Murine Models of Systemic Lupus Erythematosus

This chapter reviews the histopathologic, serologic, lymphocytic, virological, hormonal, and genetic characteristics of murine models of systemic lupus erythematosus (SLE). The pathogenetic mechanisms underlying murine SLE are highly complex, apparently well-programmed genetically, but still diverse and their bases not as yet well defined. Significant serologic and cellular experimental data support the statement that the final immunopathologic perturbation in murine (and human) SLE is a B lymphocyte hyperactivity with corresponding enhancement of serum antibodies and autoantibodies, particularly IgG, and consequent formation of pathogenic antigen–antibody ICs. On the basis of the available data, it appears that this B cell hyperactivity is polyclonal but not necessarily panclonal in nature, because not only antibodies against a wide array of autoantigens but also antibodies against incidental antigens, such as haptens, can be detected. The presence of autoantibodies and of their idiotypes in some recombinant lupus x normal murine lines expressing the normal partner's V genes, normal mice in which an exogenous or endogenous (Ipr gene) immunostimulator has been introduced, and unmanipulated normal mice indicate that lupus mice are not unique in their structural genetic Ig elements, whose presence determines the development of their autoimmune disease. The cause of B cell hyperactivity in lupus has not yet been fully elucidated. Autonomous B cell maturation does not appear likely, because B cell proliferation and differentiation in lupus mice was found to be dependent on the same number of accessory signals as in normal mice.