Abstract
BackgroundActivation of the transcription factor NF-κB by cytokines is rapid, mediated through the activation of the IKK complex with subsequent phosphorylation and degradation of the inhibitory IκB proteins. The IKK complex is comprised of two catalytic subunits, IKKα and IKKβ, and a regulatory protein known as NEMO. Using cells from mice that are genetically deficient in IKKβ or IKKα, or using a kinase inactive mutant of IKKβ, it has been proposed that IKKβ is critical for TNF-induced IκB phosphorylation/degradation through the canonical pathway while IKKα has been shown to be involved in the non-canonical pathway for NF-κB activation. These conclusions have led to a focus on development of IKKβ inhibitors for potential use in inflammatory disorders and cancer.MethodologyAnalysis of NF-κB activation in response to TNF in MEFs reveals that IKKβ is essential for efficient phosphorylation and subsequent degradation of IκBα, yet IKKα contributes to the NF-κB activation response in these cells as measured via DNA binding assays. In HeLa cells, both IKKα and IKKβ contribute to IκBα phosphorylation and NF-κB activation. A kinase inactive mutant of IKKβ, which has been used as evidence for the critical importance of IKKβ in TNF-induced signaling, blocks activation of NF-κB induced by IKKα, even in cells that are deficient in IKKβ.ConclusionsThese results demonstrate the importance of IKKα in canonical NF-κB activation, downstream of cytokine treatment of cells. The experiments suggest that IKKα will be a therapeutic target in inflammatory disorders.
Highlights
The transcription factor nuclear factor-kappaB (NF-kB) plays critical roles in inflammation, control of cell death pathways and cell proliferation which are hallmarks of many human diseases [1,2,3]
These results demonstrate the importance of IKKa in canonical NF-kB activation, downstream of cytokine treatment of cells
The experiments suggest that IKKa will be a therapeutic target in inflammatory disorders
Summary
The transcription factor nuclear factor-kappaB (NF-kB) plays critical roles in inflammation, control of cell death pathways and cell proliferation which are hallmarks of many human diseases [1,2,3]. Several groups identified two highly related kinases named IKK1/IKKa and IKK2/IKKb as the catalytic components of this complex [6,7,8] Both of these kinases have been shown to have specificity for serines 32 and 36 in the N-terminus of IkBa with phosphorylation leading to ubiquitination and degradation of this inhibitory protein [9]. IKKa-deficient mouse embryonic fibroblast (MEF) cells exhibited reduced NF-kB activation as measured by EMSA in response to cytokine treatment [17,18]. Another group did not find reduced cytokineinduced NF-kB DNA binding activity in IKKa 2/2 MEFs [19]. These studies suggest that inhibition of IKKa is a rational approach in blocking inflammatory disorders
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