M.J.C. van der Ploeg scite author profile

The impact of silver nanoparticles (AgNP; at 0 mg Ag/kg, 1.5 mg Ag/kg, 15.4 mg Ag/kg, and 154 mg Ag/kg soil) and silver nitrate (AgNO3 ; 15.4 mg Ag/kg soil) on earthworms, Lumbricus rubellus, was assessed. A 4-wk exposure to the highest AgNP treatment reduced growth and reproduction compared with the control. Silver nitrate (AgNO3 ) exposure also impaired reproduction, but not as much as the highest AgNP treatment. Long-term exposure to the highest AgNP treatment caused complete juvenile mortality. All AgNP treatments induced tissue pathology. Population modeling demonstrated reduced population growth rates for the AgNP and AgNO3 treatments, and no population growth at the highest AgNP treatment because of juvenile mortality. Analysis of AgNP treated soil samples revealed that single AgNP and AgNP clusters were present in the soil, and that the total Ag in soil porewater remained high throughout the long-term experiment. In addition, immune cells (coelomocytes) of earthworms showed sensitivity to both AgNP and AgNO3 in vitro. Overall, the present study indicates that AgNP exposure may affect earthworm populations and that the exposure may be prolonged because of the release of a dissolved Ag fraction to soil porewater.

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Effects of C 60 nanoparticle exposure on earthworms ( Lumbricus rubellus ) and implications for population dynamics

Ploeg

Baveco

Hout

et al. 2011

Environmental Pollution

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C₆₀exposure induced tissue damage and gene expression alterations in the earthwormLumbricus rubellus

et al. 2012

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Effects of C₆₀ exposure (0, 15 or 154 mg/kg soil) on the earthworm Lumbricus rubellus were assessed at the tissue and molecular level, in two experiments. In the first experiment, earthworms were exposed for four weeks, and in the second lifelong. In both experiments, gene expression of heat shock protein 70 (HSP70) decreased. For catalase and glutathione-S-transferase (GST), no significant trends in gene expression or enzyme activity were observed. Gene expression of coelomic cytolytic factor-1 (CCF-1) did not alter in earthworms exposed for four weeks, but was significantly down-regulated in the lifelong exposure. Histology of earthworms exposed to C₆₀ in both experiments showed a damaged cuticle, with underlying pathologies of epidermis and muscles, as well as effects on the gut barrier. However, tissue repair was also observed in these earthworms. Overall, these data show that sub-lethal C₆₀ exposure to earthworms via the soil affects gene expression and causes tissue pathologies.

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In vitronanoparticle toxicity to rat alveolar cells and coelomocytes from the earthwormLumbricus rubellus

et al. 2012

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Sensitivity of immune cells (coelomocytes) of Lumbricus rubellus earthworms was investigated for exposure to selected nanoparticles, in order to obtain further insight in mechanisms of effects observed after in vivo C60 exposure. In the in vivo study, tissue damage appeared to occur without accompanying increased immune responses. Coelomocytes exposed in vitro to C60 showed no decrease of their cellular viability, but demonstrated a decrease in gene expression of the cytokine-like protein CCF-1, indicating immunosuppression. Experiments with NR8383 rat macrophage cells and tri-block copolymer nanoparticles were used to compare sensitivity and to demonstrate the usefulness of coelomocytes as a test system for nano-immunotoxicity, respectively. Overall, the results imply that sensitivity towards nanoparticles differs between cell types and nanoparticles. Moreover, this study indicates that injuries in absence of an immune response, observed after in vivo C60 exposure in our earlier work, are caused by immunosuppression rather than coelomocyte mortality.

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Regulatory developments and their impacts to the nano-industry: A case study for nano-additives in 3D printing

Taylor

Freeman

Ploeg³

2021

Ecotoxicology and Environmental Safety

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M.J.C. van der Ploeg

Effects of silver nanoparticles (NM‐300K) onLumbricus rubellusearthworms and particle characterization in relevant test matrices including soil

Effects of C 60 nanoparticle exposure on earthworms ( Lumbricus rubellus ) and implications for population dynamics

C₆₀exposure induced tissue damage and gene expression alterations in the earthwormLumbricus rubellus

In vitronanoparticle toxicity to rat alveolar cells and coelomocytes from the earthwormLumbricus rubellus

Regulatory developments and their impacts to the nano-industry: A case study for nano-additives in 3D printing

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M.J.C. van der Ploeg

Effects of silver nanoparticles (NM‐300K) onLumbricus rubellusearthworms and particle characterization in relevant test matrices including soil

Effects of C 60 nanoparticle exposure on earthworms ( Lumbricus rubellus ) and implications for population dynamics

C60exposure induced tissue damage and gene expression alterations in the earthwormLumbricus rubellus

In vitronanoparticle toxicity to rat alveolar cells and coelomocytes from the earthwormLumbricus rubellus

Regulatory developments and their impacts to the nano-industry: A case study for nano-additives in 3D printing

Contact Info

Product

Resources

About

C₆₀exposure induced tissue damage and gene expression alterations in the earthwormLumbricus rubellus