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In humans and in BALB/c mice, immune responses to the hormone insulin use evolutionarily related VHV (human) and VHIX (murine) gene families. To determine if these structural relationships include regulatory elements, BALB/c mice were pretreated with autologous immunoglobulin G (IgG) monoclonal antibodies (mAb) that recognize shared idiotopes on human anti-insulin antibodies and the subsequent immune response to human insulin assessed. One mAb, Id227, was found to augment and accelerate the insulin response by inducing a human idiotype that is expressed on both insulin-binding and non-insulin-binding BALB/c antibodies. Analysis of VH gene utilization by Id227 shows that it expresses a VHIX gene similar to that of anti-insulin mAb 125, but the anti-Id has no anti-insulin activity. Using DNA amplification, four germ-line VHIX genes were isolated from BALB/c liver DNA and sequence analysis shows that the anti-insulin and anti-Id are derived from the same germ-line gene. Consistent with its role as a regulatory idiotype, IgG Id227 entirely preserves germ-line sequence in the complementary determining regions and contains only three mutations in framework regions. These studies show that both structural and regulatory features of immune responses to conserved self antigens extend beyond species boundaries.
In humans and in BALB/c mice, immune responses to the hormone insulin use evolutionarily related VHV (human) and VHIX (murine) gene families. To determine if these structural relationships include regulatory elements, BALB/c mice were pretreated with autologous immunoglobulin G (IgG) monoclonal antibodies (mAb) that recognize shared idiotopes on human anti-insulin antibodies and the subsequent immune response to human insulin assessed. One mAb, Id227, was found to augment and accelerate the insulin response by inducing a human idiotype that is expressed on both insulin-binding and non-insulin-binding BALB/c antibodies. Analysis of VH gene utilization by Id227 shows that it expresses a VHIX gene similar to that of anti-insulin mAb 125, but the anti-Id has no anti-insulin activity. Using DNA amplification, four germ-line VHIX genes were isolated from BALB/c liver DNA and sequence analysis shows that the anti-insulin and anti-Id are derived from the same germ-line gene. Consistent with its role as a regulatory idiotype, IgG Id227 entirely preserves germ-line sequence in the complementary determining regions and contains only three mutations in framework regions. These studies show that both structural and regulatory features of immune responses to conserved self antigens extend beyond species boundaries.
In some patients with insulin-dependent (type I) diabetes mellitus (IDDM), autoantibodies to insulin are present at diagnosis. After initiation of the treatment with not only animal but also human insulin, anti-insulin, mainly IgG, autoantibodies become a major component of the autoimmune response in virtually all IDDM patients. Their structure, however, is still relatively unknown. We analyzed the structure of the VH and V kappa segments of three human IgG mAb derived from three IDDM patients. The sequences of VH genes of two IgG, mAb13 and mAb48, were 98.3 and 96.6% identical with those of the H11 and 1.9III genes (VHIII family), respectively. The sequence of the VH gene of the third IgG, mAb49, was 98.6% identical with that of the 51p1 gene (VHI family). All three IgG mAb used V kappa III segments. The V kappa III gene sequences of mAb13 and mAb49 were 97.9 and 98.9% identical, respectively, to that of the kv3g gene; the mAb48 V kappa gene sequence was 96.5% identical to that of the kv328 gene. The VH and/or V kappa segments of these anti-insulin IgG mAb are similar to Ig V genes expressed in the fetal, and adult normal and autoimmune B cell repertoires. The nucleotide differences displayed by the three anti-insulin IgG mAb VH gene sequences, when compared with those of the closest reported germ-line genes, were concentrated in the CDR (6.2 x 10(-2) and 0.8 x 10(-2) difference/base in CDR and FR, respectively; p < 0.01, chi 2 test), and yielded a significantly higher putative replacement (R) to silent (S) mutation ratio in the CDR (12.0) than in the framework (0.2). The concentration of nucleotide differences in the CDR and their high R:S putative mutation ratios were consistent with the hypothesis that these expressed VH genes underwent a process of somatic mutation and Ag-driven clonal selection. That such differences constituted somatic point-mutations was formally proved in IgG mAb13, by differentially targeted PCR amplification and Southern blot hybridization of the mAb13-producing cell line DNA. The putative germ-line gene that gave rise to the expressed VH segment was cloned using genomic DNA from PMN of the same patient whose B cells were used for the generation of this mAb. Overall, in the anti-insulin IgG mAb VH and V kappa III genes, the (putative and verified) somatic point-mutations yielded 27 amino acid replacements, of which 14 nonconserved. Four of these resulted in positively charged residues, three Arg and one His.(ABSTRACT TRUNCATED AT 400 WORDS)
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