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UV as an amplifier rather than inducer of NF-kappaB activity

Inflammatory activation of NF-kappaB involves the stimulus-induced degradation of the NF-kappaB-bound inhibitor IkappaB via the IkappaB kinase (IKK). In response to UV irradiation, however, the mechanism and function of NF-kappaB activation remain unclear. Using a combined biochemical, genetic, and...

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Published in:	Molecular cell 2008-06, Vol.30 (5), p.632-641
Main Authors:	O'Dea, Ellen L, Kearns, Jeffrey D, Hoffmann, Alexander
Format:	Article
Language:	English
Subjects:	Animals Cells, Cultured Homeostasis - radiation effects I-kappa B Kinase - metabolism I-kappa B Proteins - metabolism Inflammation - metabolism Mice NF-kappa B - metabolism Protein Biosynthesis - radiation effects Signal Transduction - radiation effects Ultraviolet Rays
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container_title	Molecular cell
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creator	O'Dea, Ellen L Kearns, Jeffrey D Hoffmann, Alexander
description	Inflammatory activation of NF-kappaB involves the stimulus-induced degradation of the NF-kappaB-bound inhibitor IkappaB via the IkappaB kinase (IKK). In response to UV irradiation, however, the mechanism and function of NF-kappaB activation remain unclear. Using a combined biochemical, genetic, and computational modeling approach, we delineate a dual requirement for constitutive IKK-dependent and IKK-independent IkappaB degradation pathways in conjunction with UV-induced translational inhibition. Interestingly, we find that the high homeostatic turnover of IkappaB in resting cells renders the NF-kappaB system remarkably resistant to metabolic stresses, but the two degradation pathways critically and differentially tune NF-kappaB responsiveness to UV. Indeed, in the context of low chronic inflammation that accelerates NF-kappaB-bound IkappaB degradation, UV irradiation results in dramatic NF-kappaB activation. Our work suggests that the human health relevance of NF-kappaB activation by UV lies with cellular homeostatic states that are associated with pathology rather than with healthy physiology.
doi_str_mv	10.1016/j.molcel.2008.03.017
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subjects	Animals Cells, Cultured Homeostasis - radiation effects I-kappa B Kinase - metabolism I-kappa B Proteins - metabolism Inflammation - metabolism Mice NF-kappa B - metabolism Protein Biosynthesis - radiation effects Signal Transduction - radiation effects Ultraviolet Rays
title	UV as an amplifier rather than inducer of NF-kappaB activity
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