A redox proteomics approach to investigate the mode of action of nanomaterials

Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable for high throughput screening and prioritization are urgently needed to ensure a fast and effective development of safe products. In paralle...

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Published inToxicology and applied pharmacology Vol. 299; pp. 24 - 29
Main Authors Riebeling, Christian, Wiemann, Martin, Schnekenburger, Jürgen, Kuhlbusch, Thomas A.J., Wohlleben, Wendel, Luch, Andreas, Haase, Andrea
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 15.05.2016
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Abstract Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable for high throughput screening and prioritization are urgently needed to ensure a fast and effective development of safe products. In parallel, extensive research efforts are targeted to understanding modes of action of ENMs, which may also support the development of new predictive assays. Oxidative stress is a widely accepted paradigm associated with different adverse outcomes of ENMs. It has frequently been identified in in vitro and in vivo studies and different assays have been developed for this purpose. Fluorescent dye based read-outs are most frequently used for cell testing in vitro but may be limited due to possible interference of the ENMs. Recently, other assays have been put forward such as acellular determination of ROS production potential using methods like electron spin resonance, antioxidant quantification or the use of specific sensors. In addition, Omics based approaches have gained increasing attention. In particular, redox proteomics can combine the assessment of oxidative stress with the advantage of getting more detailed mechanistic information. Here we propose a comprehensive testing strategy for assessing the oxidative stress potential of ENMs, which combines acellular methods and fast in vitro screening approaches, as well as a more involved detailed redox proteomics approach. This allows for screening and prioritization in a first tier and, if required, also for unraveling mechanistic details down to compromised signaling pathways. •Oxidative stress is a general paradigm for nanomaterial hazard mechanism of action.•Reactive oxygen species generation can be predicted using acellular assays.•Cellular assays based on fluorescence suffer from interference by nanomaterials.•Protein carbonylation is an irreversible and predictive mark of oxidative stress.•Proteomics of carbonylation indicates affected pathways and mechanism of action.
AbstractList Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable for high throughput screening and prioritization are urgently needed to ensure a fast and effective development of safe products. In parallel, extensive research efforts are targeted to understanding modes of action of ENMs, which may also support the development of new predictive assays. Oxidative stress is a widely accepted paradigm associated with different adverse outcomes of ENMs. It has frequently been identified in in vitro and in vivo studies and different assays have been developed for this purpose. Fluorescent dye based read-outs are most frequently used for cell testing in vitro but may be limited due to possible interference of the ENMs. Recently, other assays have been put forward such as acellular determination of ROS production potential using methods like electron spin resonance, antioxidant quantification or the use of specific sensors. In addition, Omics based approaches have gained increasing attention. In particular, redox proteomics can combine the assessment of oxidative stress with the advantage of getting more detailed mechanistic information. Here we propose a comprehensive testing strategy for assessing the oxidative stress potential of ENMs, which combines acellular methods and fast in vitro screening approaches, as well as a more involved detailed redox proteomics approach. This allows for screening and prioritization in a first tier and, if required, also for unraveling mechanistic details down to compromised signaling pathways. •Oxidative stress is a general paradigm for nanomaterial hazard mechanism of action.•Reactive oxygen species generation can be predicted using acellular assays.•Cellular assays based on fluorescence suffer from interference by nanomaterials.•Protein carbonylation is an irreversible and predictive mark of oxidative stress.•Proteomics of carbonylation indicates affected pathways and mechanism of action.
Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable for high throughput screening and prioritization are urgently needed to ensure a fast and effective development of safe products. In parallel, extensive research efforts are targeted to understanding modes of action of ENMs, which may also support the development of new predictive assays. Oxidative stress is a widely accepted paradigm associated with different adverse outcomes of ENMs. It has frequently been identified in in vitro and in vivo studies and different assays have been developed for this purpose. Fluorescent dye based read-outs are most frequently used for cell testing in vitro but may be limited due to possible interference of the ENMs. Recently, other assays have been put forward such as acellular determination of ROS production potential using methods like electron spin resonance, antioxidant quantification or the use of specific sensors. In addition, Omics based approaches have gained increasing attention. In particular, redox proteomics can combine the assessment of oxidative stress with the advantage of getting more detailed mechanistic information. Here we propose a comprehensive testing strategy for assessing the oxidative stress potential of ENMs, which combines acellular methods and fast in vitro screening approaches, as well as a more involved detailed redox proteomics approach. This allows for screening and prioritization in a first tier and, if required, also for unraveling mechanistic details down to compromised signaling pathways.
Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable for high throughput screening and prioritization are urgently needed to ensure a fast and effective development of safe products. In parallel, extensive research efforts are targeted to understanding modes of action of ENMs, which may also support the development of new predictive assays. Oxidative stress is a widely accepted paradigm associated with different adverse outcomes of ENMs. It has frequently been identified in in vitro and in vivo studies and different assays have been developed for this purpose. Fluorescent dye based read-outs are most frequently used for cell testing in vitro but may be limited due to possible interference of the ENMs. Recently, other assays have been put forward such as acellular determination of ROS production potential using methods like electron spin resonance, antioxidant quantification or the use of specific sensors. In addition, Omics based approaches have gained increasing attention. In particular, redox proteomics can combine the assessment of oxidative stress with the advantage of getting more detailed mechanistic information. Here we propose a comprehensive testing strategy for assessing the oxidative stress potential of ENMs, which combines acellular methods and fast in vitro screening approaches, as well as a more involved detailed redox proteomics approach. This allows for screening and prioritization in a first tier and, if required, also for unraveling mechanistic details down to compromised signaling pathways. - Highlights: • Oxidative stress is a general paradigm for nanomaterial hazard mechanism of action. • Reactive oxygen species generation can be predicted using acellular assays. • Cellular assays based on fluorescence suffer from interference by nanomaterials. • Protein carbonylation is an irreversible and predictive mark of oxidative stress. • Proteomics of carbonylation indicates affected pathways and mechanism of action.
Author Schnekenburger, Jürgen
Haase, Andrea
Riebeling, Christian
Wohlleben, Wendel
Luch, Andreas
Wiemann, Martin
Kuhlbusch, Thomas A.J.
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  givenname: Andrea
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Keywords Toxicity mechanisms
Oxidative stress
Acellular tests
Protein carbonylation
Proteomics
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Snippet Numbers of engineered nanomaterials (ENMs) are steadily increasing. Therefore, alternative testing approaches with reduced costs and high predictivity suitable...
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SubjectTerms 60 APPLIED LIFE SCIENCES
Acellular tests
ANTIOXIDANTS
BIOLOGICAL STRESS
CARBONYLATION
Chemical Engineering - methods
ELECTRON SPIN RESONANCE
FLUORESCENCE
IN VITRO
IN VIVO
NANOMATERIALS
Nanostructures - chemistry
Nanostructures - toxicity
OXIDATION
Oxidation-Reduction
Oxidative stress
Oxidative Stress - drug effects
Oxidative Stress - physiology
Protein carbonylation
PROTEINS
Proteomics
Proteomics - methods
Reactive Oxygen Species - metabolism
READOUT SYSTEMS
SCREENING
Toxicity mechanisms
Title A redox proteomics approach to investigate the mode of action of nanomaterials
URI https://dx.doi.org/10.1016/j.taap.2016.01.019
https://www.ncbi.nlm.nih.gov/pubmed/26827820
https://search.proquest.com/docview/1785241660
https://www.osti.gov/biblio/22687943
Volume 299
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