A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro

To establish a relevant in vitro model for systems toxicology-based mechanistic assessment of environmental stressors such as cigarette smoke (CS), we exposed human organotypic bronchial epithelial tissue cultures at the air liquid interface (ALI) to various CS doses. Previously, we compared in vitr...

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Autores principales: Mathis, Carole, Gebel, Stephan, Poussin, Carine, Belcastro, Vincenzo, Sewer, Alain, Weisensee, Dirk, Hengstermann, Arnd, Ansari, Sam, Wagner, Sandra, Peitsch, Manuel C, Hoeng, Julia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Libertas Academica 2015
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4357630/
https://www.ncbi.nlm.nih.gov/pubmed/25788831
http://dx.doi.org/10.4137/BBI.S19908
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author Mathis, Carole
Gebel, Stephan
Poussin, Carine
Belcastro, Vincenzo
Sewer, Alain
Weisensee, Dirk
Hengstermann, Arnd
Ansari, Sam
Wagner, Sandra
Peitsch, Manuel C
Hoeng, Julia
author_facet Mathis, Carole
Gebel, Stephan
Poussin, Carine
Belcastro, Vincenzo
Sewer, Alain
Weisensee, Dirk
Hengstermann, Arnd
Ansari, Sam
Wagner, Sandra
Peitsch, Manuel C
Hoeng, Julia
author_sort Mathis, Carole
collection PubMed
description To establish a relevant in vitro model for systems toxicology-based mechanistic assessment of environmental stressors such as cigarette smoke (CS), we exposed human organotypic bronchial epithelial tissue cultures at the air liquid interface (ALI) to various CS doses. Previously, we compared in vitro gene expression changes with published human airway epithelia in vivo data to assess their similarities. Here, we present a follow-up evaluation of these in vitro transcriptomics data, using complementary computational approaches and an integrated mRNA–microRNA (miRNA) analysis. The main cellular pathways perturbed by CS exposure were related to stress responses (oxidative stress and xenobiotic metabolism), inflammation (inhibition of nuclear factor-κB and the interferon gamma-dependent pathway), and proliferation/differentiation. Within post-exposure periods up to 48 hours, a transient kinetic response was observed at lower CS doses, whereas higher doses resulted in more sustained responses. In conclusion, this systems toxicology approach has potential for product testing according to “21st Century Toxicology”.
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spelling pubmed-43576302015-03-18 A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro Mathis, Carole Gebel, Stephan Poussin, Carine Belcastro, Vincenzo Sewer, Alain Weisensee, Dirk Hengstermann, Arnd Ansari, Sam Wagner, Sandra Peitsch, Manuel C Hoeng, Julia Bioinform Biol Insights Original Research To establish a relevant in vitro model for systems toxicology-based mechanistic assessment of environmental stressors such as cigarette smoke (CS), we exposed human organotypic bronchial epithelial tissue cultures at the air liquid interface (ALI) to various CS doses. Previously, we compared in vitro gene expression changes with published human airway epithelia in vivo data to assess their similarities. Here, we present a follow-up evaluation of these in vitro transcriptomics data, using complementary computational approaches and an integrated mRNA–microRNA (miRNA) analysis. The main cellular pathways perturbed by CS exposure were related to stress responses (oxidative stress and xenobiotic metabolism), inflammation (inhibition of nuclear factor-κB and the interferon gamma-dependent pathway), and proliferation/differentiation. Within post-exposure periods up to 48 hours, a transient kinetic response was observed at lower CS doses, whereas higher doses resulted in more sustained responses. In conclusion, this systems toxicology approach has potential for product testing according to “21st Century Toxicology”. Libertas Academica 2015-03-09 /pmc/articles/PMC4357630/ /pubmed/25788831 http://dx.doi.org/10.4137/BBI.S19908 Text en © 2015 the author(s), publisher and licensee Libertas Academica Ltd. This is an open-access article distributed under the terms of the Creative Commons CC-BY-NC 3.0 License.
spellingShingle Original Research
Mathis, Carole
Gebel, Stephan
Poussin, Carine
Belcastro, Vincenzo
Sewer, Alain
Weisensee, Dirk
Hengstermann, Arnd
Ansari, Sam
Wagner, Sandra
Peitsch, Manuel C
Hoeng, Julia
A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title_full A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title_fullStr A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title_full_unstemmed A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title_short A Systems Biology Approach Reveals the Dose- and Time-Dependent Effect of Primary Human Airway Epithelium Tissue Culture After Exposure to Cigarette Smoke In Vitro
title_sort systems biology approach reveals the dose- and time-dependent effect of primary human airway epithelium tissue culture after exposure to cigarette smoke in vitro
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4357630/
https://www.ncbi.nlm.nih.gov/pubmed/25788831
http://dx.doi.org/10.4137/BBI.S19908
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