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Estropausal gut microbiota transplant improves measures of ovarian function in adult mice

Guardado en:
Udgivet i:bioRxiv (Feb 26, 2025)
Hovedforfatter: Kim, Minhoo
Andre forfattere: Wang, Justin, Pilley, Steven E, Lu, Ryan J, Xu, Alan, Kim, Younggyun, Liu, Minying, Fu, Xueyan, Booth, Sarah L, Mullen, Peter James, Benayoun, Bérénice A
Udgivet:
Cold Spring Harbor Laboratory Press
Fag:
Transcriptomes
Fertility
Intestinal microflora
Transplants & implants
Reproductive status
Microbiota
Life span
Metabolomics
Metagenomics
Dementia disorders
Transplantation
Ovaries
Molecular modelling
Gene expression
Osteoporosis
Fecal microflora
Aging
Microbiomes
Menopause
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Resumen:Decline in ovarian function with age not only affects fertility but is also linked to a higher risk of age-related diseases in women (e.g. osteoporosis, dementia). Intriguingly, earlier menopause is linked to shorter lifespan; however, the underlying molecular mechanisms of ovarian aging are not well understood. Recent evidence suggests the gut microbiota may influence ovarian health. In this study, we characterized ovarian aging associated microbial profiles in mice and investigated the effect of the gut microbiome from young and estropausal female mice on ovarian health through fecal microbiota transplantation. We demonstrate that the ovarian transcriptome can be broadly remodeled after heterochronic microbiota transplantation, with a reduction in inflammation-related gene expression and trends consistent with transcriptional rejuvenation. Consistently, these mice exhibited enhanced ovarian health and increased fertility. Using metagenomics-based causal mediation analyses and serum untargeted metabolomics, we identified candidate microbial species and metabolites that may contribute to the observed effects of fecal microbiota transplantation. Our findings reveal a direct link between the gut microbiota and ovarian health.Competing Interest StatementThe authors have declared no competing interest.Footnotes* - Additional cohorts of FMT recipient mice have been included - Data from male mice injected with VCD are now included - Serum metabolomics data now included - Whole genome shotgun microbiome sequencing data now included
ISSN:2692-8205
DOI:10.1101/2024.05.03.592475
Fuente:Biological Science Database