| Abstract: | The properties of the solid-phase C1q immune-complex assay as well as the nature of the IgG detected by this assay in patients' sera were investigated. Aggregated IgG was used as a model for immune complexes. Aggregated IgG bound to solid-phase C1q was detected by 125I-anti-IgG. Fluid-phase C1q (either in normal human serum or purified) neither inhibited the binding of aggregated IgG to solid-phase C1q nor dissociated bound aggregated IgG from the solid-phase C1q. Therefore, we concluded that the solid-phase C1q has a higher affinity for aggregated IgG than the fluid-phase C1q, probably because of the polymerization of the solid-phase C1q. To get more insight into the nature of the IgG detected by the C1q solid-phase assay in patients' sera, we investigated whether C4 and/or C3 were present on it. With the use of 125I-anti-C4 and 125I-anti-C3 instead of 125I-anti-IgG, C4 and C3, respectively, were easily detected on the aggregated IgG that had bound to the solid-phase C1q. The lower limit of detection of these assays was 30 micrograms aggregated IgG/ml of normal human serum. Sera of patients suffering from rheumatoid arthritis and systemic lupus erythematosus were tested with these assays and, despite positive results with 125I-anti-IgG, no positive results were obtained with either 125I-anti-C4 or 125I-anti-C3. So, on the IgG detected by the C1q solid-phase assay in patients' sera, neither C4 nor C3 are present. Furthermore, in five of the six sera tested, this IgG sedimented as monomeric IgG. Therefore, it seems unjustified to refer to this IgG as circulating immune complexes. |
