Abstract
BackgroundSystemic lupus erythematosus (SLE) is a severe autoimmune disease in which immune tolerance defects drive production of pathogenic anti-nuclear autoantibodies. Anergic B cells are considered a potential source of these autoantibodies due to their autoreactivity and overrepresentation in SLE patients. Studies of lupus-prone mice have shown that genetic defects mediating autoimmunity can breach B cell anergy, but how this breach occurs with regards to endogenous nuclear antigen remains unclear. We investigated whether B and T cell defects in congenic mice (c1) derived from the lupus-prone New Zealand Black strain can breach tolerance to nuclear self-antigen in the presence of knock-in genes (Vκ8/3H9; dKI) that generate a ssDNA-reactive, anergic B cell population.MethodsFlow cytometry was used to assess splenic B and T cells from 8-month-old c1 dKI mice and serum autoantibodies were measured by ELISA. dKI B cells stimulated in vitro with anti-IgM were assessed for proliferation and activation by examining CFSE decay and CD86. Cytokine-producing T cells were identified by flow cytometry following culture of dKI splenocytes with PMA and ionomycin. dKI B cells from 6-8-week-old mice were adoptively transferred into 4-month-old wild type recipients and assessed after 7 days via flow cytometry and immunofluorescence microscopy.Resultsc1 dKI mice exhibited B cell proliferation indicative of impaired anergy, but had attenuated autoantibodies and germinal centres compared to wild type littermates. This attenuation appeared to stem from a decrease in PD-1hi T helper cells in the dKI strains, as c1 dKI B cells were recruited to germinal centres when adoptively transferred into c1 wild type mice.ConclusionAnergic, DNA-specific autoreactive B cells only seem to drive profound autoimmunity in the presence of concomitant defects in the T cell subsets that support high-affinity plasma cell production.
Highlights
Systemic lupus erythematosus (SLE) is a chronic autoimmune disease in which a complex interplay of genetic and environmental factors leads to the production of pathogenic antinuclear antibodies (ANAs) [1]
Previous work examining the c1 strains in the context of the neo-self antigen hen egg lysozyme (HEL) revealed that HEL-specific B cells from these mice produced low levels of antigenspecific IgM autoAbs, but high titres of anti-HEL and anti-ssDNA IgG autoAbs in a germinal centre (GC)-dependent fashion, indicating that anergic B cells may be a viable reservoir of antibody-secreting cells (ASCs) given sufficient T cell help
We previously showed that anti-HEL Ig transgenic B cells from c1(96–100) congenic mice are hyperproliferative compared with their B6 counterparts following BCR crosslinking, and that this enhanced proliferation is retained in c1 anti-HEL/sHEL double transgenic mice, indicating impaired induction of anergy [14]
Summary
Systemic lupus erythematosus (SLE) is a chronic autoimmune disease in which a complex interplay of genetic and environmental factors leads to the production of pathogenic antinuclear antibodies (ANAs) [1]. To address the contribution of B cell tolerance defects to the development of lupus, our laboratory has been studying congenic mice derived from the lupus-prone New Zealand Black (NZB) mouse strain [8,9,10]. Systemic lupus erythematosus (SLE) is a severe autoimmune disease in which immune tolerance defects drive production of pathogenic anti-nuclear autoantibodies. Studies of lupus-prone mice have shown that genetic defects mediating autoimmunity can breach B cell anergy, but how this breach occurs with regards to endogenous nuclear antigen remains unclear. We investigated whether B and T cell defects in congenic mice (c1) derived from the lupus-prone New Zealand Black strain can breach tolerance to nuclear self-antigen in the presence of knock-in genes (Vκ8/3H9; dKI) that generate a ssDNA-reactive, anergic B cell population
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