Aging-dependent skin microbiome alterations across body sites in a United Kingdom cohort

Mary Hannah Swaney; Duncan J Newman; Junhong Mao; Anthony C Hilton; Tony Worthington; Min Li

doi:10.3389/fragi.2025.1644012

Aging-dependent skin microbiome alterations across body sites in a United Kingdom cohort

Mary Hannah Swaney, Duncan J Newman, Junhong Mao, Anthony C Hilton, Tony Worthington, Min Li

Aston University

Research output: Contribution to journal › Article › peer-review

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Abstract

INTRODUCTION: The aging process profoundly influences not only the health and visual appearance of the skin, but also the composition of the microbial communities residing on its surface.

METHODS: To investigate these microbial changes, we employed a comprehensive, multi-scale approach that probes community composition, species interactions, and predicted metabolic function of the skin microbiome of the face and forearm in young and old age individuals from the United Kingdom using 16S rRNA gene sequencing.

RESULTS: Our findings revealed significant and site-specific age-related shifts in the microbiome involving diversity, interpersonal heterogeneity, network connectivity, and metabolic potential, suggesting loss of microbiome robustness and a shift towards a hyperdiversified, fragile microbial community in old age. Furthermore, we applied Dirichlet Multinomial Mixtures to uncover novel age-driven microbiome profiles unique across each skin site, highlighting Cutibacterium acnes, Staphylococcus hominis, and microbial community diversity as key differentiating biomarkers of the skin microbiome across the lifespan.

DISCUSSION: Overall, through examining the aging skin microbiome from a systems perspective, our study reinforces and enhances the findings from previous aging microbiome studies and underscores the importance of site-specific differences in skin microbiome dynamics with age. These insights suggest that microbial interventions could mitigate age-related changes, enhancing skin health and wellbeing throughout life.

Original language	English
Article number	1644012
Number of pages	15
Journal	Frontiers in aging
Volume	6
DOIs	https://doi.org/10.3389/fragi.2025.1644012
Publication status	Published - 19 Sept 2025

Bibliographical note

© 2025 Swaney, Newman, Mao, Hilton,Worthington and Li. This is an open-accessarticle distributed under the terms of theCreative Commons Attribution License (CC BY).The use, distribution or reproduction in otherforums is permitted, provided the originalauthor(s) and the copyright owner(s) arecredited and that the original publication in thisjournal is cited, in accordance with acceptedacademic practice. No use, distribution orreproduction is permitted which does notcomply with these terms.

Data Access Statement

The datasets presented in this study can be found in online repositories. The names of the repository/repositories and accession number(s) can be found below: https://www.ncbi.nlm.nih.gov/, PRJNA1273048.

https://www.ncbi.nlm.nih.gov/bioproject/PRJNA1273048/

Keywords

skin microbiome
aging skin
aging skin microbiome
microbial diversity
skin

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10.3389/fragi.2025.1644012Licence: CC BY 4.0

Aging-dependent skin microbiome alterations across body sites in a United Kingdom cohort
© 2025 Swaney, Newman, Mao, Hilton,Worthington and Li. This is an open-accessarticle distributed under the terms of theCreative Commons Attribution License (CC BY).The use, distribution or reproduction in otherforums is permitted, provided the originalauthor(s) and the copyright owner(s) arecredited and that the original publication in thisjournal is cited, in accordance with acceptedacademic practice. No use, distribution orreproduction is permitted which does notcomply with these terms.
Final published version, 3.02 MBLicence: CC BY 4.0

Cite this

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abstract = "INTRODUCTION: The aging process profoundly influences not only the health and visual appearance of the skin, but also the composition of the microbial communities residing on its surface.METHODS: To investigate these microbial changes, we employed a comprehensive, multi-scale approach that probes community composition, species interactions, and predicted metabolic function of the skin microbiome of the face and forearm in young and old age individuals from the United Kingdom using 16S rRNA gene sequencing.RESULTS: Our findings revealed significant and site-specific age-related shifts in the microbiome involving diversity, interpersonal heterogeneity, network connectivity, and metabolic potential, suggesting loss of microbiome robustness and a shift towards a hyperdiversified, fragile microbial community in old age. Furthermore, we applied Dirichlet Multinomial Mixtures to uncover novel age-driven microbiome profiles unique across each skin site, highlighting Cutibacterium acnes, Staphylococcus hominis, and microbial community diversity as key differentiating biomarkers of the skin microbiome across the lifespan. DISCUSSION: Overall, through examining the aging skin microbiome from a systems perspective, our study reinforces and enhances the findings from previous aging microbiome studies and underscores the importance of site-specific differences in skin microbiome dynamics with age. These insights suggest that microbial interventions could mitigate age-related changes, enhancing skin health and wellbeing throughout life.",

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AU - Li, Min

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Y1 - 2025/9/19

N2 - INTRODUCTION: The aging process profoundly influences not only the health and visual appearance of the skin, but also the composition of the microbial communities residing on its surface.METHODS: To investigate these microbial changes, we employed a comprehensive, multi-scale approach that probes community composition, species interactions, and predicted metabolic function of the skin microbiome of the face and forearm in young and old age individuals from the United Kingdom using 16S rRNA gene sequencing.RESULTS: Our findings revealed significant and site-specific age-related shifts in the microbiome involving diversity, interpersonal heterogeneity, network connectivity, and metabolic potential, suggesting loss of microbiome robustness and a shift towards a hyperdiversified, fragile microbial community in old age. Furthermore, we applied Dirichlet Multinomial Mixtures to uncover novel age-driven microbiome profiles unique across each skin site, highlighting Cutibacterium acnes, Staphylococcus hominis, and microbial community diversity as key differentiating biomarkers of the skin microbiome across the lifespan. DISCUSSION: Overall, through examining the aging skin microbiome from a systems perspective, our study reinforces and enhances the findings from previous aging microbiome studies and underscores the importance of site-specific differences in skin microbiome dynamics with age. These insights suggest that microbial interventions could mitigate age-related changes, enhancing skin health and wellbeing throughout life.

AB - INTRODUCTION: The aging process profoundly influences not only the health and visual appearance of the skin, but also the composition of the microbial communities residing on its surface.METHODS: To investigate these microbial changes, we employed a comprehensive, multi-scale approach that probes community composition, species interactions, and predicted metabolic function of the skin microbiome of the face and forearm in young and old age individuals from the United Kingdom using 16S rRNA gene sequencing.RESULTS: Our findings revealed significant and site-specific age-related shifts in the microbiome involving diversity, interpersonal heterogeneity, network connectivity, and metabolic potential, suggesting loss of microbiome robustness and a shift towards a hyperdiversified, fragile microbial community in old age. Furthermore, we applied Dirichlet Multinomial Mixtures to uncover novel age-driven microbiome profiles unique across each skin site, highlighting Cutibacterium acnes, Staphylococcus hominis, and microbial community diversity as key differentiating biomarkers of the skin microbiome across the lifespan. DISCUSSION: Overall, through examining the aging skin microbiome from a systems perspective, our study reinforces and enhances the findings from previous aging microbiome studies and underscores the importance of site-specific differences in skin microbiome dynamics with age. These insights suggest that microbial interventions could mitigate age-related changes, enhancing skin health and wellbeing throughout life.

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Aging-dependent skin microbiome alterations across body sites in a United Kingdom cohort

Abstract

Bibliographical note

Data Access Statement

Keywords

Access to Document

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