Abstract
IntroductionSystemic rheumatic conditions are often accompanied by intraocular inflammatory disease (termed uveitis). Despite the frequent manifestation of uveitis with arthritis, very little is understood of the underlying mechanisms that mediate the eye’s susceptibility to disease. The genetically susceptible SKG mouse strain develops arthritis that arises from an inherent mutation that disrupts T-cell antigen receptor signal transduction and thymic selection. The ensuing T-cell–mediated disease is further modulated through exposure to microbial triggers. The purpose of this study was to elucidate how a genetically determined shift in the T-cell repertoire toward self-reactive T cells that drive arthritis influences uveitis in SKG mice.MethodsSKG mice (BALB/c mice that harbor the W163C point mutation in zeta-chain-associated protein kinase 70 [i.e., ZAP-70]) were housed under arthritis-resistant, specific pathogen–free conditions. Arthritis was induced by intraperitoneal injection with fungal glucans (zymosan or curdlan). Arthritis onset and severity were evaluated by clinical scoring, histopathology and infrared imaging within the joints. Periocular traits involving blepharoconjunctivitis were evaluated by clinical scoring and histology. Eyes were evaluated for signs of anterior uveitis using intravital videomicroscopy to document cell-trafficking responses within the iris vasculature and stroma and by histology to detect inflammatory infiltrate and tissue damage within the anterior and posterior eye segments.ResultsExposure to zymosan resulted in the predicted arthritic, sexually dimorphic phenotype in SKG mice. The eyes of SKG mice exhibited episodic intravascular cellular responses to zymosan or curdlan as indicated by significant increases in leukocyte–endothelium interactions akin to ocular vasculitis. However, despite the significant increase in early cell-trafficking responses, cellular infiltration into the iris stroma was not observed and histopathological signs indicative of a sustained uveitis were absent. Instead, eyes of SKG mice developed blepharoconjunctivitis that coincided with arthritis and exhibited sexual dimorphism.ConclusionsThis study underscores the complexity surrounding the pathogenesis of uveitis and its relationship with arthritis. The findings suggest that distinct mechanisms exist by which pathogenic autoimmune T cells target the eyes versus joints, which likely involves the environmental context but nonetheless should be taken into account in the identification and development of effective therapies for each organ.Electronic supplementary materialThe online version of this article (doi:10.1186/s13075-015-0725-z) contains supplementary material, which is available to authorized users.
Highlights
Systemic rheumatic conditions are often accompanied by intraocular inflammatory disease
This study underscores the complexity surrounding the pathogenesis of uveitis and its relationship with arthritis
The findings suggest that distinct mechanisms exist by which pathogenic autoimmune T cells target the eyes versus joints, which likely involves the environmental context but should be taken into account in the identification and development of effective therapies for each organ
Summary
Systemic rheumatic conditions are often accompanied by intraocular inflammatory disease (termed uveitis). The role of adaptive immunity, of T cells, in uveitis has traditionally been the subject of intense investigation [3,4,5,6,7]. This is in large part due to the strong genetic association with human leukocyte antigen (HLA) [8,9,10], which is thought to be involved in aberrant antigen presentation by the major histocompatibility complex and subsequent development of autoreactive T-cell responses. Given that T cells are considered important cellular mediators of many arthritic diseases, one may reason that their aberrant autoreactive responses contribute to coincident uveitis
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