Immunoglobulin G amplifies the production of regulatory rheumatoid factor in vitro through idiotype-anti-idiotype interactions.

Immunoglobulin G can inhibit antibody response. The mechanism of immunosuppression by immunoglobulins remains unknown. Recently, we found a new factor of immunoregulation referred to as regulatory rheumatoid factor (regRF). RegRF prevents autoimmunity and reduces experimental autoimmune reactions. RegRF comprises a population of anti-idiotypic antibodies that have a unique paratope specific to the antigen-binding sites of the antibodies, and a shared paratope specific to neoepitopes of IgG Fc fragments. Given the specificity of regRF, we can anticipate that IgG would be able to induce regRF production, and consequently that the immunosuppressive effect of IgG may be mediated by regRF. We found that IgG induces regRF production in a culture of B lymphocytes obtained from the red bone marrow of intact rats. IgG does not expose neoepitopes recognized by the shared paratope of regRF, and does not acquire them in culture. Therefore, the stimulation of regRF production induced by IgG is not a result of the interaction between the shared paratope of regRF and the neoepitopes of IgG. Fc fragments of IgG are unable to stimulate regRF production. Fab fragments inhibit spontaneous regRF production. F(ab´)2 fragments stimulate regRF production in lymphocyte culture. We theorize that IgG activates regRF-producing lymphocytes through idiotype-anti-idiotype interactions.

Mechanism by which Regulatory Rheumatoid Factor Prevents Experimental Autoimmune Encephalomyelitis.

BACKGROUND: One mechanism that underlies protection from autoimmunity and avoidance of uncontrolled inflammation is the controlled contraction of lymphocyte expansion during the immune response. We identified regulatory rheumatoid factor (regRF), the production of which is associated with resistance to and remission of experimental autoimmune diseases. RegRF is anti-idiotypic antibodies to lymphocyte receptors against autoimmune disease-inducing antigens; at the same time, it is specific to epitopes in the hinge Fc fragments of IgG. OBJECTIVE: The aim of this study is to test the hypothesis that regRF prevents autoimmunity by limiting the expansion of lymphocytes. METHODS: To test this hypothesis, we used a model of experimental autoimmune encephalitis. RESULTS: We found that in the lymph nodes that drain the injection site in rats producing regRF in response to immunization with myelin basic protein (MBP) the proportion of CD4+lymphocytes was lower than in rats in which MBP-immunization did not induce higher regRF levels. RegRF-containing plasma obtained from MBP-immunized rats induces complement-dependent killing of MBP-activated lymphocytes. Activated MBP-specific lymphocytes are not sensitive to the regRF-containing plasma of intact rats. CONCLUSION: The regRF produced during the immune response is a specific control factor for the expansion of antigen-activated CD4+lymphocytes.