Inflammatory arthritis disrupts ocular immune privilege by compromising blood-retinal barrier integrity and promoting uveitogenic T cell recruitment

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Inflammatory arthritis disrupts ocular immune privilege by compromising blood-retinal barrier integrity and promoting uveitogenic T cell recruitment

Authors

Eastham, S.; Ward, A.; Moscrop, C.; Hill, D. G.; Morrin, A.; Dimonte, S.; Young, A.; Jones, S. A.; Liu, J.; Dick, A. D.; Copland, D. A.; Nicholson, L. B.; Jones, G. W.

Abstract

Inflammatory arthritis and uveitis frequently co-exist, yet the mechanisms linking joint and ocular inflammation remain ill-defined. Here, we investigated how inflammatory arthritis influences ocular immune homeostasis using murine models of antigen-induced arthritis and collagen-induced arthritis. Arthritis promoted the accumulation of T cells, myeloid cells, and neutrophils within the vitreoretinal compartment, without progression to overt clinical uveitis. Ocular leukocyte recruitment was dynamically coupled to arthritis activity, resolving with remission of joint inflammation and recurring during arthritic flares. The magnitude of ocular immune perturbation correlated with arthritis severity, being enhanced in IL-27R-deficient mice and markedly reduced in IL-6R-deficient mice. Mechanistically, arthritis increased blood-retinal barrier permeability, demonstrating that systemic inflammation perturbs ocular immune privilege even in the absence of apparent ocular disease. While arthritis alone was insufficient to induce uveitis, it established a permissive ocular microenvironment that selectively enhanced the recruitment of adoptively transferred uveitogenic CD4+ T cells. These findings identify inflammatory arthritis as a systemic driver of subclinical ocular immune dysregulation and reveal a mechanism by which inflammation at a distant site may promote vulnerability to ocular autoimmunity. These data provide a framework for understanding immune dysregulation at the joint- eye axis and highlight cytokine pathways that may be targeted to preserve ocular immune homeostasis.

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