Nutrients, Vol. 18, Pages 1501: The Gut–Skin and Gut–Thyroid Axis in Autoimmunity: Roles of Dysbiosis, Microbial Metabolites, Immune Dysregulation, and Diet in Psoriasis and Hashimoto’s Thyroiditis

Nutrients, Vol. 18, Pages 1501: The Gut–Skin and Gut–Thyroid Axis in Autoimmunity: Roles of Dysbiosis, Microbial Metabolites, Immune Dysregulation, and Diet in Psoriasis and Hashimoto’s Thyroiditis

Nutrients doi: 10.3390/nu18101501

Authors:
Sabīna Ribačuka
Sabīne Upmale-Engela
Ieva Vaivode
Ilze Konrade
Māra Rone-Kupfere

Background/Objectives: Psoriasis and Hashimoto’s thyroiditis are chronic immune-mediated disorders affecting distinct target organs but sharing overlapping pathogenic mechanisms, including gut dysbiosis, impaired intestinal barrier function, and systemic immune dysregulation. Growing evidence highlights the gut–skin and gut–thyroid axes as important interfaces linking microbial alterations to immune-mediated inflammation. This review aims to synthesize current knowledge on gut microbiota alterations in psoriasis and Hashimoto’s thyroiditis, with particular emphasis on intestinal permeability, immune pathways, and microbiome-derived metabolites. Methods: A narrative review of experimental and human observational studies was conducted to evaluate evidence on gut microbiota composition, intestinal barrier integrity, immune regulation, bile acid metabolism, and dietary influences in psoriasis and Hashimoto’s thyroiditis. The relevant literature examining mechanistic pathways and clinical associations was included. Results: Both conditions are associated with altered gut microbial composition, including reduced abundance of short-chain fatty acid–producing taxa, which may impair epithelial barrier integrity and promote systemic immune activation. Increased intestinal permeability and enhanced Th17-driven inflammatory responses are reported in both diseases. Recent studies suggest that dysregulated bile acid metabolism may influence intestinal permeability and immune balance along the gut–skin–thyroid axis, although direct clinical data remain limited. Dietary patterns, particularly anti-inflammatory and Mediterranean diets, are consistently associated with increased microbial diversity, improved metabolic profiles, and reduced systemic inflammation. However, most human evidence is observational. Conclusions: The gut microbiome represents a potential mechanistic link connecting diet, intestinal barrier function, immune regulation, and organ-specific autoimmunity in psoriasis and Hashimoto’s thyroiditis. While microbiome-targeted interventions show biological plausibility, well-designed, mechanistically informed randomized controlled trials are required to establish causality and clinical relevance.

​Background/Objectives: Psoriasis and Hashimoto’s thyroiditis are chronic immune-mediated disorders affecting distinct target organs but sharing overlapping pathogenic mechanisms, including gut dysbiosis, impaired intestinal barrier function, and systemic immune dysregulation. Growing evidence highlights the gut–skin and gut–thyroid axes as important interfaces linking microbial alterations to immune-mediated inflammation. This review aims to synthesize current knowledge on gut microbiota alterations in psoriasis and Hashimoto’s thyroiditis, with particular emphasis on intestinal permeability, immune pathways, and microbiome-derived metabolites. Methods: A narrative review of experimental and human observational studies was conducted to evaluate evidence on gut microbiota composition, intestinal barrier integrity, immune regulation, bile acid metabolism, and dietary influences in psoriasis and Hashimoto’s thyroiditis. The relevant literature examining mechanistic pathways and clinical associations was included. Results: Both conditions are associated with altered gut microbial composition, including reduced abundance of short-chain fatty acid–producing taxa, which may impair epithelial barrier integrity and promote systemic immune activation. Increased intestinal permeability and enhanced Th17-driven inflammatory responses are reported in both diseases. Recent studies suggest that dysregulated bile acid metabolism may influence intestinal permeability and immune balance along the gut–skin–thyroid axis, although direct clinical data remain limited. Dietary patterns, particularly anti-inflammatory and Mediterranean diets, are consistently associated with increased microbial diversity, improved metabolic profiles, and reduced systemic inflammation. However, most human evidence is observational. Conclusions: The gut microbiome represents a potential mechanistic link connecting diet, intestinal barrier function, immune regulation, and organ-specific autoimmunity in psoriasis and Hashimoto’s thyroiditis. While microbiome-targeted interventions show biological plausibility, well-designed, mechanistically informed randomized controlled trials are required to establish causality and clinical relevance. Read More