Blanche Collin scite author profile

The objective of this study was to investigate the role of the CeO2 nanoparticle (NP) surface charge and the presence of natural organic matter (NOM) in determining bioavailability and toxicity to the model soil organism Caenorhabditis elegans. We synthesized CeO2-NPs functionalized with positively charged, negatively charged, and neutral coatings. The positively charged CeO2-NPs were significantly more toxic to C. elegans and bioaccumulated to a greater extent than the neutral and negatively charged CeO2-NPs. Surface charge also affected the oxidation state of Ce in C. elegans tissues after uptake. Greater reduction of Ce from Ce (IV) to Ce (III) was found in C. elegans, when exposed to the neutral and negatively charged relative to positively charged CeO2-NPs. The addition of humic acid (HA) to the exposure media significantly decreased the toxicity of CeO2-NPs, and the ratio of CeO2-NPs to HA influenced Ce bioaccumulation. When the concentration of HA was higher than the CeO2-NP concentration, Ce bioaccumulation decreased. These results suggest that the nature of the pristine coatings as a determinant of hazard may be greatly reduced once CeO2-NPs enter the environment and are coated with NOM.

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Impact of sulfidation on the bioavailability and toxicity of silver nanoparticles to Caenorhabditis elegans

Starnes¹,

Unrine²,

Starnes³

et al. 2015

Environmental Pollution

125

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Sulfidation is a major transformation product for manufactured silver nanoparticles (Ag-MNPs) in the wastewater treatment process.We studied the dissolution, uptake, and toxicity of Ag-MNP and sulfidized Ag-MNPs (sAg-MNPs) to a model soil organism, Caenorhabditis elegans. Our results show that reproduction was the most sensitive endpoint tested for both Ag-MNPs and sAg-MNPs. We also demonstrate that sulfidation not only decreases solubility of Ag-MNP, but also reduces the bioavailability of intact sAg-MNP. The relative contribution of released Ag(+) compared to intact particles to toxicity was concentration dependent. At lower total Ag concentration, a greater proportion of the toxicity could be explained by dissolved Ag, whereas at higher total Ag concentration, the toxicity appeared to be dominated by particle specific effects.

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Environmental release, fate and ecotoxicological effects of manufactured ceria nanomaterials

Collin

Auffan

Johnson

et al. 2014

Environ. Sci.: Nano

101

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uses. This has led to a number of publications on the toxicological effects of nanoceria in ecological receptor species, but only limited information is available on possible environmental releases, concentrations in environmental media, or environmental transformations. Increasing material flows of nanoceria in many applications is likely to result in increasing releases to air, water and soils however; insufficient information was available to estimate aquatic exposures that would result in acute or chronic toxicity. The purpose of this review is to identify which areas are lacking in data to perform either regional or site specific ecological risk assessments. While estimates can be made for releases from use as a diesel fuel additive, and predicted toxicity is low in most terrestrial species tested to date, estimates for releases from other uses are difficult at this stage. We

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Increased zinc and copper availability in organic waste amended soil potentially involving distinct release mechanisms

Tella

Bravin

Thuriès

et al. 2016

Environmental Pollution

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Evidence of sulfur-bound reduced copper in bamboo exposed to high silicon and copper concentrations

Collin

Dœlsch

Keller

et al. 2014

Environmental Pollution

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We examined copper (Cu) absorption, distribution and toxicity and the role of a silicon (Si) supplementation in the bamboo Phyllostachys fastuosa. Bamboos were maintained in hydroponics for 4 months and submitted to two different Cu (1.5 and 100 μm Cu(2+)) and Si (0 and 1.1 mM) concentrations. Cu and Si partitioning and Cu speciation were investigated by chemical analysis, microscopic and spectroscopic techniques. Copper was present as Cu(I) and Cu(II) depending on plant parts. Bamboo mainly coped with high Cu exposure by: (i) high Cu sequestration in the root (ii) Cu(II) binding to amino and carboxyl ligands in roots, and (iii) Cu(I) complexation with both organic and inorganic sulfur ligands in stems and leaves. Silicon supplementation decreased the visible damage induced by high Cu exposure and modified Cu speciation in the leaves where a higher proportion of Cu was present as inorganic Cu(I)S compounds, which may be less toxic.

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Effect of natural organic matter on dissolution and toxicity of sulfidized silver nanoparticles to Caenorhabditis elegans

Collin

Tsyusko

Starnes

et al. 2016

Environ. Sci.: Nano

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International audienceThe objectives of this study were to evaluate the effect of natural organic matter (NOM) on the dissolution and the toxicity of sulfidized AgNPs (sAgNPs) to a model soil organism, Caenorhabditis elegans in two distinct exposure media. This study demonstrated that the aggregation and dissolution of sAgNPs (75% Ag2S) was influenced by media composition, including inorganic composition and natural organic matter (NOM) concentration. Dissolution of sAgNPs was low (similar to 0.5%) but increased over time in all tested media (2 weeks). The presence of NOM either inhibited or enhanced Ag dissolution. Pony lake fulvic acid increased while Suwanee river and Pahokee peat fulvic acid (PLFA) decreased release of dissolved Ag from sAgNPs. Mortality of C. elegans exposed to sAgNPs was influenced by the inorganic composition of the media: with LC50 values of 8.15 mg Ag L-1 and > 15 mg Ag L-1 in moderately hard reconstituted water and soil solution pore water. Toxicity was totally rescued by the presence of all tested NOM types and concentrations, despite the increase of dissolved Ag in the media with PLFA. Overall, these results showed that the toxicity induced by a partly sulfidized AgNPs in C. elegans is low and negligible in the presence of NOM regardless of NOM influence on dissolution

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Evidence that Soil Properties and Organic Coating Drive the Phytoavailability of Cerium Oxide Nanoparticles

Layet

Auffan

Santaella

et al. 2017

Environ. Sci. Technol.

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The ISO-standardized RHIZOtest is used here for the first time to decipher how plant species, soil properties, and physical-chemical properties of the nanoparticles and their transformation regulate the phytoavailability of nanoparticles. Two plants, tomato and fescue, were exposed to two soils with contrasted properties: a sandy soil poor in organic matter and a clay soil rich in organic matter, both contaminated with 1, 15, and 50 mg·kg of dissolved Ce(SO), bare and citrate-coated CeO nanoparticles. All the results demonstrate that two antagonistic soil properties controlled Ce uptake. The clay fraction enhanced the retention of the CeO nanoparticles and hence reduced Ce uptake, whereas the organic matter content enhanced Ce uptake. Moreover, in the soil poor in organic matter, the organic citrate coating significantly enhanced the phytoavailability of the cerium by forming smaller aggregates thereby facilitating the transport of nanoparticles to the roots. By getting rid of the dissimilarities between the root systems of the different plants and the normalizing the surfaces exposed to nanoparticles, the RHIZOtest demonstrated that the species of plant did not drive the phytoavailability, and provided evidence for soil-plant transfers at concentrations lower than those usually cited in the literature and closer to predicted environmental concentrations.

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The role of charge in the toxicity of polymer-coated cerium oxide nanomaterials to Caenorhabditis elegans

Arndt

Oostveen

Triplett

et al. 2017

Comparative Biochemistry and Physiology Part C: Toxicology &

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This study examined the impact of surface functionalization and charge on ceria nanomaterial toxicity to Caenorhabditis elegans. The examined endpoints included mortality, reproduction, protein expression, and protein oxidation profiles. Caenorhabditis elegans were exposed to identical 2-5nm ceria nanomaterial cores which were coated with cationic (diethylaminoethyl dextran; DEAE), anionic (carboxymethyl dextran; CM), and non-ionic (dextran; DEX) polymers. Mortality and reproductive toxicity of DEAE-CeO was approximately two orders of magnitude higher than for CM-CeO or DEX-CeO. Two-dimensional gel electrophoresis with orbitrap mass spectrometry identification revealed changes in the expression profiles of several mitochondrial-related proteins and proteins that are expressed in the C. elegans intestine. However, each type of CeO material exhibited a distinct protein expression profile. Increases in protein carbonyls and protein-bound 3-nitrotyrosine were also observed for some proteins, indicating oxidative and nitrosative damage. Taken together the results indicate that the magnitude of toxicity and toxicity pathways vary greatly due to surface functionalization of CeO nanomaterials.

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Blanche Collin

Influence of Natural Organic Matter and Surface Charge on the Toxicity and Bioaccumulation of Functionalized Ceria Nanoparticles in Caenorhabditis elegans

Impact of sulfidation on the bioavailability and toxicity of silver nanoparticles to Caenorhabditis elegans

Environmental release, fate and ecotoxicological effects of manufactured ceria nanomaterials

Increased zinc and copper availability in organic waste amended soil potentially involving distinct release mechanisms

Evidence of sulfur-bound reduced copper in bamboo exposed to high silicon and copper concentrations

Effect of natural organic matter on dissolution and toxicity of sulfidized silver nanoparticles to Caenorhabditis elegans

Evidence that Soil Properties and Organic Coating Drive the Phytoavailability of Cerium Oxide Nanoparticles

The role of charge in the toxicity of polymer-coated cerium oxide nanomaterials to Caenorhabditis elegans

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