The initiation of autoimmunity at epithelial surfaces: a focus on rheumatoid arthritis and systemic lupus erythematosus.
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Abstract:
It is well established that the autoantibodies that characterize both rheumatoid arthritis (RA) and systemic lupus erythematosus (SLE) are present systemically years before patients develop disease. In both these autoimmune rheumatic diseases, evidence is growing that local autoimmune processes occur at epithelial surfaces potentially initiating localized autoimmunity. For RA, these are mucosal surfaces including the oral mucosa, lung, and gut. At the oral mucosa and lung, risk factors such as periodontal disease and smoking may contribute to autoimmunity by driving the local generation of citrullinated autoantigens. For SLE, the skin may be integral in pathogenesis. It is proposed that defective clearance of apoptotic debris leads to initial innate immune responses preceding autoimmunity. Many tissues may be implicated but the frequency of skin disease, even without autoantibodies, and the role of UV light as a trigger suggest that keratinocytes may be a key site of initiation. In both diseases, a local break in immune tolerance could lead to systemic autoimmunity, and, in the gut, bacterial organisms that colonize the intestine may influence the localized gut immune response through T-cells and promote the development of systemic autoimmunity. In this review, we discuss the evidence for localized epithelial autoimmunity in those at risk of RA and SLE and early disease. Localized autoimmunity at the oral mucosa, lung, gut, and skin will be considered as potential initiating sites of ARD-related autoimmunity.Cite
Purpose of review The cause of rheumatoid arthritis (RA), as well as the timing and anatomic site at which RA-related autoimmunity is initiated, is currently unknown. An improved understanding of the initial steps in the development of RA would provide insights into disease pathogenesis that could ultimately lead to more effective treatments and/or novel preventive strategies in RA. Recent findings Systemic inflammation and autoimmunity in RA begin long before the onset of detectable joint inflammation. Emerging data suggest that RA-related autoimmunity may be initiated at a mucosal site years before the onset of joint symptoms. The candidate sites of origin include the oral, lung and gastrointestinal mucosa, as data consistent with this hypothesis have been generated for each location. Individual patients may undergo initiation events at unique sites, but still converge on similar joint findings as the disease process evolves. Summary Investigations are needed to determine when and where RA begins, including comprehensive prospective studies of individuals in the preclinical period of RA that can provide insight into the relationship between mucosal inflammation, RA-related autoantibody generation and subsequent joint inflammation in RA.
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It is well recognised that a state of autoimmunity, in which immunological tolerance is broken, precedes the development of symptoms in the majority of patients with rheumatoid arthritis (RA). For individuals who will later develop seropositive disease, this manifests as autoantibodies directed against proteins that have undergone specific post-translational modifications. There is evidence that the induction of this autoantibody response occurs at peripheral extra-articular mucosal sites, such as the periodontium and lung. In addition to their utility as diagnostic markers, these autoantibodies may have a pathogenic role that helps localise disease to the synovium. Alongside the development of autoantibodies, other factors contributing to pre-symptomatic autoimmunity may include dysbiosis of the gastrointestinal tract, abnormal development of lymphoid tissue, and dysregulated autonomic and lipid-mediated anti-inflammatory signalling. These factors combine to skew the balance between pro-inflammatory and anti-inflammatory signalling in a manner that is permissive for the development of clinical arthritis. We present data to support the concept that the transitions from at-risk states to systemic autoimmunity and then to classifiable RA depend on multiple "switches". However, further prospective studies are necessary to define the molecular basis of these switches and the specific features of pre-symptomatic autoimmunity, so that preventative treatments can be targeted to individuals at high risk for RA. In this review, we analyse mechanisms that may contribute to the development of autoimmunity in at-risk individuals and discuss the relationship between this pre-symptomatic state and subsequent development of RA.
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