Abstract
Transcription factor NF-κB is persistently activated in many chronic inflammatory diseases and cancers. The short term regulation of NF-κB is well understood, but little is known about the mechanisms of its long term activation. We studied the effect of a single application of TNF-α on NF-κB activity for up to 48 h in intestinal epithelial cells. Results show that NF-κB remained persistently activated up to 48 h after TNF-α and that the long term activation of NF-κB was accompanied by a biphasic degradation of IκBα. The first phase of IκBα degradation was proteasome-dependent, but the second was not. Further investigation showed that TNF-α stimulated formation of autophagosomes in intestinal epithelial cells and that IκBα co-localized with autophagosomal vesicles. Pharmacological or genetic blockade of autophagosome formation or the inhibition of lysosomal proteases decreased TNF-α-induced degradation of IκBα and lowered NF-κB target gene expression. Together, these findings indicate a role of autophagy in the control of long term NF-κB activity. Because abnormalities in autophagy have been linked to ineffective innate immunity, we propose that alterations in NF-κB may mediate this effect.
Highlights
22886 JOURNAL OF BIOLOGICAL CHEMISTRY in the disease process [7]
A Single Stimulation of TNF-␣ Results in Prolonged Nuclear factor-B (NF-B) Activation in Intestinal Epithelial Cells—As an initial step to investigate the effects of TNF-␣ on long term NF-B activity, we examined the DNA binding capacity, p65/RelA protein localization, and NF-B promoter reporter gene activity for up to 48 h after a single application of TNF-␣
In contrast to the early, short term activation of NF-B that is mediated by proteasomal degradation of IB␣, the induction of autophagy by TNF-␣ appears to cause a delayed but more prolonged reduction of IB␣ levels
Summary
TNF-␣ stimulates the serine phosphorylation and subsequent degradation of IB proteins, allowing NF-B to translocate to the nucleus [8, 9]. Nuclear NF-B proteins up-regulate the de novo expression of IB␣, which decreases NF-B activity in a negative feedback loop [11]. This model of rapid stimulus-induced NF-B activity, followed by its termination, has been extensively characterized in many cell types and serves to explain well the acute up-regulation and subsequent termination of NF-B activity over periods of up to 4 h. We used intestinal epithelial cells that were stimulated with TNF-␣ to study this process because this cytokine is a pivotal factor in chronic inflammatory bowel diseases. Our results have revealed that IB␣ is targeted for autophagosomal degradation at later phases following stimulation with TNF-␣, leading to persistently active NF-B
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