Abstract
Rheumatoid factors (RFs) are autoantibodies, which recognize antigens on a constant region of immunoglobulin G (IgG). Among various RF classes, RF of the IgG class (IgGRF) forms immune complexes in rheumatoid joints and is implicated in the pathogenesis of rheumatoid arthritis (RA). To characterize the formation of IgGRF immune complexes, in the present study, IgGRF was isolated from sera of RA patients, and its interaction with immobilized IgG was analyzed and compared to that of IgMRF or IgARF by means of surface plasmon resonance. On gel filtration, the IgGRF was eluted as a single peak corresponding to IgG, excluding the possible formation of self-associating IgGRF complexes in solution. Sensorgrams of the interaction of IgGRF with immobilized IgG revealed that it clearly bound to the IgG at 6°C, but not at 30°C. The degree of interaction decreased inversely with an increase in temperature, suggesting that IgGRF is much more reactive at lower temperatures. In contrast, the interaction of IgARF and IgMRF with IgG at 6°C was similar to that at 30°C. The association rate constant (ka) of IgGRF decreased with an increase in temperature, while those of IgARF and IgMRF were similar under various thermal conditions. The dissociation rate constant (kd) of IgGRF was greatly reduced at 25°C, but those of IgARF and IgMRF slightly increased with an increase in temperature. These results suggested that the mode of interaction of IgGRF with IgG differed from in the cases of IgMRF and IgARF. The kinetic properties of the IgGRF-IgG interaction may facilitate elucidation of the IgGRF immune complex formation in rheumatoid joints.
