Your search keyword '"Zhao, Jiayuan"' showing total 6 results

1. Journal of Nanobiotechnology / The oxidative potential of differently charged silver and gold nanoparticles on three human lung epithelial cell types

Author

Schlinker, Paul, Casals, Eudald, Boyles, Matthew, Tischler, Ulrike, Hornig, Eva, Tran, Ngoc, Zhao, Jiayuan, Himly, Martin, Riediker, Michael, Janneke Oostingh, Gertie, Puntes, Victor, and Duschl, Albert

Subjects

Surface_charge, Human_lung_epithelial_cells, ROS_production, Cytotoxicity, Nanoparticles, respiratory system

Abstract

Background: Nanoparticle (NPs) functionalization has been shown to affect their cellular toxicity. To study this, differently functionalized silver (Ag) and gold (Au) NPs were synthesised, characterised and tested using lung epithelial cell systems. Methods: Monodispersed Ag and Au NPs with a size range of 7 to 10 nm were coated with either sodium citrate or chitosan resulting in surface charges from 50 mV to +70 mV. NP-induced cytotoxicity and oxidative stress were determined using A549 cells, BEAS-2B cells and primary lung epithelial cells (NHBE cells). TEER measurements and immunofluorescence staining of tight junctions were performed to test the growth characteristics of the cells. Cytotoxicity was measured by means of the CellTiter-Blue ® and the lactate dehydrogenase assay and cellular and cell-free reactive oxygen species (ROS) production was measured using the DCFH-DA assay. Results: Different growth characteristics were shown in the three cell types used. A549 cells grew into a confluent mono-layer, BEAS-2B cells grew into a multilayer and NHBE cells did not form a confluent layer. A549 cells were least susceptible towards NPs, irrespective of the NP functionalization. Cytotoxicity in BEAS-2B cells increased when exposed to high positive charged (+65-75 mV) Au NPs. The greatest cytotoxicity was observed in NHBE cells, where both Ag and Au NPs with a charge above +40 mV induced cytotoxicity. ROS production was most prominent in A549 cells where Au NPs (+65-75 mV) induced the highest amount of ROS. In addition, cell-free ROS measurements showed a significant increase in ROS production with an increase in chitosan coating. Conclusions: Chitosan functionalization of NPs, with resultant high surface charges plays an important role in NP-toxicity. Au NPs, which have been shown to be inert and often non-cytotoxic, can become toxic upon coating with certain charged molecules. Notably, these effects are dependent on the core material of the particle, the cell type used for testing and the growth characteristics of these cell culture model systems. (VLID)1568041

Published

2015

2. Characterization of tungsten inert gas (TIG) welding fume generated by apprentice welders and resulting oxidative stress biomarker analysis

Author

Graczyk, Halshka, Lewinski, Nastassja, Zhao, Jiayuan, Concha-Lozano, Nicolas, and Riediker, Michael

Subjects

Nanoparticles, Tungsten, Welding, Noble Gases, Workplace, Air, Occupational Health

Published

2015

3. How differently charged nanoparticles affect the human lung epithelium: a comparative study in three different cell types

Author

Schlinkert Paul, Erol, Casals, Eudald, Boyles, Matthew, Tischler, Ulrike, Hornig, Eva, Tran, Ngoc, Zhao, Jiayuan, Oostingh, Janneke, Himly, Martin, Riediker, Michael, Puntes, Victor, and Duschl, Albert

Subjects

Reactive Oxygen Species, Nanoparticles, Oxidative Stress, Fluoresceins, Environmental Exposure, Environmental Health

Published

2014

4. Dynamic coating system to modify nanoparticle surface function and reactive oxygen species generation

Author

Zhao, Jiayuan, Guillaume Suarez, Salvati, Anna, and Riediker, Michael

Subjects

Reactive Oxygen Species, Nanoparticles, Oxidative Stress, Fluoresceins, Environmental Exposure, Environmental Health

Published

2014

5. The oxidative potential of differently charged silver and gold nanoparticles on three human lung epithelial cell types.

Author

Schlinkert, Paul, Casals, Eudald, Boyles, Matthew, Tischler, Ulrike, Hornig, Eva, Tran, Ngoc, Zhao, Jiayuan, Himly, Martin, Riediker, Michael, Oostingh, Gertie Janneke, Puntes, Victor, and Dusch, Albert

Subjects

SILVER nanoparticles, NANOSTRUCTURED materials synthesis, GOLD nanoparticle synthesis, CHITOSAN, OXIDATIVE stress, IMMUNOFLUORESCENCE

Abstract

Background: Nanoparticle (NPs) functionalization has been shown to affect their cellular toxicity. To study this, differently functionalized silver (Ag) and gold (Au) NPs were synthesised, characterised and tested using lung epithelial cell systems. Methods: Monodispersed Ag and Au NPs with a size range of 7 to 10 nm were coated with either sodium citrate or chitosan resulting in surface charges from -50 mV to +70 mV. NP-induced cytotoxicity and oxidative stress were determined using A549 cells, BEAS-2B cells and primary lung epithelial cells (NHBE cells). TEER measurements and immunofluorescence staining of tight junctions were performed to test the growth characteristics of the cells. Cytotoxicity was measured by means of the CellTiter-Blue ® and the lactate dehydrogenase assay and cellular and cell-free reactive oxygen species (ROS) production was measured using the DCFH-DA assay. Results: Different growth characteristics were shown in the three cell types used. A549 cells grew into a confluent mono-layer, BEAS-2B cells grew into a multilayer and NHBE cells did not form a confluent layer. A549 cells were least susceptible towards NPs, irrespective of the NP functionalization. Cytotoxicity in BEAS-2B cells increased when exposed to high positive charged (+65-75 mV) Au NPs. The greatest cytotoxicity was observed in NHBE cells, where both Ag and Au NPs with a charge above +40 mV induced cytotoxicity. ROS production was most prominent in A549 cells where Au NPs (+65-75 mV) induced the highest amount of ROS. In addition, cell-free ROS measurements showed a significant increase in ROS production with an increase in chitosan coating. Conclusions: Chitosan functionalization of NPs, with resultant high surface charges plays an important role in NP-toxicity. Au NPs, which have been shown to be inert and often non-cytotoxic, can become toxic upon coating with certain charged molecules. Notably, these effects are dependent on the core material of the particle, the cell type used for testing and the growth characteristics of these cell culture model systems. [ABSTRACT FROM AUTHOR]

Published

2015

6. Detecting the oxidative reactivity of nanoparticles: a new protocol for reducing artifacts.

Author

Zhao, Jiayuan and Riediker, Michael

Subjects

*NANOPARTICLES, *OXIDATION, *REACTIVITY (Chemistry), *FLUORESCEIN, *REACTIVE oxygen species, *FLUORESCENT probes

Abstract

Understanding the oxidative reactivity of nanoparticles (NPs; <100 nm) could substantially contribute to explaining their toxicity. We attempted to refine the use of 2′7-dichlorodihydrofluorescein (DCFH) to characterize NP generation of reactive oxygen species (ROS). Several fluorescent probes have been applied to testing oxidative reactivity, but despite DCFH being one of the most popular for the detection of ROS, when it has been applied to NPs there have been an unexplainably wide variability in results. Without a uniform methodology, validating even robust results is impossible. This study, therefore, identified sources of conflicting results and investigated ways of reducing occurrence of artificial results. Existing techniques were tested and combined (using their most desirable features) to form a more reliable method for the measurement of NP reactivity in aqueous dispersions. We also investigated suitable sample ranges necessary to determine generation of ROS. Specifically, ultrafiltration and time-resolved scan absorbance spectra were used to study possible optical interference when using high sample concentrations. Robust results were achieved at a 5 µM DCFH working solution with 0.5 unit/mL horseradish peroxidase (HRP) dissolved in ethanol. Sonication in DCFH-HRP working solution provided more stable data with a relatively clean background. Optimal particle concentration depends on the type of NP and in general was in the µg/mL range. Major reasons for previously reported conflicting results due to interference were different experimental approaches and NP sample concentrations. The protocol presented here could form the basis of a standardized method for applying DCFH to detect generation of ROS by NPs. [ABSTRACT FROM AUTHOR]

Published

2014