Impact of labile metal nanoparticles on cellular homeostasis. Current developments in imaging, synthesis and applications

The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo. In...

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Published inBiochimica et biophysica acta. General subjects Vol. 1861; no. 6; pp. 1566 - 1577
Main Authors Chevallet, Mireille, Veronesi, Giulia, Fuchs, Alexandra, Mintz, Elisabeth, Michaud-Soret, Isabelle, Deniaud, Aurélien
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.06.2017
Elsevier
Subjects
Animals
biochemical compounds
Biochemistry, Molecular Biology
Biological Assay
Biophysics
Cell Biology
Cell Line
Cellular Biology
Copper
Copper - chemistry
Copper - toxicity
cosmetics
cupric oxide
electronics
food additives
Homeostasis
Humans
image analysis
inflammation
Inflammation - chemically induced
Inflammation - metabolism
Labile metal nanoparticles
Life Sciences
Metal homeostasis
metal ions
Metal Nanoparticles - chemistry
Metal Nanoparticles - toxicity
Microscopy, Fluorescence - methods
nanoparticles
Nanotechnology - methods
Oxidation-Reduction
Particle Size
physiological response
Risk Assessment
scientists
Silver
Silver Compounds - chemistry
Silver Compounds - toxicity
therapeutics
toxicity
Toxicity Tests
Toxicology
X-ray fluorescence microscopy
Zinc
zinc oxide
Zinc Oxide - chemistry
Zinc Oxide - toxicity
Labile metal nanoparticles
Silver
X-ray fluorescence microscopy
Copper
Metal homeostasis
Zinc
Online AccessGet full text
ISSN0304-4165
1872-8006
DOI10.1016/j.bbagen.2016.12.012

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Abstract The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo. In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs. Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity. The exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context. •Labile metal nanoparticles release ions in biological media.•Labile metal NPs induce inflammation and metal homeostasis disruption.•CuO- and ZnO-NP exposure trigger physiological detoxifying mechanisms.•Synchrotron-based methods enable to follow the distribution of both ions and NPs.•Safer-by-design labile metal NPs are in progress for nanomedicine applications.
AbstractList The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo. In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs. Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity. The exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context.
The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo.In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs.Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity.The exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context.
BACKGROUND:The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo.SCOPE OF REVIEW:In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs.MAJOR CONCLUSIONS:Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity.
The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo.BACKGROUNDThe use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo.In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs.SCOPE OF REVIEWIn this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs.Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity.MAJOR CONCLUSIONSLabile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity.The exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context.GENERAL SIGNIFICANCEThe exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context.
The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as theranostics, bio-imaging and therapeutics. However their safety raises concerns and requires appropriate methods to analyze their fate in vivo. In this review, we describe the current knowledge about the toxicity of labile metal (ZnO, CuO and Ag) nanoparticles (NPs) both at the organism and cellular levels, and describe the pathways that are triggered to maintain cellular homeostasis. We also describe advanced elemental imaging approaches to analyze intracellular NP fate. Finally, we open the discussion by presenting recent developments in terms of synthesis and applications of Ag and CuO NPs. Labile metal nanoparticles (MeNPs) release metal ions that trigger a cellular response involving biomolecules binding to the ions followed by regulation of the redox balance. In addition, specific mechanisms are set up by the cell in response to physiological ions such as Cu(I) and Zn(II). Among all types of NPs, labile MeNPs induce the strongest inflammatory responses which are most probably due to the combined effects of the NPs and of its released ions. Interestingly, recent developments in imaging technologies enable the intracellular visualization of both the NPs and their ions and promise new insights into nanoparticle fate and toxicity. The exponential use of nanotechnologies associated with the difficulties of assessing their impact on health and the environment has prompted scientists to develop novel methodologies to characterize these nanoobjects in a biological context. •Labile metal nanoparticles release ions in biological media.•Labile metal NPs induce inflammation and metal homeostasis disruption.•CuO- and ZnO-NP exposure trigger physiological detoxifying mechanisms.•Synchrotron-based methods enable to follow the distribution of both ions and NPs.•Safer-by-design labile metal NPs are in progress for nanomedicine applications.
Author Deniaud, Aurélien
Mintz, Elisabeth
Veronesi, Giulia
Michaud-Soret, Isabelle
Chevallet, Mireille
Fuchs, Alexandra
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  fullname: Deniaud, Aurélien
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Issue 6
Keywords Labile metal nanoparticles
Silver
X-ray fluorescence microscopy
Copper
Metal homeostasis
Zinc
Language English
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elsevier_sciencedirect_doi_10_1016_j_bbagen_2016_12_012
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AAYXX
PublicationCentury 2000
PublicationDate 2017-06-01
PublicationDateYYYYMMDD 2017-06-01
PublicationDate_xml – month: 06
  year: 2017
  text: 2017-06-01
  day: 01
PublicationDecade 2010
PublicationPlace Netherlands
PublicationPlace_xml – name: Netherlands
PublicationTitle Biochimica et biophysica acta. General subjects
PublicationTitleAlternate Biochim Biophys Acta Gen Subj
PublicationYear 2017
Publisher Elsevier B.V
Elsevier
Publisher_xml – name: Elsevier B.V
– name: Elsevier
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Kuppusamy (10.1016/j.bbagen.2016.12.012_bb0585) 2016; 24
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Snippet The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications such as...
BACKGROUND:The use of nanomaterials is constantly increasing in electronics, cosmetics, food additives, and is emerging in advanced biomedical applications...
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SubjectTerms Animals
biochemical compounds
Biochemistry, Molecular Biology
Biological Assay
Biophysics
Cell Biology
Cell Line
Cellular Biology
Copper
Copper - chemistry
Copper - toxicity
cosmetics
cupric oxide
electronics
food additives
Homeostasis
Humans
image analysis
inflammation
Inflammation - chemically induced
Inflammation - metabolism
Labile metal nanoparticles
Life Sciences
Metal homeostasis
metal ions
Metal Nanoparticles - chemistry
Metal Nanoparticles - toxicity
Microscopy, Fluorescence - methods
nanoparticles
Nanotechnology - methods
Oxidation-Reduction
Particle Size
physiological response
Risk Assessment
scientists
Silver
Silver Compounds - chemistry
Silver Compounds - toxicity
therapeutics
toxicity
Toxicity Tests
Toxicology
X-ray fluorescence microscopy
Zinc
zinc oxide
Zinc Oxide - chemistry
Zinc Oxide - toxicity
Title Impact of labile metal nanoparticles on cellular homeostasis. Current developments in imaging, synthesis and applications
URI https://dx.doi.org/10.1016/j.bbagen.2016.12.012
https://www.ncbi.nlm.nih.gov/pubmed/27993661
https://www.proquest.com/docview/1851297851
https://www.proquest.com/docview/2000200997
https://hal.science/hal-01449332
Volume 1861
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