Tissue damage induced by infection or injury can result in necrosis, a mode of cell death characterized by induction of an inflammatory response. In contrast, cells dying by apoptosis do not induce inflammation. However, the reasons for underlying differences between these two modes of cell death in inducing inflammation are not known. Here we show that necrotic cells, but not apoptotic cells, activate NF-κB and induce expression of genes involved in inflammatory and tissue-repair responses, including neutrophil-specific chemokine genes KC and macrophage-inflammatory protein-2, in viable fibroblasts and macrophages. Intriguingly, NF-κB activation by necrotic cells was dependent on Toll-like receptor 2, a signaling pathway that induces inflammation in response to microbial agents. These results have identified a novel mechanism by which cell necrosis, but not apoptosis, can induce expression of genes involved in inflammation and tissue-repair responses. Furthermore, these results also demonstrate that the NF-κB/Toll-like receptor 2 pathway can be activated both by exogenous microbial agents and endogenous inflammatory stimuli.
The Fas death receptor plays a key role in the killing of target cells by NK cells and CTLs and in activation-induced cell death of mature T lymphocytes. These cytotoxic pathways are dependent on induction of Fas expression by cytokines such as TNF-α and IFN-γ or by signals generated after TCR engagement. Although much of our knowledge of the Fas death pathway has been generated from murine studies, little is known about regulatory mechanisms important for murine Fas expression. To this end, we have molecularly cloned a region of the murine Fas promoter that is responsible for mediating TNF-α and PMA/PHA-induced expression. We demonstrate here that induction of Fas expression by both stimuli is critically dependent on two sites that associate with RelA-containing NF-κB complexes. To determine whether RelA and/or other NF-κB subunits are also important for regulating Fas expression in primary T cells, we used CD4 T cells from RelA−/−, c-Rel−/−, and p50−/− mice. Although proliferative responses were significantly impaired, expression of Fas and activation-induced cell death was unaffected in T cells obtained from these different mice. Importantly, we show that unlike fibroblasts, which consist primarily of RelA-containing NF-κB complexes, T cells have high levels of both RelA and c-Rel complexes, suggesting that Fas expression in T cells may be dependent on redundant functions of these NF-κB subunits.
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