Oxidants positively or negatively regulate nuclear factor κB in a context-dependent manner

Abstract

Redox-based mechanisms play critical roles in the regulation of multiple cellular functions. NF-κB, a master regulator of inflammation, is an inducible transcription factor generally considered to be redox-sensitive, but the modes of interactions between oxidant stress and NF-κB are incompletely defined. Here, we show that oxidants can either amplify or suppress NF-κB activation in vitro by interfering both with positive and negative signals in the NF-κB pathway. NF-κB activation was evaluated in lung A549 epithelial cells stimulated with tumor necrosis factor α (TNFα), either alone or in combination with various oxidant species, including hydrogen peroxide or peroxynitrite. Exposure to oxidants after TNFα stimulation produced a robust and long lasting hyperactivation of NF-κB by preventing resynthesis of the NF-κB inhibitor IκB, thereby abrogating the major negative feedback loop of NF-κB. This effect was related to continuous activation of inhibitor of κB kinase (IKK), due to persistent IKK phosphorylation consecutive to oxidant-mediated inactivation of protein phosphatase 2A. In contrast, exposure to oxidants before TNFα stimulation impaired IKK phosphorylation and activation, leading to complete prevention of NF-κB activation. Comparable effects were obtained when interleukin-1β was used instead of TNFα as the NF-κB activator. This study demonstrates that the influence of oxidants on NF-κB is entirely context-dependent, and that the final outcome (activation versus inhibition) depends on a balanced inhibition of protein phosphatase 2A and IKK by oxidant species. Our findings provide a new conceptual framework to understand the role of oxidant stress during inflammatory processes.