In Vitro Toxicity of Nanoparticles in Mouse Keratinocytes and Endothelial Cells

Abstract

This study was undertaken to assess the potential toxicity of nanomaterials in mouse keratinocytes (HEL-30) and endothelial cells (bEnd.3). The nanoparticles tested were aluminum (Al - 30 nm), silver (Ag - 15 nm hydrocarbon coated, 100 nm uncoated), and molybdenum trioxide (MoO3 -30 nm). For toxicity evaluations, mitochondrial function (MU assay), lysosomal membrane integrity (NR assay) and cellular morphology were assessed under control and exposed (10-250 mg/ml) conditions for an exposure period of 24 hours. In the MN assay, the 15 nm Ag particles were found to be highly toxic in HEL-30 cells when compared to Al-30 nm and MoO3-30 nm particles, which produced no toxicity at the tested concentrations. The 100 nm Ag particles also did not produce significant toxicity in HEL-30 cells. However, Ag-100 nm particles did induce toxicity in bEnd.3 cells. bEnd.3 cells were also three times more sensitive to Ag-IS as compared to HEL-30 cells. Like HEL-30 cells, the bEnd.3 cell line displayed no toxicity in the presence of AI-30 nm or MoO3-30 nm particles. NR uptake data in HEL-30 cells also confirmed that Ag-IS nm particles were highly toxic compared to Al and MoO3 nanoparticles. Observation using a phase contrast inverted microscope indicated that increased concentration of Ag-IS led to a change in cell morphology. Cells affected by nanoparticle exposure showed a decrease in cellular volume and a change in cell shape. Further comparisons of other nanomaterials are planned using in vitro cells originatin from pulmonary ,liver and skin tissues.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2004

Accession Number

ADA458356

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