE et al (2014) Microbial shifts in the aging mouse gut. Microbiome. 2(50).
    Link to publisher’s version
    https://doi.org/10.1186/s40168-014-0050-9
    Type
    Article
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    Life Sciences Publications

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