# Sex and Age Differentially Regulate the Gut Microbiota and Gut Homeostasis in Mice

**Authors:** Megan Wong, Audrey Pierce, Kerry Wellenstein, Jennifer Lee

PMC · DOI: 10.1093/geroni/igaf122.2884 · Innovation in Aging · 2025-12-31

## TL;DR

This study shows that sex and age affect gut microbiota and gut health in mice, with differences that could lead to sex-specific strategies for improving metabolism.

## Contribution

The study reveals distinct sex- and age-specific effects on gut microbiota and gut homeostasis in mice.

## Key findings

- Old female mice had higher adiposity and a distinct cecal lipidome profile compared to old male mice.
- Old female mice showed elevated lipopolysaccharide and short-chain fatty acids, while old males had improved intestinal barrier gene expression.
- Colon mucus thickness and protein levels increased in old male mice but not in old female mice.

## Abstract

The gut microbiota and gastrointestinal tract serve essentials roles in regulating host metabolism, but our understanding of how sex and age contribute to these processes remains unclear. We metabolically phenotyped young (6-month-old) and old (16-23-month-old) C57BL6 female and male chow-fed mice. We collected terminal blood for serum biochemistry and cecal contents for metabolomics. Small and large intestines were collected for histology, qRT-PCR, and immune cell levels by flow cytometry. Both sexes of old mice had higher body weight, adiposity, and plasma insulin levels versus young controls. However, old female mice had 2-fold higher adiposity versus old male mice, and this was associated with a distinct sex-specific cecal lipidome profile. Old female mice had elevated circulating levels of lipopolysaccharide and cecal short-chain fatty acids versus young female mice, and these were not different within male mice. Within old mice, levels of colonic intraepithelial TCRɤδ, a key gut barrier regulator, and CD4+ T-cell cytokines were higher in females versus male mice. By contrast, old male mice had increased expression of intestinal barrier genes versus young male mice, with fewer genes differentially regulated in female mice. Similarly, colon mucus thickness and mucus protein levels were higher in old male mice versus young male controls but not different within female mice. These data identify distinct sex- and age-specific effects on multiple components of the gut microbiome and gut homeostasis that may regulate host metabolism. These differences may lead to sex-specific gut-based strategies to improve host metabolism across the lifespan.

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Source: https://tomesphere.com/paper/PMC12760588