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Interleukin 1 Activates STAT3/Nuclear Factor-κB Cross-talk via a Unique TRAF6- and p65-dependent Mechanism

Interleukins (IL) 1 and 6 are important cytokines that function via the activation, respectively, of the transcription factors NF-κB and STAT3. We have observed that a specific type of κB DNA sequence motif supports both NF-κB p65 homodimer binding and cooperativity with non-tyrosine-phosphorylated...

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Published in:	The Journal of biological chemistry 2004-01, Vol.279 (3), p.1768-1776
Main Authors:	Yoshida, Yasuhiro, Kumar, Arvind, Koyama, Yoshinobu, Peng, Haibing, Arman, Ahmet, Boch, Jason A., Auron, Philip E.
Format:	Article
Language:	English
Subjects:	NF-^KB protein STAT3 protein TRAF6 protein
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container_title	The Journal of biological chemistry
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creator	Yoshida, Yasuhiro Kumar, Arvind Koyama, Yoshinobu Peng, Haibing Arman, Ahmet Boch, Jason A. Auron, Philip E.
description	Interleukins (IL) 1 and 6 are important cytokines that function via the activation, respectively, of the transcription factors NF-κB and STAT3. We have observed that a specific type of κB DNA sequence motif supports both NF-κB p65 homodimer binding and cooperativity with non-tyrosine-phosphorylated STAT3. This activity, in contrast to that mediated by κB DNA motifs that do not efficiently bind p65 homodimers, is shown to be uniquely dependent upon signal transduction through the carboxyl terminus of TRAF6. Furthermore, STAT3 and p65 are shown to physically interact, in vivo, and this interaction appears to inhibit the function of “classical” STAT3 GAS-like binding sites. The distinct p50 form of NF-κB is also shown to interact with STAT3. However, in contrast to p65, p50 cooperates with STAT3 bound to GAS sites. These data argue for a novel transcription factor cross-talk mechanism that may help resolve inconsistencies previously reported regarding the mechanism of IL-1 inhibition of IL-6 activity during the acute-phase response.
doi_str_mv	10.1074/jbc.M311498200
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subjects	NF-^KB protein STAT3 protein TRAF6 protein
title	Interleukin 1 Activates STAT3/Nuclear Factor-κB Cross-talk via a Unique TRAF6- and p65-dependent Mechanism
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