The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription

BACKGROUND: Inducible nitric oxide synthase (iNOS) metabolizes L-arginine to produce nitric oxide (NO) which was originally identified in myeloid cells as a host defense mechanism against pathogens. Recent studies, however, have revealed that iNOS is often induced in tumor cells and myeloid cells in...

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Autores principales: Simon, Priscilla S., Sharman, Sarah K., Lu, Chunwan, Yang, Dafeng, Paschall, Amy V., Tulachan, Sidhartha S., Liu, Kebin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4619452/
https://www.ncbi.nlm.nih.gov/pubmed/26497740
http://dx.doi.org/10.1186/s12885-015-1808-6
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author Simon, Priscilla S.
Sharman, Sarah K.
Lu, Chunwan
Yang, Dafeng
Paschall, Amy V.
Tulachan, Sidhartha S.
Liu, Kebin
author_facet Simon, Priscilla S.
Sharman, Sarah K.
Lu, Chunwan
Yang, Dafeng
Paschall, Amy V.
Tulachan, Sidhartha S.
Liu, Kebin
author_sort Simon, Priscilla S.
collection PubMed
description BACKGROUND: Inducible nitric oxide synthase (iNOS) metabolizes L-arginine to produce nitric oxide (NO) which was originally identified in myeloid cells as a host defense mechanism against pathogens. Recent studies, however, have revealed that iNOS is often induced in tumor cells and myeloid cells in the tumor microenvironment. Compelling experimental data have shown that iNOS promotes tumor development in certain cellular context and suppresses tumor development in other cellular conditions. The molecular mechanisms underlying these contrasting functions of iNOS is unknown. Because iNOS is often induced by inflammatory signals, it is therefore likely that these contrasting functions of iNOS could be controlled by the inflammatory signaling pathways, which remains to be determined. METHODS: iNOS is expressed in colon carcinoma and myeloid cells in the tumor microenvironment. Colon carcinoma and myeloid cell lines were used to elucidate the molecular mechanisms underlying iNOS expression. Chromatin immunoprecipitation and electrophoretic mobility shift assay were used to determine the IFNγ-activated pSTAT1 and NF-κB association with the chromatin DNA of the nos2 promoter. RESULTS: We show here that iNOS is dramatically up-regulated in inflammed human colon tissues and in human colon carcinoma as compared to normal colon tissue. iNOS is expressed in either the colon carcinoma cells or immune cells within the tumor microenvironment. On the molecular level, the proinflammatory IFNγ and NF-κB signals induce iNOS expression in human colon cancer cells. We further demonstrate that NF-κB directly binds to the NOS2 promoter to regulate iNOS expression. Although neither the IFNγ signaling pathway nor the NF-κB signaling pathway alone is sufficient to induce iNOS expression in myeloid cells, IFNγ and NF-κB synergistically induce iNOS expression in myeloid cells. Furthermore, we determine that IFNγ up-regulates IRF8 expression to augment NF-κB induction of iNOS expression. More interestingly, we observed that the p65/p65 and p50/p50 homodimers, not the canonical p65/p50 heterodimer, directly binds to the nos2 promoter to regulate iNOS expression in myeloid cells. CONCLUSIONS: IFNγ-induced IRF8 acts in concert with NF-κB to regulate iNOS expression in both colon carcinoma and myeloid cells. In myeloid cells, the NF-κB complexes that bind to the nos2 promoter are p65/p65 and p50/p50 homodimers.
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spelling pubmed-46194522015-10-26 The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription Simon, Priscilla S. Sharman, Sarah K. Lu, Chunwan Yang, Dafeng Paschall, Amy V. Tulachan, Sidhartha S. Liu, Kebin BMC Cancer Research Article BACKGROUND: Inducible nitric oxide synthase (iNOS) metabolizes L-arginine to produce nitric oxide (NO) which was originally identified in myeloid cells as a host defense mechanism against pathogens. Recent studies, however, have revealed that iNOS is often induced in tumor cells and myeloid cells in the tumor microenvironment. Compelling experimental data have shown that iNOS promotes tumor development in certain cellular context and suppresses tumor development in other cellular conditions. The molecular mechanisms underlying these contrasting functions of iNOS is unknown. Because iNOS is often induced by inflammatory signals, it is therefore likely that these contrasting functions of iNOS could be controlled by the inflammatory signaling pathways, which remains to be determined. METHODS: iNOS is expressed in colon carcinoma and myeloid cells in the tumor microenvironment. Colon carcinoma and myeloid cell lines were used to elucidate the molecular mechanisms underlying iNOS expression. Chromatin immunoprecipitation and electrophoretic mobility shift assay were used to determine the IFNγ-activated pSTAT1 and NF-κB association with the chromatin DNA of the nos2 promoter. RESULTS: We show here that iNOS is dramatically up-regulated in inflammed human colon tissues and in human colon carcinoma as compared to normal colon tissue. iNOS is expressed in either the colon carcinoma cells or immune cells within the tumor microenvironment. On the molecular level, the proinflammatory IFNγ and NF-κB signals induce iNOS expression in human colon cancer cells. We further demonstrate that NF-κB directly binds to the NOS2 promoter to regulate iNOS expression. Although neither the IFNγ signaling pathway nor the NF-κB signaling pathway alone is sufficient to induce iNOS expression in myeloid cells, IFNγ and NF-κB synergistically induce iNOS expression in myeloid cells. Furthermore, we determine that IFNγ up-regulates IRF8 expression to augment NF-κB induction of iNOS expression. More interestingly, we observed that the p65/p65 and p50/p50 homodimers, not the canonical p65/p50 heterodimer, directly binds to the nos2 promoter to regulate iNOS expression in myeloid cells. CONCLUSIONS: IFNγ-induced IRF8 acts in concert with NF-κB to regulate iNOS expression in both colon carcinoma and myeloid cells. In myeloid cells, the NF-κB complexes that bind to the nos2 promoter are p65/p65 and p50/p50 homodimers. BioMed Central 2015-10-23 /pmc/articles/PMC4619452/ /pubmed/26497740 http://dx.doi.org/10.1186/s12885-015-1808-6 Text en © Simon et al. 2015 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Simon, Priscilla S.
Sharman, Sarah K.
Lu, Chunwan
Yang, Dafeng
Paschall, Amy V.
Tulachan, Sidhartha S.
Liu, Kebin
The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title_full The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title_fullStr The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title_full_unstemmed The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title_short The NF-κB p65 and p50 homodimer cooperate with IRF8 to activate iNOS transcription
title_sort nf-κb p65 and p50 homodimer cooperate with irf8 to activate inos transcription
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4619452/
https://www.ncbi.nlm.nih.gov/pubmed/26497740
http://dx.doi.org/10.1186/s12885-015-1808-6
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