Abstract
Alternative redox stimuli such as pervanadate or hypoxia/reoxygenation, induce transcription factor NF-κB by phospho-tyrosine-dependent and proteasome-independent mechanisms. While considerable attention has been paid to the absence of proteasomal regulation of tyrosine phosphorylated IκBα, there is a paucity of information regarding proteasomal regulation of signaling events distinct from tyrosine phosphorylation of IκBα. To delineate roles for the ubiquitin-proteasome pathway in the phospho-tyrosine dependent mechanism of NF-κB induction, we employed the proteasome inhibitor, Aclacinomycin, and the phosphotyrosine phosphatase inhibitor, pervanadate (PV). Results from these studies demonstrate that phospho-IκBα (Tyr-42) is not subject to proteasomal degradation in a murine stromal epithelial cell line, confirming results previously reported. Correspondingly, proteasome inhibition had no discernable effect on the key signaling intermediaries, Src and ERK1/2, involved in the phospho-tyrosine mechanisms regulating PV-mediated activation of NF-κB. Consistent with previous reports, a significant redox imbalance leading to the activation of tyrosine kinases, as occurs with pervanadate, is required for the induction of NF-κB. Strikingly, our studies demonstrate that proteasome inhibition can potentiate oxidative stress associated with PV-stimulation without impacting kinase activation, however, other cellular implications for this increase in intracellular oxidation remain to be fully delineated.
Highlights
The nuclear factor-B (NF-B) family of transcription factors is comprised of evolutionarily conserved and structurally-related interacting proteins that bind to DNA
tumor necrosis factor (TNF)-mediated activation of NF-B induction has been demonstrated to invoke serine phosphorylation of the inhibitory IB proteins followed by ubiquitination and degradation via the 26S proteasome pathway [5]
To test whether PV-mediated activation of NF-B occurs by a proteasomal-independent mechanism in a murine stromal cell line, we subjected
Summary
The nuclear factor-B (NF-B) family of transcription factors is comprised of evolutionarily conserved and structurally-related interacting proteins that bind to DNA. Interleukin (IL)-families is termed the canonical pathway, whereas activation of a specific. Ser/Thr-specific IB kinase (IKK) signalosome complex, active in B-cells, is a second and alternative pathway. Phosphorylation-dependent inactivation of IB proteins, such as IB or p100, dominates as the prevailing mechanism for the vast majority of these NF-B signaling pathways [5]. Such a phosphorylation pathway has been extensively characterized for IB and entails phosphorylation on Ser-32 and Ser-36 by the IKK complex, followed by subsequent ubiquitination and degradation via the 26S proteasome pathway. The less-characterized, atypical pathway of NF-B induction involves tyrosine phosphorylation of IB. NF-B activation by tyrosine phosphorylation of IB relies on a poorly defined mechanism whereby phospho-IB dissociates from
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