Plasmablasts With a Mucosal Phenotype Contribute to Plasmacytosis in Systemic Lupus Erythematosus.

OBJECTIVE: To analyze the composition of known plasmacytosis in systemic lupus erythematosus (SLE) to obtain further insight into the nature of underlying mechanisms.

METHODS: Plasmablasts from patients with active SLE, patients with inactive/treated SLE, and healthy controls were characterized by flow cytometry, enzyme-linked immunospot assay, and Transwell migration assays and compared to vaccination-induced plasmablasts. Serum cytokine levels were analyzed by Luminex assay, and histologic analysis of kidney biopsy specimens was performed.

RESULTS: Circulating plasmablasts in SLE expressed markers of mucosal immune reactions. IgA, CCR10, and β7 integrin were expressed by 48%, 40%, and 38% of plasmablasts, respectively, with varying coexpression patterns. Consistent with mucosal homing, some SLE plasmablasts migrated toward the mucosal chemokine CCL28 and secreted polymeric IgA. SLE plasmablasts shared phenotypic characteristics with antigen-specific plasmablasts induced by oral, but not parenteral, vaccinations. Autoreactive antibody-secreting cells of the IgG and IgA isotypes were detectable, but only the emergence of phenotypically mucosal plasmablasts was positively associated with serum interleukin-2 and platelet-derived growth factor BB levels.

CONCLUSION: Our data suggest that distinct plasmablast differentiation pathways jointly contribute to peripheral plasmacytosis in SLE, i.e., a cytokine-amplified mucosal "steady-state" plasmablast response, and an autoreactive plasmablast response, representing conventional autoimmunity. Our results indicate an overly activated mucosal immune system in patients with SLE, with both immunologic and clinical implications.