Lupus-associated anti-DNA Abs display features of Ag selection, yet the triggering Ag in the disease is unknown. We previously demonstrated that the peptide DWEYSVWLSN is bound by a pathogenic anti-DNA Ab, and that immunization of nonautoimmune mice with this peptide induces autoantibodies and renal Ig deposition. To elucidate differences in the induced B cell responses in mice genetically predisposed to autoimmunity, young (NZB × NZW)F1 mice were immunized with this peptide DNA mimetope. DWEYSVWLSN-immunized mice had significantly increased IgG anti-dsDNA, anti-laminin, and anti-cardiolipin Ab titers compared with controls. In addition, glomerular histopathology in the form of endocapillary disease and crescent formation was markedly more severe in DWEYSVWLSN-immunized mice. Analysis of mAbs from DWEYSVWLSN-immunized mice revealed that anti-peptide Abs were often cross-reactive with DNA. Genetic elements used in the Ab response in immunized mice were homologous to those used in the spontaneous anti-DNA response in (NZB × NZW)F1 mice, as well as in other, experimentally induced anti-DNA Abs. Our results indicate that peptide immunization can induce a molecular genetic response common to a variety of stimuli that break tolerance to mammalian dsDNA. Based on the similarity between spontaneously arising anti-DNA Abs and several types of induced anti-DNA Abs, we suggest that there may be more than a single Ag that can trigger systemic lupus erythematosus.
Our data showed that an inherited polymorphism (CAG repeats) in the AR is related to differences in genetic susceptibility to BF, supporting the hypothesis that increased AR activity may play a role in PC progression.
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