For the second time in recent history, studies directed at the pathogenesis of infectious disease have led to the identification of an endogenous mediator of arthritis. HMGB1, a 30-kD nuclear and cytoplasmic protein widely studied as a DNA-binding protein, is a newly described cytokine and a necessary and sufficient mediator of lethal sepsis. HMGB1 is passively released during cell necrosis, but not apoptosis; it activates an inflammatory response to necrosis,but not apoptosis. Furthermore, HMGB1 can also be actively secreted by stimulated macrophages or monocytes in a process that requires acetylation of the molecule, enabling a translocation from the nucleus to secretory lysosomes. Recent evidence indicates that HMGB1 is a mediator of arthritis because of the following: (1) it is produced at the site of joint inflammation, (2) it causes the development of arthritis when applied to normal joints, and (3) therapies that inhibit HMGB1 prevent the progression of collagen-induced arthritis in rodents. Anti-HMGB1 may be studied in future clinical trials of diseases of excessive production of HMGB1, such as severe sepsis and arthritis.