The Gut Gambit: A Review of How Microbial Imbalance Fuels Metabolic Mayhem.

2026-03-11
Nutrients 18(6)

PubMed: 41901063
DOI: 10.3390/nu18060888

Study Design

Type: Review
Methods: The Scopus database was exclusively searched for the literature. Relevant articles were identified using predefined keywords, including gut dysbiosis, microbiota, microbiome, oxidative stress, metabolic disorders, inflammation, and epigenetics or combinations.

Rigorous Journal

Background/objectives

An imbalance in gut microbiota, known as gut dysbiosis, results in reactive oxygen species overproduction, which can cause inflammatory conditions, damage DNA, trigger immunity, and induce epigenetic modifications of crucial genes that regulate metabolic pathways. Such a condition can also weaken the resilience of the protective gut wall and elevate colon permeability, allowing toxins from the gut to reach the liver and bloodstream, contributing to oxidative damage, autoimmune diseases, and epigenetic changes linked to metabolic disorders.

Methods

The Scopus database was exclusively searched for the literature. Relevant articles were identified using predefined keywords, including gut dysbiosis, microbiota, microbiome, oxidative stress, metabolic disorders, inflammation, and epigenetics or combinations. Gut microbiota- and diet-induced metabolic disorders, particularly obesity, insulin resistance, dyslipidemia, and hypertension, may be inherited through epigenetic pathways.

Results

The evidence analyzed suggests that the gut microbiota serves as a diverse metabolic and immunological organ. Its disruption affects the production of short-chain fatty acids, bile acid metabolism, immune signaling, and the redox balance, which contributes to the development of obesity, insulin resistance, and metabolic syndrome.

Conclusions

This review highlights key epigenetic mechanisms underlying metabolic disorders and oxidative stress in the context of gut dysbiosis. Furthermore, therapeutic strategies targeting the gut microbiota, such as dietary interventions, prebiotics, probiotics, postbiotics, and fecal microbiota transplantation, hold promise for mitigating oxidative stress and inflammation associated with metabolic syndrome.

Research Insights

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