Increasing evidence suggests that the excessive accumulation of apoptotic or necrotic cellular debris may contribute to the pathology of systemic autoimmune disease. HMGB1 is a nuclear DNA-associated protein, which can be released from dying cells thereby triggering inflammatory processes. We have previously shown that IgG2a-reactive B cell receptor (BCR) transgenic AM14 B cells proliferate in response to endogenous chromatin immune complexes (ICs), in the form of the anti-nucleosome antibody PL2-3 and cell debris, in a TLR9-dependent manner, and that these ICs contain HMGB1. Activation of AM14 B cells by these chromatin ICs was inhibited by a soluble form of the HMGB1 receptor, RAGE-Fc, suggesting HMGB1-RAGE interaction was important for this response. To further explore the role of HMGB1 in autoreactive B cell activation, we assessed the capacity of purified calf thymus HMGB1 to bind dsDNA fragments and found that HMGB1 bound both CG-rich and CG-poor DNA. However, HMGB1-DNA complexes could not activate AM14 B cells unless HMGB1 was bound by IgG2a and thereby able to engage the BCR. To ascertain the role of RAGE in autoreactive B cell responses to chromatin ICs, we intercrossed AM14 and RAGE-deficient mice. We found that spontaneous and defined DNA ICs activated RAGE+ and RAGE(- ) AM14 B cells to a comparable extent. These results suggest that HMGB1 promotes B cell responses to endogenous TLR9 ligands through a RAGE-independent mechanism.