Anti-RNA polymerase I antibodies in the sera of MRL lupus mice at the initial stages of disease are directed primarily against phosphorylation-dependent epitopes.

Anti-RNA polymerase I (RPI) antibodies in the sera of MRL/Mp-lpr/lpr and MRL/Mp(-)+/+ mice, which develop an autoimmune disease similar to human systemic lupus erythematosus, were screened for reactivity with purified RPI or RPI which had been dephosphorylated. In every case (n = 10), dephosphorylation of RPI resulted in a significant decrease (33-95%) in antibody binding. The anti-RPI antibodies in the sera of the same mice approximately 6 weeks later also reacted better with untreated as compared to dephosphorylated RPI but, in every case, the decrease in antibody (0-30%) caused by dephosphorylation was substantially diminished. That the proportion of anti-RPI antibodies in the sera of MRL mice decreased with progression of lupus-like disease was confirmed by closely monitoring the antibodies over the course of disease. Anti-RPI antibodies produced at the earliest stages appeared to be directed almost exclusively against phosphorylation-dependent determinants since dephosphorylation of RPI essentially abolished antibody binding. Subsequently, the percentage of the total anti-RPI antibodies in the sera of these mice directed towards phosphorylation-independent epitopes increased linearly with time. The importance of phosphorylation-dependent epitopes on RPI for the development of the anti-RPI autoimmune response was supported by the observation that treatment of mice with alkaline phosphatase partially attenuated anti-RPI antibody production.