Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.

Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.

The potential effects of non-ionizing electromagnetic fields (EMFs), such as those emitted by power-lines (in extremely low frequency range), mobile cellular systems and wireless networking devices (in radio frequency range) on human health have been intensively researched and debated. However, how...

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Main Authors: Arnold Kuzniar, Charlie Laffeber, Berina Eppink, Karel Bezstarosti, Dick Dekkers, Henri Woelders, A Peter M Zwamborn, Jeroen Demmers, Joyce H G Lebbink, Roland Kanaar
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5325209?pdf=render
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spelling doaj-e456a0d28a134422a0d97699c342f7672020-11-25T02:13:29ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01122e017076210.1371/journal.pone.0170762Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.Arnold KuzniarCharlie LaffeberBerina EppinkKarel BezstarostiDick DekkersHenri WoeldersA Peter M ZwambornJeroen DemmersJoyce H G LebbinkRoland KanaarThe potential effects of non-ionizing electromagnetic fields (EMFs), such as those emitted by power-lines (in extremely low frequency range), mobile cellular systems and wireless networking devices (in radio frequency range) on human health have been intensively researched and debated. However, how exposure to these EMFs may lead to biological changes underlying possible health effects is still unclear. To reveal EMF-induced molecular changes, unbiased experiments (without a priori focusing on specific biological processes) with sensitive readouts are required. We present the first proteome-wide semi-quantitative mass spectrometry analysis of human fibroblasts, osteosarcomas and mouse embryonic stem cells exposed to three types of non-ionizing EMFs (ELF 50 Hz, UMTS 2.1 GHz and WiFi 5.8 GHz). We performed controlled in vitro EMF exposures of metabolically labeled mammalian cells followed by reliable statistical analyses of differential protein- and pathway-level regulations using an array of established bioinformatics methods. Our results indicate that less than 1% of the quantitated human or mouse proteome responds to the EMFs by small changes in protein abundance. Further network-based analysis of the differentially regulated proteins did not detect significantly perturbed cellular processes or pathways in human and mouse cells in response to ELF, UMTS or WiFi exposure. In conclusion, our extensive bioinformatics analyses of semi-quantitative mass spectrometry data do not support the notion that the short-time exposures to non-ionizing EMFs have a consistent biologically significant bearing on mammalian cells in culture.http://europepmc.org/articles/PMC5325209?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Arnold Kuzniar
Charlie Laffeber
Berina Eppink
Karel Bezstarosti
Dick Dekkers
Henri Woelders
A Peter M Zwamborn
Jeroen Demmers
Joyce H G Lebbink
Roland Kanaar
spellingShingle Arnold Kuzniar
Charlie Laffeber
Berina Eppink
Karel Bezstarosti
Dick Dekkers
Henri Woelders
A Peter M Zwamborn
Jeroen Demmers
Joyce H G Lebbink
Roland Kanaar
Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
PLoS ONE
author_facet Arnold Kuzniar
Charlie Laffeber
Berina Eppink
Karel Bezstarosti
Dick Dekkers
Henri Woelders
A Peter M Zwamborn
Jeroen Demmers
Joyce H G Lebbink
Roland Kanaar
author_sort Arnold Kuzniar
title Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
title_short Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
title_full Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
title_fullStr Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
title_full_unstemmed Semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
title_sort semi-quantitative proteomics of mammalian cells upon short-term exposure to non-ionizing electromagnetic fields.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description The potential effects of non-ionizing electromagnetic fields (EMFs), such as those emitted by power-lines (in extremely low frequency range), mobile cellular systems and wireless networking devices (in radio frequency range) on human health have been intensively researched and debated. However, how exposure to these EMFs may lead to biological changes underlying possible health effects is still unclear. To reveal EMF-induced molecular changes, unbiased experiments (without a priori focusing on specific biological processes) with sensitive readouts are required. We present the first proteome-wide semi-quantitative mass spectrometry analysis of human fibroblasts, osteosarcomas and mouse embryonic stem cells exposed to three types of non-ionizing EMFs (ELF 50 Hz, UMTS 2.1 GHz and WiFi 5.8 GHz). We performed controlled in vitro EMF exposures of metabolically labeled mammalian cells followed by reliable statistical analyses of differential protein- and pathway-level regulations using an array of established bioinformatics methods. Our results indicate that less than 1% of the quantitated human or mouse proteome responds to the EMFs by small changes in protein abundance. Further network-based analysis of the differentially regulated proteins did not detect significantly perturbed cellular processes or pathways in human and mouse cells in response to ELF, UMTS or WiFi exposure. In conclusion, our extensive bioinformatics analyses of semi-quantitative mass spectrometry data do not support the notion that the short-time exposures to non-ionizing EMFs have a consistent biologically significant bearing on mammalian cells in culture.
url http://europepmc.org/articles/PMC5325209?pdf=render
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