A pathogenic CD4 T cell phenotype in experimental uveitis shares common features with other immune mediated inflammatory diseases

Abstract Murine ocular autoimmunity develops through 3 stages; prodrome, primary peak and secondary regulation. During the prodromal phase, leukocytes accumulate within the retina and vitreous. Using the adoptive transfer model of experimental autoimmune uveitis, we can analyse the disease course by tracking the transferred cells during disease initiation being recruited to the ocular environment throughout peak of disease to secondary regulation. During initiation (the prodrome) of disease ‘pathogenic’ transferred CD4+ T cells can be detected within the retina as well as an endogenous CD4+ infiltrate and as disease reaches peak, both transferred and endogenous CD4+ T cells can be found in large numbers in the retina. Active clinical disease resolves by day 21 but transferred CD4+ T cells persist within the retina when disease is in a clinically quiescent state. Concurrent transfer of RBP3 specific and OVA specific activated cells induces a similar clinical disease phenotype and time course. Both RBP3 and OVA specific cells are recruited during active clinical disease in equal measure showing that autoantigen specific CD4+ T cells induce susceptibility for recruitment of other activated CD4+ T cells. When analysing the endogenous and transferred CD4+ T cells by RNA sequencing, differences between the two sets of gene signatures highlight genes found in pathogenic T cells in other models, including upregulation of markers associated with cytokine interactions and NK cell mediated cytotoxicity. Due to the persistence of the original transferred population throughout clinical disease, in depth analysis of this population could suggest pathways contributing to ocular autoimmunity. Competing Interest Statement The authors have declared no competing interest.