# Structured Exercise Modulates Gut Microbiota Composition and Protects Against Diet-Induced Dysbiosis in a Rat Model

**Authors:** Fatiha M. Benslimane, Maha Alser, Abdelrahman M Elgamal, Layla I. Mohammed, Zain Zaki Zakaria, Sara Sokary, Muhammad Umar Sohail, Ayat S Hammad, Saddam Akber Abbasi, Maha Al-Asmakh

PMC · DOI: 10.3390/nu18050847 · Nutrients · 2026-03-05

## TL;DR

Structured exercise in rats helps protect gut health and counteracts the negative effects of a high-fat diet on gut bacteria.

## Contribution

This study reveals that forced exercise, compared to voluntary exercise, better preserves gut microbiota diversity and promotes beneficial bacteria under a high-fat diet.

## Key findings

- Forced exercise increased gut microbiota diversity more than voluntary exercise in high-fat diet-fed rats.
- Forced exercise enriched beneficial genera like Akkermansia, Blautia, Coprococcus, and Roseburia in high-fat diet groups.
- Akkermansia abundance correlated with exercise distance and inversely with body weight in high-fat diet-fed rats.

## Abstract

Background/Objectives: Dietary composition and physical activity are major determinants of gut microbiome structure, and dysbiosis is strongly associated with metabolic disorders. While both diet and exercise independently influence the gut microbiome, their interactive effects—particularly across different exercise modalities—remain incompletely understood. This study investigated the combined effects of diet type (normal chow [NC] vs. high-fat diet [HFD]) and exercise modality (control [C], voluntary [V], and forced [F]) on gut microbiota composition in rats. Methods: Sixty-three Wistar rats were randomized into six groups according to diet and exercise status. Fecal samples were collected and analyzed using full-length 16S rRNA gene sequencing (Oxford Nanopore Technologies). Alpha and beta diversity metrics were calculated, and taxonomic composition was assessed at phylum and genus levels. Results: HFD groups exhibited significantly higher alpha diversity than NC groups (Shannon index: 3.47–3.63 vs. 2.76–2.94, p < 0.001), with forced exercise associated with a greater diversity than voluntary exercise. Beta-diversity analysis confirmed diet as the dominant factor influencing microbial structure (PERMANOVA p = 0.001), with exercise providing an additional modulatory effect. Firmicutes, Bacteroidota, Deferribacterota, and Proteobacteria predominated, with Firmicutes decreasing under HFD. Forced exercise significantly enriched beneficial genera, including Akkermansia (detected exclusively in exercised HFD groups; p = 0.03), Blautia, Coprococcus, and Roseburia. Akkermansia abundance correlated positively with exercise distance (p < 0.001) and negatively with body weight (p < 0.01). Conclusions: Structured exercise, particularly forced treadmill training, attenuates HFD-associated dysbiosis and promotes the beneficial gut bacteria that is associated with metabolic health. These findings highlight exercise modality as a critical factor in dietary strategies targeting gut microbiome modulations.

## Full-text entities

- **Diseases:** metabolic disorders (MESH:D008659), Dysbiosis (MESH:D064806)
- **Chemicals:** fat (MESH:D005223)
- **Species:** gut metagenome (species) [taxon 749906], Rattus norvegicus (brown rat, species) [taxon 10116], Bacillota (clostridial firmicutes, phylum) [taxon 1239], Akkermansia (genus) [taxon 239934], Roseburia (genus) [taxon 841], Pseudomonadota (proteobacteria, phylum) [taxon 1224], Coprococcus (genus) [taxon 33042]

## Full text

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## Figures

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## References

62 references — full list in the complete paper: https://tomesphere.com/paper/PMC12987009/full.md

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Source: https://tomesphere.com/paper/PMC12987009