Deficiency of maternal antibodies modulates the development of lupus-like disease in BXSB offspring.

Abstract

Abstract Maternal factors play an essential role in shaping the immune system of the newborn, yet it is unknown whether maternal factors could modulate the development of systemic lupus erythematosus (SLE) in the offspring. Activation-induced cytidine deaminase (AID) is an enzyme required for somatic hypermutation and class switch recombination. Given that IgG and IgA isotypes account for the vast majority of passive immunity in rodents, our previously established AID-deficient BXSB mice provide a model in which no IgG or IgA antibodies are transferred to the offspring. In this study, we compared genotypically identical mice born to either AID-sufficient dams or AID-deficient dams and evaluated the effects of maternal antibodies in disease progression. Offspring from knockout dams developed disease at a faster rate, as shown by more severe nephritis and elevated pathogenic autoantibodies compared to their counterparts born to wild type dams. In addition, the splenic structure was intensively disrupted with disorganized follicles and fewer discernible germinal centers. A more activated T cell phenotype was also characterized in maternal antibody-deficient mice. When immune competent pups were cross-fostered onto AID deficient dams, these mice exhibited more severe disease phenotypes, indicating the protective antibody effect contributes to the modulation of SLE progression in post-natal period. Overall, these findings highlight the importance of maternal antibodies in programming the immune system and altering the SLE development in the offspring.