Gut microbiota and uveitis: exploring novel mechanisms of inflammatory ocular diseases via the gut-eye axis.

Abstract

Uveitis is an inflammatory ocular condition that primarily affects young adults and is often associated with systemic and autoimmune disorders. This disease primarily affects intraocular structures such as the iris, ciliary body, and choroid. Clinically, it manifests through a series of symptoms, including eye redness, pain, and blurred vision, which significantly impact the quality of life for patients worldwide. Recently, the role of gut microbiota (GM) in the immune regulation and pathogenesis of inflammatory diseases has garnered significant scientific interest. This study aimed to investigate the potential association between GM and uveitis, with the objective of demonstrating novel mechanisms underlying inflammatory ocular diseases through the emerging concept of the "gut-eye axis." Current research suggests that gut dysbiosis may influence the immune status of distal organs via various pathways, including molecular mimicry, modulation by microbial metabolites, disruption of intestinal immune homeostasis, and compromise of the intestinal mucosal barrier. Building on these mechanisms, we further explored innovative therapeutic strategies targeting GM and its metabolites, including probiotics, prebiotics, antibiotics, immunomodulators, phage therapy, fecal microbiota transplantation, and dietary interventions. This review systematically examined the association between GM dysbiosis and uveitis pathogenesis, offering new insights and directions for future research in this emerging field and establishing a theoretical foundation for developing targeted therapies based on the modulation of the microbiome.