The Dynamic Interplay between the Gut Microbiota and Autoimmune Diseases.

Journal of immunology research. 2019;2019:7546047
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Plain language summary

The human gut, or intestines, are populated with commensal bacteria which live in harmony with us and support various biological functions. The main role of the gut microbiota is to maintain the homeostasis of our immune system. It does this by maintaining the integrity of the intestinal lining and helping with digestive processes, production, and absorption of nutrients, and harvesting of immune cells. Our gut microbiome develops throughout infancy and confers benefits in adulthood and so any disruption to its development may impact on health. An imbalance between these helpful bacteria and more harmful pathogenic bacteria, which are also present in smaller amounts, is called dysbiosis and is a common factor in many autoimmune conditions. Autoimmune conditions are characterised by an over-active immune system where immune cells attack our own body. Imbalances in gut microbiota are also common, and diet is thought to be a key factor alongside other genetic and environmental factors. Evidence suggests that long-term dysbiosis may trigger autoimmune disease, amplify disease progression or both, as seen in studies on Arthritis, Lupus, Inflammatory bowel disease. The gut microbiota can be partially restored and supported with antimicrobial interventions, prebiotics, and selective probiotics. The review concludes that therapies targeting the gut microbiota may be effective in the future prevention or treatment of autoimmune diseases.

Abstract

The human gut-resident commensal microbiota is a unique ecosystem associated with various bodily functions, especially immunity. Gut microbiota dysbiosis plays a crucial role in autoimmune disease pathogenesis as well as in bowel-related diseases. However, the role of the gut microbiota, which causes or influences systemic immunity in autoimmune diseases, remains elusive. Aryl hydrocarbon receptor, a ligand-activated transcription factor, is a master moderator of host-microbiota interactions because it shapes the immune system and impacts host metabolism. In addition, treatment optimization while minimizing potential adverse effects in autoimmune diseases remains essential, and modulation of the gut microbiota constitutes a potential clinical therapy. Here, we present evidence linking gut microbiota dysbiosis with autoimmune mechanisms involved in disease development to identify future effective approaches based on the gut microbiota for preventing autoimmune diseases.

Lifestyle medicine

Fundamental Clinical Imbalances : Immune and inflammation
Patient Centred Factors : Triggers/Gut Microbiota
Environmental Inputs : Diet ; Nutrients ; Microorganisms
Personal Lifestyle Factors : Nutrition
Functional Laboratory Testing : Not applicable
Bioactive Substances : Probiotics ; Prebiotics ; Antimicrobials

Methodological quality

Allocation concealment : Not applicable
Publication Type : Journal Article ; Review

Metadata

Nutrition Evidence keywords : Gut microbiota ; Dysbiosis ; Immune system