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- Title
Systematic Analysis of Multiwalled Carbon Nanotube-Induced Cellular Signaling and Gene Expression in Human Small Airway Epithelial Cells.
- Authors
Snyder-Talkington, Brandi N.; Pacurari, Maricica; Dong, Chunlin; Leonard, Stephen S.; Schwegler-Berry, Diane; Castranova, Vincent; Qian, Yong; Guo, Nancy L.
- Abstract
Multiwalled carbon nanotubes (MWCNT) are one of the most commonly produced nanomaterials, and pulmonary exposure during production, use, and disposal is a concern for the developing nanotechnology field. The airway epithelium is the first line of defense against inhaled particles. In a mouse model, MWCNT were reported to reach the alveolar space of the lung after in vivo exposure, penetrate the epithelial lining, and result in inflammation and progressive fibrosis. This study sought to determine the cellular and gene expression changes in small airway epithelial cells (SAEC) after in vitro exposure to MWCNT in an effort to elucidate potential toxicity mechanisms and signaling pathways. A direct interaction between SAEC and MWCNT was confirmed by both internalization of MWCNT and interaction at the cell periphery. Following exposure, SAEC showed time-dependent increases in reactive oxygen species production, total protein phosphotyrosine and phosphothreonine levels, and migratory behavior. Analysis of gene and protein expression suggested altered regulation of multiple biomarkers of lung damage, carcinogenesis, and tumor progression, as well as genes involved in related signaling pathways. These results demonstrate that MWCNT exposure resulted in the activation of SAEC. Gene expression data derived from MWCNT exposure provide information that may be used to elucidate the underlying mode of action of MWCNT in the small airway and suggest potential prognostic gene signatures for risk assessment.
- Subjects
MULTIWALLED carbon nanotubes; GENE expression; EPITHELIAL cells; AIRWAY (Anatomy); TOXICITY testing; LABORATORY mice
- Publication
Toxicological Sciences, 2013, Vol 133, Issue 1, p79
- ISSN
1096-6080
- Publication type
Article
- DOI
10.1093/toxsci/kft019