%0 Journal Article %1 Kawata2009 %A Kawata, Koji %A Osawa, Masato %A Okabe, Satoshi %D 2009 %J Environmental Science and Technology %K %N 15 %P 6046–6051 %R 10.1021/es900754q %T In Vitro Toxicity of Silver Nanoparticles at Noncytotoxic Doses to HepG2 Human Hepatoma Cells %V 43 %X Although it has been reported that silver nanoparticles (Ag-NPs) have strong acute toxic effects to various cultured cells, the toxic effects at noncytotoxic doses are still unknown. We, therefore, evaluated in vitro toxicity of Ag-NPs at noncytotoxic doses in human hepatoma cell line, HepG2, based on cell viability assay, micronucleus test, and DNA microarray analysis. We also used polystyrene nanoparticles (PS-NPs) and silver carbonate (Ag2CO3) as test materials to compare the toxic effects with respect to different raw chemical composition and form of silver. The cell viability assay demonstrated that Ag-NPs accelerated cell proliferation at low doses (<0.5 mg/L), which was supported by the DNA microarray analysis showing significant induction of genes associated with cell cycle progression. However, only Ag-NPs exposure exhibited a significant cytotoxicity at higher doses (>1.0 mg/L) and induced abnormal cellular morphology, displaying cellular shrinkage and acquisition of an irregular shape. In addition, only Ag-NPs exposure increased the frequency of micronucleus formation up to 47.9 ± 3.2% of binucleated cells, suggesting that Ag-NPs appear to cause much stronger damages to chromosome than PS-NPs and ionic Ag+. Cysteine, a strong ionic Ag+ ligand, only partially abolished the formation of micronuclei mediated by Ag-NPs and changed the gene expression, indicating that ionic Ag+ derived from Ag-NPs could not fully explain these biological actions. Based on these discussions, it is concluded that both “nanosized particle of Ag�? as well as “ionic Ag+�? contribute to the toxic effects of Ag-NPs.

@article{Kawata2009, abstract = {Although it has been reported that silver nanoparticles (Ag-NPs) have strong acute toxic effects to various cultured cells, the toxic effects at noncytotoxic doses are still unknown. We, therefore, evaluated in vitro toxicity of Ag-NPs at noncytotoxic doses in human hepatoma cell line, HepG2, based on cell viability assay, micronucleus test, and DNA microarray analysis. We also used polystyrene nanoparticles (PS-NPs) and silver carbonate (Ag2CO3) as test materials to compare the toxic effects with respect to different raw chemical composition and form of silver. The cell viability assay demonstrated that Ag-NPs accelerated cell proliferation at low doses (<0.5 mg/L), which was supported by the DNA microarray analysis showing significant induction of genes associated with cell cycle progression. However, only Ag-NPs exposure exhibited a significant cytotoxicity at higher doses (>1.0 mg/L) and induced abnormal cellular morphology, displaying cellular shrinkage and acquisition of an irregular shape. In addition, only Ag-NPs exposure increased the frequency of micronucleus formation up to 47.9 ± 3.2% of binucleated cells, suggesting that Ag-NPs appear to cause much stronger damages to chromosome than PS-NPs and ionic Ag+. Cysteine, a strong ionic Ag+ ligand, only partially abolished the formation of micronuclei mediated by Ag-NPs and changed the gene expression, indicating that ionic Ag+ derived from Ag-NPs could not fully explain these biological actions. Based on these discussions, it is concluded that both “nanosized particle of Ag�? as well as “ionic Ag+�? contribute to the toxic effects of Ag-NPs.}, added-at = {2011-10-01T01:18:49.000+0200}, author = {Kawata, Koji and Osawa, Masato and Okabe, Satoshi}, biburl = {https://www.bibsonomy.org/bibtex/2570d71cb9a0d5f19e2f4b457d46f04ae/afcallender}, doi = {10.1021/es900754q}, file = {Kawata2009.pdf:indexed\\Kawata2009.pdf:PDF}, groups = {public}, interhash = {85075d36debfa3f48ba6d7208e71fd4d}, intrahash = {570d71cb9a0d5f19e2f4b457d46f04ae}, journal = {Environmental Science and Technology}, keywords = {}, number = 15, pages = {6046–6051}, timestamp = {2011-10-01T01:18:49.000+0200}, title = {In Vitro Toxicity of Silver Nanoparticles at Noncytotoxic Doses to HepG2 Human Hepatoma Cells}, username = {afcallender}, volume = 43, year = 2009 }