This study examined effects of trauma and sepsis on Kupffer cell function. When CBA/J mice had femur fracture (FFx), no deaths occurred. After cecal ligation and puncture (CLP), 44% died. Following combined injuries (FFx + CLP), mortality increased to 60%, suggesting a deleterious effect between FFx + CLP. Kupffer cell ablation with GdCI3 decreased mortality to 13% after CLP and 5% after FFx + CLP. After FFx, CLP, and FFx + CLP, Kupffer cells isolated from Sprague-Dawley rats produced 720%, 1,100%, and 2,130% more O2. than sham, respectively. Phagocytosis increased 320%, 610%, and 150%. Kupffer cell PGE2 production also increased 300%, 510%, and 300% over sham. After FFx alone, TNF-alpha production decreased 40%. By contrast, CLP and FFx + CLP increased TNF-alpha release 25% and 100%, respectively. After FFx, NO. production decreased 44%, whereas NO increased 280% and 260% after CLP and FFx + CLP. These findings indicate that Kupffer cells mediate mortality after CLP and FFx + CLP. Increased mortality is associated with a more proinflammatory and less antimicrobial Kupffer cell phenotype.