Systemic inflammation induces innate activation of effector-like CD8+T cells to infiltrate the liver and produce IL-10. Immune-mediated liver injury is a central feature of hyperinflammatory diseases, such as hemophagocytic syndromes, yet the immunologic mechanisms underlying those processes are incompletely understood. In this study, we used the toll-like receptor 9 (TLR9)–mediated model of a hemophagocytic syndrome known as macrophage activation syndrome (MAS) to dissect the predominant immune cell populations infiltrating the liver during inflammation. We identified CD8+T cells that unexpectedly produce interleukin-10 (IL-10) in addition to interferon-? (IFN-?) as a major hepatic population induced by TLR9 stimulation. Despite their ability to produce this anti-inflammatory cytokine, IL-10+hepatic CD8+T cells in TLR9–MAS mice did not resemble CD8+T suppressor cells. Instead, the induction of these cells occurred independently of antigen stimulation and was partially dependent on IFN-?. IL-10+hepatic CD8+T cells demonstrated an activated phenotype and high turnover rate, consistent with an effector-like identity. Transcriptional analysis of this population confirmed a gene signature of effector CD8+T cells yet suggested responsiveness to liver injury–associated growth factors. Together, these findings suggest that IL-10+CD8+T cells induced by systemic inflammation to infiltrate the liver have initiated an inflammatory, rather than regulatory, program and may thus have a pathogenic role in severe, acute hepatitis.