Nitric Oxide Represses Inhibitory κB Kinase through S-Nitrosylation

Nitric oxide (NO) possesses antiinflammatory effects, which may be exerted via its ability to inhibit the transcription factor, NF-κB. A commonly proposed mode of action for inhibition of NF-κB by NO involves interference with NF-κB binding to DNA. Because activation of inhibitory κB kinase (IKK), the prerequisite enzyme complex necessary to induce NF-κB, is subject to redox regulation, we assessed whether IKK could present a more proximal target for NO to inhibit NF-κB activation. We demonstrate here that S-nitrosothiols (SNO) caused a dose-dependent inhibition of the enzymatic activity of IKK, in lung epithelial cells and in Jurkat T cells, which was associated with S-nitrosylation of the IKK complex. Using biotin derivatization of SNO, we revealed that IKKβ, the catalytic subunit required for NF-κB activation, was a direct target for S-nitrosylation. A mutant version of IKKβ containing a Cys-179-to-Ala mutation was refractory to inhibition by SNO or to increases in S-nitrosylation, in contrast to wild-type IKKβ, demonstrating that Cys-179 is the main target for attack by SNO. Importantly, inhibition of NO synthase activity in Jurkat T cells resulted in activation of IKK, in association with its denitrosylation. Moreover, NO synthase inhibition enhanced the ability of tumor necrosis factor α to activate IKK, illustrating the importance of endogenous NO in regulating the extent of NF-κB activation by cytokines. Collectively, our findings demonstrate that IKKβ is an important target for the redox regulation of NF-κB by endogenous or exogenous NO, providing an additional mechanism for its antiinflammatory properties.