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Polyreactive autoantibodies are nephritogenic in murine lupus nephritis
No full textTo characterize the antibodies that form glomerular immune deposits in lupus nephritis, immunoglobulin (Ig) was eluted from the perfused kidney cortices of female MLR-lpr/lpr mice with early nephritis. The eluted Ig was predominantly IgG with antibody activity against DNA, multiple polynucleotides, SmRNP, gp70, and levan that was greater than the serum antibody activity of age- and sex-matched mice. Of particular interest, both kidney eluate and serum anti-DNA antibodies were observed to cross-react with multiple polynucleotides; however, only the kidney eluate Ig cross-reacted with phospholipids and RNA. Furthermore, the anti-DNA antibodies in the kidney eluate also cross-reacted with SmRNP and gp70; these ligand-binding properties were shared by the Ig in the kidney eluate that did not bind to DNA; and both kidney eluate fractions shared Id-H130 activity (a high frequency MRL-1pr/1pr idiotype). In contrast, the spectrotypes of Ig in the kidney eluate were found to be similar to serum, and they were observed to be between isoelectric points 6.5 to 7.8. Both the anti-DNA antibodies and the Ig that did not bind to DNA had similar isoelectric points throughout this entire range. These findings indicate that polyreactivity is a distinguishing feature of nephritogenic autoantibodies. They also raise the possibility that these ligand-binding properties influence the capacity of autoantibodies to form immune deposits. This influence could occur because polyreactive antibodies cross-react with antigenic determinants within the normal glomerular capillary wall. Alternatively, polyreactive antibodies may more readily form circulating immune complexes that are, in turn, passively trapped within the glomerulus
Human and murine anti-DNA antibodies induce the production of anti-idiotypic antibodies with autoantigen-binding properties (epibodies) through immune-network interactions.
No full textInduction of anti-DNA antibodies in non autoimmune mice by immunization with a DNA-DNAase I complex.
No full textSpontaneously produced anti-DNA/DNAse I autoantibodies modulate nuclear apoptosis in living cells
No full textInduction of anti-DNA antibodies in non autoimmune mice by immunization with a DNA-DNAase I complex
No full textRecent studies suggest that anti-DNA antibodies may arise from the immune response to a complex of DNA and a DNA-binding protein. One of the protein targets frequently recognized by anti-DNA antibodies is the enzyme DNAase I. To investigate the possible role of DNAase I in the induction of anti-DNA antibodies, we immunized mice with a complex of DNA and DNAase I. Mammalian double strand DNA was crosslinked with DNAase I by ultraviolet light (UV) treatment and emulsified in complete Freund's adjuvant. BALB/c mice were immunized at the base of the tail with the DNA-DNAase complex, boosted after 2 weeks with the immunogen in incomplete adjuvant and bled one week after the boost. Control mice received UV treated DNA in adjuvant. In one-third of the mice immunized with the DNA-DNAase complex, IgG anti-DNA antibodies were detectable in serum; the antibodies reacted with single and double strand DNA. No anti-DNA response was elicited by immunization with DNA alone. These data show that immunization with a DNA-DNAase complex can induce anti-DNA antibodies in non-autoimmune mice strains and suggest that DNA-binding proteins may act as carriers in the immune response that leads to anti-DNA antibody production
receptor -mediated cellular entry of nuclear localizing anti-DNA antibodies via myosin I
No full textHuman and murine anti-DNA antibodies induce the production of anti-idiotypic antibodies with autoantigen-binding properties (epibodies) through immune-network interactions.
No full textTo examine the potential role of immune-network interactions in the production of lupus autoantibodies, normal NZW rabbit antibody responses were analyzed after immunization with one of the following Ig preparations: human lupus serum anti-dsDNA antibodies, human lupus serum anti-ssDNA antibodies, a mixture of human lupus serum anti-dsDNA and anti-ssDNA antibodies, the MRL-lpr/lpr anti-dsDNA mAb H241, and the MRL-lpr/lpr anti-ssDNA mAb H130. Four of five rabbits produced Ig typical of lupus autoantibodies: individual rabbit Ig cross-reacted with multiple autoantigens including nucleic acids, cardiolipin, SmRNP, glomerular extract, laminin, and exogenous Ag. Rabbit anti-Id against human anti-dsDNA antibodies were highly specific for dsDNA. Notably, in each serum the autoantibody activity was confined to the anti-Id Ig fraction. A similar spontaneously occurring Id-anti-Id interaction was also found between anti-ssDNA and anti-dsDNA antibodies isolated from an individual lupus patient. These results indicate that lupus autoantibodies which share Ag binding properties with pathogenic Ig, including both cross-reactive and anti-dsDNA antibodies, can induce the production of Ig with similar autoantigen binding properties through immune-network interactions. This phenomenon, if unregulated, could lead to the amplification of pathogenic autoantibody production in individuals with systemic lupus
Anti-DNA antibodies bind to DNase I.
No full textPolyspecificity is a well-known property of the anti-DNA antibodies produced by autoimmune animals. In our search for antigen targets of anti-DNA antibodies within tissue extracts, we identified a 32-kD polypeptide that was recognized by a large panel of anti-DNA antibodies. Direct sequencing of this protein disclosed its identity with DNase I. 22 monoclonal anti-DNA antibodies bound to DNase I in direct and competitive immunoassays; out of 15 autoantibodies that did not bind DNA, none had the ability to bind DNase I. The ability of anti-DNA antibodies to interfere with DNase I enzymatic activity was evaluated in an assay based on the enzyme digestion of phage double strand DNA. Six monoclonal anti-single strand DNA antibodies that did not bind double strand DNA were tested in this assay. Three out of six inhibited DNase I-mediated digestion of phage DNA. The interaction of anti-DNA antibodies with DNase I was further investigated by testing their ability to bind a synthetic peptide that corresponds to the catalytic site of the molecule. 4 out of 22 anti-DNA antibodies bound the active site peptide; two of these had been shown to inhibit DNase I enzymatic activity. This report show that anti-DNA antibodies recognize both DNA and its natural ligand DNase I. Some anti-DNA antibodies inhibit DNase I enzymatic activity, thus displaying the potential to modulate DNA catabolism. The dual specificity of anti-DNA antibodies offers a clue for understanding the mechanisms that lead to anti-DNA antibody production in autoimmune animals
Nuclear localization of autoantibodies. Novel insights into protein translocation and cellular function.
No full textMurine monoclonal anti-DNA antibodies bind directly to glomerular antigens and form immune deposits
No full textThe capacity of monoclonal anti-DNA antibodies, derived spontaneously from MRL-lpr/lpr mice, to bind directly to intrinsic glomerular antigens and form immune deposits was evaluated. Two antibodies, H130 (IgM-kappa) and H241 (IgG2a-kappa), bound to normal glomeruli in vitro. This binding was not inhibited by DNAase, but it was, in the case of H130, inhibited by the anti-idiotype anti-H130. Both antibodies also bound to glomerular digests on nitrocellulose. After i.v. injection, however, H241 bound to glomeruli and formed glomerular immune deposits, whereas H130 did not. Similarly, after i.p. injection of H241 hybridomas to normal mice, all mice developed glomerular immune deposits. In contrast, administration of H130 hybridomas, other anti-DNA-producing hybridomas, and other unrelated hybridomas did not lead to glomerular immune deposit formation. We conclude that certain lupus auto-antibodies can form glomerular immune deposits by binding directly to non-DNA antigenic structures that are normally present in extracellular locations within normal glomeruli
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