Dendritic cells (DCs) play an important role in determining immunogenicity and the subsequent immune response. They may also have a role in maintaining peripheral tolerance to self-antigens by initiating an immune response only in the context of danger signals released from cells during stress, damage or death. These signals may originate from surrounding T cells as well as from other cells. Therefore, in this study the effect of autologous T cell injury on DC morphology and function has been investigated. Co-incubation of apoptotic or necrotic T cells with immature DCs altered their morphology towards a more mature appearance, with more cells showing activation as judged by spreading and formation of arborizing long processes. The apoptotic autologous T cells were rarely phagocytosed by immature DCs, compared to macrophages. The DC surface phenotype was not affected by the co-incubation with autologous injured T cells. The ability of DCs to elicit a secondary immune response was not altered by exposure to autologous injured T cells. These findings suggest that DC can continue to function in T cell activation, rather than in tolerogenic mode, even in the presence of large numbers of dying autologous T cells, such as may be present in the aftermath of an acute antiviral response.