The complement system plays a critical role in the development of experimental autoimmune anterior uveitis.

PURPOSE: The role of complement in ocular autoimmunity was explored in a experimental autoimmune anterior uveitis (EAAU) animal model. METHODS: EAAU was induced in Lewis rats by immunization with bovine melanin-associated antigen. Complement activation in the eye was monitored by Western blot for iC3b. The importance of complement to the development of EAAU was studied by comparing the course of intraocular inflammation in normal Lewis rats (complement-sufficient) with cobra venom factor-treated rats (complement-depleted). Eyes were harvested from both complement-sufficient and complement-depleted rats for mRNA and protein analysis for IFN-gamma, IL-10, and interferon-inducible protein (IP)-10. Intracellular adhesion molecule (ICAM)-1 and leukocyte-endothelial cell adhesion molecule (LECAM)-1 were detected by immunofluorescent staining. OX-42 was used to investigate the importance of iC3b and CR3 interaction in EAAU. RESULTS: There was a correlation between ocular complement activation and disease progression in EAAU. The incidence, duration, and severity of disease were dramatically reduced after active immunization in complement-depleted rats. Complement depletion also completely suppressed adoptive transfer EAAU. The presence of complement was critical for local production of cytokines (IFN-gamma and IL-10), chemokines (IP-10), and adhesion molecules (ICAM-1 and LECAM-1) during EAAU. Furthermore, intraocular complement activation, specifically iC3b production and engagement of complement receptor 3 (CR3), had a significant impact on disease activity in EAAU. CONCLUSIONS: The study provided the novel finding that complement activation plays a central role in the pathogenesis of ocular autoimmunity and may serve as a potential target for therapeutic intervention.

Role of complement and complement membrane attack complex in laser-induced choroidal neovascularization.

Choroidal neovascularization (CNV), or choroidal angiogenesis, is the hallmark of age-related macular degeneration and a leading cause of visual loss after age 55. The pathogenesis of new choroidal vessel formation is poorly understood. Although inflammation has been implicated in the development of CNV, the role of complement in CNV has not been explored experimentally. A reliable way to produce CNV in animals is to rupture Bruch's membrane with laser photocoagulation. A murine model of laser-induced CNV in C57BL/6 mice revealed the deposition of C3 and membrane attack complex (MAC) in the neovascular complex. CNV was inhibited by complement depletion using cobra venom factor and did not develop in C3(-/-) mice. Anti-murine C6 Abs in C57BL/6 mice inhibited MAC formation and also resulted in the inhibition of CNV. Vascular endothelial growth factor, TGF-beta2, and beta-fibroblast growth factor were elevated in C57BL/6 mice after laser-induced CNV; complement depletion resulted in a marked reduction in the level of these angiogenic factors. Thus, activation of complement, specifically the formation of MAC, is essential for the development of laser- induced choroidal angiogenesis in mice. It is possible that a similar mechanism may be involved in the pathophysiology of other angiogenesis essential diseases.

Type I collagen is the autoantigen in experimental autoimmune anterior uveitis.

This study was undertaken to identify and characterize the Ag responsible for the induction of experimental autoimmune anterior uveitis (EAAU). Melanin-associated Ag isolated from bovine iris and ciliary body was digested with the proteolytic enzyme V8 protease to solubilize the proteins and the pathogenic protein was purified to homogeneity. Lewis rats were sensitized to various fractions and investigated for the development of anterior uveitis and an immune response to the purified Ag. The uveitogenic Ag had a mass of 22 kDa (SDS-PAGE) and an isoelectric point of 6.75. The N-terminal amino acid sequence of this protein demonstrated 100% homology with the bovine type I collagen alpha-2 chain starting from amino acid 385 and will be referred to as CI-alpha2 (22 kDa). Animals immunized with bovine CI-alpha2 (22 kDa) developed both cellular and humoral immunity to the Ag. They developed anterior uveitis only if the CI-alpha2 chain underwent proteolysis and if the bound carbohydrates were intact. EAAU induced by CI-alpha2 (22 kDa) can be adoptively transferred to naive syngenic rats by primed CD4(+) T cells. EAAU could not be induced by the adoptive transfer of sera obtained from animals immunized with CI-alpha2 (22 kDa). The alpha-1 and alpha-2 chains (intact or proteolytically cleaved) of type I collagen from calfskin were not pathogenic. Although human anterior uveitis has been historically characterized as a collagen disease, this is first time collagen has been directly identified as the target autoantigen in uveitis.

Positive and negative selection of T cell repertoires during differentiation in allogeneic bone marrow chimeras.

T cells acquire immune functions during expansion and differentiation in the thymus. Mature T cells respond to peptide antigens (Ag) derived from foreign proteins when these peptide Ag are presented on the self major histocompatibility complex (MHC) molecules but not on allo-MHC. This is termed self-MHC restriction. On the other hand, T cells do not induce aggressive responses to self Ag (self-tolerance). Self-MHC restriction and self-tolerance are not genetically determined but acquired a posteriori by positive and negative selection in the thymus in harmony with the functional maturation. Allogeneic bone marrow (BM) chimera systems have been a useful strategy to elucidate mechanisms underlying positive and negative selection. In this communication, the contribution of BM chimera systems to the investigation of the world of T-ology is discussed.