Bacterial lipopolysaccharide enhances deposition of immune complexes and exacerbates nephritis in BXSB lupus-prone mice

Abstract

SUMMARY: Systemic autoimmune disease is influenced by genetic, immunological, hormonal, and environmental factors. Although environmental factors are major agents that induce or exacerbate autoimmune diseases, the mechanism(s) and the molecular events by which they operate remain poorly understood. Here we used the lupus-prone BXSB mouse as an animal model of systemic autoimmune disease, and we used a bacterial lipopolysaccharide (LPS) as a surrogate infectious agent to gain some insight into the mechanism(s) by which infectious agents exacerbate autoimmune diseases. Our experimental protocol was designed to address three questions: (i) whether spontaneous polyclonal B cell activation (PBA) that occurs in BXSB mice could be further enhanced by bacterial LPS; (ii) whether repeated exposure to LPS would exacerbate autoimmune disease, as reflected by enhanced deposits of immune complexes (ICs) in kidneys and exacerbated nephritis; and (iii) whether the mechanism by which LPS exacerbates nephritis might involve interference with blood cell carrier function, mononuclear phagocyte function, or both. BXSB mice were injected with LPS (25 μg) twice a week for 5 weeks; control autoimmune BXSB mice and immunologically normal (C57BL/6) mice were injected with vehicle only. The three groups of mice were then challenged with soluble ICs to assess the kinetics of their disappearance from the circulation, their uptake by the mononuclear phagocyte system (liver, spleen), their distribution in target organ (kidney), and blood cell carrier function. The results indicate that: (i) spontaneous PBA can be enhanced further by LPS; (ii) exposure to LPS results in increased deposits of endogenous ICs in kidneys and exacerbated nephritis; and (iii) defective handling of ICs by the mononuclear phagocyte system and impaired blood cell carrier function are contributory factors to exacerbated nephritis, but that mechanisms in addition to passive localization of ICs may also be operative.