UNLABELLED: Sepsis-induced acute liver injury (SALI) is a prevalent and life-threatening complication associated with sepsis. The gut microbiota plays a crucial role in the maintenance of health and the development of diseases. The impact of physical exercise on gut microbiota modulation has been well-documented. However, the potential impact of gut microbiome on exercise training-induced protection against SALI remains uncertain. Here, we discovered exercise training ameliorated SALI and systemic inflammation in septic mice. Notably, gut microbiota pre-depletion abolished the protective effects of exercise training in SALI mice. Fecal microbiota transplantation treatment revealed that exercise training-associated gut microbiota contributed to the beneficial effect of exercise training on SALI. Exercise training modulated the metabolism of IMPORTANCE: Sepsis is characterized by a dysregulated immune response to an infection that leads to multiple organ dysfunction. The occurrence of acute liver injury is frequently observed during the initial stage of sepsis and is directly linked to mortality in the intensive care unit. The preventive effect of physical exercise on SALI is well recognized, yet the underlying mechanism remains poorly elucidated. Exercise training alters the gut microbiome in mice, increasing the abundance of Ligilactobacillus and promoting the generation of BA. Additionally, BA supplementation can suppress the NLRP3 inflammasome activation in macrophages by directly binding to hnRNPA2B1, thereby mitigating SALI. These results highlight the beneficial role of gut microbiota-derived BA in inhibiting the hepatic inflammatory response, which represents a crucial stride toward implementing microbiome-based therapeutic strategies for the clinical management of sepsis.