A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation

Activation of the IκB kinase (IKK) is central to NF-κB signaling. However, the precise activation mechanism by which catalytic IKK subunits gain the ability to induce NF-κB transcriptional activity is not well understood. Here we report a 4 Å x-ray crystal structure of human IKK2 (hIKK2) in its cata...

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Autores principales: Polley, Smarajit, Huang, De-Bin, Hauenstein, Arthur V., Fusco, Amanda J., Zhong, Xiangyang, Vu, Don, Schröfelbauer, Bärbel, Kim, Youngchang, Hoffmann, Alexander, Verma, Inder M., Ghosh, Gourisankar, Huxford, Tom
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3678999/
https://www.ncbi.nlm.nih.gov/pubmed/23776406
http://dx.doi.org/10.1371/journal.pbio.1001581
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author Polley, Smarajit
Huang, De-Bin
Hauenstein, Arthur V.
Fusco, Amanda J.
Zhong, Xiangyang
Vu, Don
Schröfelbauer, Bärbel
Kim, Youngchang
Hoffmann, Alexander
Verma, Inder M.
Ghosh, Gourisankar
Huxford, Tom
author_facet Polley, Smarajit
Huang, De-Bin
Hauenstein, Arthur V.
Fusco, Amanda J.
Zhong, Xiangyang
Vu, Don
Schröfelbauer, Bärbel
Kim, Youngchang
Hoffmann, Alexander
Verma, Inder M.
Ghosh, Gourisankar
Huxford, Tom
author_sort Polley, Smarajit
collection PubMed
description Activation of the IκB kinase (IKK) is central to NF-κB signaling. However, the precise activation mechanism by which catalytic IKK subunits gain the ability to induce NF-κB transcriptional activity is not well understood. Here we report a 4 Å x-ray crystal structure of human IKK2 (hIKK2) in its catalytically active conformation. The hIKK2 domain architecture closely resembles that of Xenopus IKK2 (xIKK2). However, whereas inactivated xIKK2 displays a closed dimeric structure, hIKK2 dimers adopt open conformations that permit higher order oligomerization within the crystal. Reversible oligomerization of hIKK2 dimers is observed in solution. Mutagenesis confirms that two of the surfaces that mediate oligomerization within the crystal are also critical for the process of hIKK2 activation in cells. We propose that IKK2 dimers transiently associate with one another through these interaction surfaces to promote trans auto-phosphorylation as part of their mechanism of activation. This structure-based model supports recently published structural data that implicate strand exchange as part of a mechanism for IKK2 activation via trans auto-phosphorylation. Moreover, oligomerization through the interfaces identified in this study and subsequent trans auto-phosphorylation account for the rapid amplification of IKK2 phosphorylation observed even in the absence of any upstream kinase.
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spelling pubmed-36789992013-06-17 A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation Polley, Smarajit Huang, De-Bin Hauenstein, Arthur V. Fusco, Amanda J. Zhong, Xiangyang Vu, Don Schröfelbauer, Bärbel Kim, Youngchang Hoffmann, Alexander Verma, Inder M. Ghosh, Gourisankar Huxford, Tom PLoS Biol Research Article Activation of the IκB kinase (IKK) is central to NF-κB signaling. However, the precise activation mechanism by which catalytic IKK subunits gain the ability to induce NF-κB transcriptional activity is not well understood. Here we report a 4 Å x-ray crystal structure of human IKK2 (hIKK2) in its catalytically active conformation. The hIKK2 domain architecture closely resembles that of Xenopus IKK2 (xIKK2). However, whereas inactivated xIKK2 displays a closed dimeric structure, hIKK2 dimers adopt open conformations that permit higher order oligomerization within the crystal. Reversible oligomerization of hIKK2 dimers is observed in solution. Mutagenesis confirms that two of the surfaces that mediate oligomerization within the crystal are also critical for the process of hIKK2 activation in cells. We propose that IKK2 dimers transiently associate with one another through these interaction surfaces to promote trans auto-phosphorylation as part of their mechanism of activation. This structure-based model supports recently published structural data that implicate strand exchange as part of a mechanism for IKK2 activation via trans auto-phosphorylation. Moreover, oligomerization through the interfaces identified in this study and subsequent trans auto-phosphorylation account for the rapid amplification of IKK2 phosphorylation observed even in the absence of any upstream kinase. Public Library of Science 2013-06-11 /pmc/articles/PMC3678999/ /pubmed/23776406 http://dx.doi.org/10.1371/journal.pbio.1001581 Text en © 2013 Polley et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Polley, Smarajit
Huang, De-Bin
Hauenstein, Arthur V.
Fusco, Amanda J.
Zhong, Xiangyang
Vu, Don
Schröfelbauer, Bärbel
Kim, Youngchang
Hoffmann, Alexander
Verma, Inder M.
Ghosh, Gourisankar
Huxford, Tom
A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title_full A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title_fullStr A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title_full_unstemmed A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title_short A Structural Basis for IκB Kinase 2 Activation Via Oligomerization-Dependent Trans Auto-Phosphorylation
title_sort structural basis for iκb kinase 2 activation via oligomerization-dependent trans auto-phosphorylation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3678999/
https://www.ncbi.nlm.nih.gov/pubmed/23776406
http://dx.doi.org/10.1371/journal.pbio.1001581
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