N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.

N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.

<h4>Background and purpose</h4>Catechol containing compounds have anti-inflammatory properties, yet for catecholamines these properties are modest. Since we have previously demonstrated that the synthetic dopamine derivative N-octanoyl dopamine (NOD) has superior anti-inflammatory proper...

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Main Authors: Maximilia C Hottenrott, Johannes Wedel, Sophie Gaertner, Eleni Stamellou, Tineke Kraaij, Linda Mandel, Ralf Loesel, Carsten Sticht, Simone Hoeger, Lamia Ait-Hsiko, Angelika Schedel, Mathias Hafner, Benito Yard, Charalambos Tsagogiorgas
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023820/pdf/?tool=EBI
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spelling doaj-65788b7d3f5d42a0b68082d001b8a47a2021-03-03T22:56:30ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0189e7312210.1371/journal.pone.0073122N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.Maximilia C HottenrottJohannes WedelSophie GaertnerEleni StamellouTineke KraaijLinda MandelRalf LoeselCarsten StichtSimone HoegerLamia Ait-HsikoAngelika SchedelMathias HafnerBenito YardCharalambos Tsagogiorgas<h4>Background and purpose</h4>Catechol containing compounds have anti-inflammatory properties, yet for catecholamines these properties are modest. Since we have previously demonstrated that the synthetic dopamine derivative N-octanoyl dopamine (NOD) has superior anti-inflammatory properties compared to dopamine, we tested NOD in more detail and sought to elucidate the molecular entities and underlying mechanism by which NOD down-regulates inflammation.<h4>Experimental approach</h4>Genome wide gene expression profiling of human umbilical vein endothelial cells (HUVECs) was performed after stimulation with TNF-α or in the combination with NOD. Confirmation of these differences, NFκB activation and the molecular entities that were required for the anti-inflammatory properties were assessed in subsequent experiments.<h4>Key results</h4>Down regulation of inflammatory genes by NOD occurred predominantly for κB regulated genes, however not all κB regulated genes were affected. These findings were explained by inhibition of RelA phosphorylation at Ser276. Leukocyte adherence to TNF-α stimulated HUVECs was inhibited by NOD and was reflected by a diminished expression of adhesion molecules on HUVECs. NOD induced HO-1 expression, but this was not required for inhibition of NFκB. The anti-inflammatory effect of NOD seems to involve the redox active catechol structure, although the redox active para-dihydroxy benzene containing compounds also displayed anti-inflammatory effects, provided that they were sufficiently hydrophobic.<h4>Conclusions and implications</h4>The present study highlighted important mechanisms and molecular entities by which dihydroxy benzene compounds exert their potential anti-inflammatory action. Since NOD does not have hemodynamic properties, NOD seems to be a promising candidate drug for the treatment of inflammatory diseases.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023820/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Maximilia C Hottenrott
Johannes Wedel
Sophie Gaertner
Eleni Stamellou
Tineke Kraaij
Linda Mandel
Ralf Loesel
Carsten Sticht
Simone Hoeger
Lamia Ait-Hsiko
Angelika Schedel
Mathias Hafner
Benito Yard
Charalambos Tsagogiorgas
spellingShingle Maximilia C Hottenrott
Johannes Wedel
Sophie Gaertner
Eleni Stamellou
Tineke Kraaij
Linda Mandel
Ralf Loesel
Carsten Sticht
Simone Hoeger
Lamia Ait-Hsiko
Angelika Schedel
Mathias Hafner
Benito Yard
Charalambos Tsagogiorgas
N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
PLoS ONE
author_facet Maximilia C Hottenrott
Johannes Wedel
Sophie Gaertner
Eleni Stamellou
Tineke Kraaij
Linda Mandel
Ralf Loesel
Carsten Sticht
Simone Hoeger
Lamia Ait-Hsiko
Angelika Schedel
Mathias Hafner
Benito Yard
Charalambos Tsagogiorgas
author_sort Maximilia C Hottenrott
title N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
title_short N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
title_full N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
title_fullStr N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
title_full_unstemmed N-octanoyl dopamine inhibits the expression of a subset of κB regulated genes: potential role of p65 Ser276 phosphorylation.
title_sort n-octanoyl dopamine inhibits the expression of a subset of κb regulated genes: potential role of p65 ser276 phosphorylation.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description <h4>Background and purpose</h4>Catechol containing compounds have anti-inflammatory properties, yet for catecholamines these properties are modest. Since we have previously demonstrated that the synthetic dopamine derivative N-octanoyl dopamine (NOD) has superior anti-inflammatory properties compared to dopamine, we tested NOD in more detail and sought to elucidate the molecular entities and underlying mechanism by which NOD down-regulates inflammation.<h4>Experimental approach</h4>Genome wide gene expression profiling of human umbilical vein endothelial cells (HUVECs) was performed after stimulation with TNF-α or in the combination with NOD. Confirmation of these differences, NFκB activation and the molecular entities that were required for the anti-inflammatory properties were assessed in subsequent experiments.<h4>Key results</h4>Down regulation of inflammatory genes by NOD occurred predominantly for κB regulated genes, however not all κB regulated genes were affected. These findings were explained by inhibition of RelA phosphorylation at Ser276. Leukocyte adherence to TNF-α stimulated HUVECs was inhibited by NOD and was reflected by a diminished expression of adhesion molecules on HUVECs. NOD induced HO-1 expression, but this was not required for inhibition of NFκB. The anti-inflammatory effect of NOD seems to involve the redox active catechol structure, although the redox active para-dihydroxy benzene containing compounds also displayed anti-inflammatory effects, provided that they were sufficiently hydrophobic.<h4>Conclusions and implications</h4>The present study highlighted important mechanisms and molecular entities by which dihydroxy benzene compounds exert their potential anti-inflammatory action. Since NOD does not have hemodynamic properties, NOD seems to be a promising candidate drug for the treatment of inflammatory diseases.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023820/pdf/?tool=EBI
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