Suppression of NZB/NZW murine nephritis by administration of a syngeneic monoclonal antibody to DNA. Possible role of anti-idiotypic antibodies.

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Abstract

Suppression of circulating antibodies to double-stranded DNA was achieved in NZB/NZW f1 female mice by repeated administration of an IgG2a monoclonal antibody to DNA. Deaths from nephritis were delayed; glomerular deposition of IgG and of the cationic IgG DNA antibodies characteristic of murine lupus nephritis were diminished. Quantities of circulating antibodies to single-stranded DNA were not reduced compared with untreated or IgG myeloma-treated control mice. Antibodies directed against the monoclonal anti-DNA appeared in the circulation of treated mice after three inoculations of the idiotype. Those antibodies did not react with another monoclonal anti-DNA of the same allotype. One monoclonal anti-idiotypic antibody was obtained in hybridoma cultures derived from a spleen of a treated mouse. Cross-reactive or common idiotypes were found in 30-50% of NZB/NZW f1 sera and monoclonal DNA antibodies. Deletions of portions of the spectrotype of antibodies to DNA were found in sera containing anti-idiotypic antibodies, suggesting suppression of clones producing antibodies with isoelectric points similar to that of the immunizing idiotype. Deletions of some of the anti-idiotypic antibodies also occurred as the mice aged. Rheumatoid factors were not detectable in any sera. Therefore, administration of an antibody to DNA bearing an idiotype occurring with high frequency in NZB/NZW f1 females resulted in relatively specific suppression of the antibody response to double-stranded DNA, as well as suppression of nephritis. Reduction of anti-DNA synthesis by anti-idiotypic antibodies may have been an important suppressive mechanism. Experiments are in progress to test this hypothesis.

Authors

B H Hahn, F M Ebling