Determination of the origin and fate of autoreactive B cells is critical to understanding and treating autoimmune diseases. We report that, despite being derived from healthy people, antibodies from B cells that have class switched to IgD via genetic recombination (and thus become class switched to Cδ [Cδ-CS] cells) are highly reactive to self antigens. Over half of the antibodies from Cδ-CS B cells bind autoantigens on human epithelioma cell line 2 (HEp-2) cells or antinuclear antigens, and a quarter bind double-stranded DNA; both groups of antibodies are frequently polyreactive. Intriguingly, some Cδ-CS B cells have accumulated basic residues in the antibody variable regions that mediate anti-DNA reactivity via somatic hypermutation and selection, while other Cδ-CS B cells are naturally autoreactive. Though the total percentage was appreciably less than for Cδ-CS cells, a surprising 31% of IgG memory cell antibodies were somewhat autoreactive, and as expected, about 24% of naive cell antibodies were autoreactive. We interpret these findings to indicate either that autoreactive B cells can be induced to class switch to IgD or that autoreactive B cells that use IgD as the B cell receptor are not effectively deleted. Determination of the mechanism by which the majority of Cδ-CS B cells are autoreactive may be important in understanding peripheral tolerance mechanisms and may provide insight into the enigmatic function of the IgD antibody.
Kristi Koelsch, Nai-Ying Zheng, Qingzhao Zhang, Andrew Duty, Christina Helms, Melissa D. Mathias, Mathew Jared, Kenneth Smith, J. Donald Capra, Patrick C. Wilson