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In vitro model for identifying subchronic carbon nanotube exposure and lung cancer gene markers.

Authors
Stueckle-T; Davidson-D; Derk-R; Meighan-T; Castranova-V; Rojanasakul-Y; Wang-L
Source
Nanotech 2014: electronics, manufacturing, environment, energy & water, technical proceedings of the 2014 NSTI nanotechnology conference and expo, June 15-18, 2014, Washington, DC. Nano Science and Technology Institute (NSTI), ed. Boca Raton, FL: CRC Press, 2014 Jun; 3:150-153
NIOSHTIC No.
20045267
Abstract
Concern for increased risk of carbon nanotube-associated lung disease, including carcinogenesis, has been raised due to asbestos-like characteristics. To date, no particle specific nanomaterial exposure or lung cancer markers have been identified. Here, we use our subchronic in vitro exposure model coupled with toxicogenomic profiling and correlation feature selection strategies to identify particle-specific, key gene markers from our CNT-transformed cell lines. SWCNT-, MWCNT-, crocidolite asbestos (ASB)-, ultrafine carbon black (UFCB)-treated and control SAECs genome expression signatures were subjected to comparative marker and class neighbor analyses to identify genes with highly correlated expression for each treatment. Here, we present robust SWCNT-, MWCNT-, ASB- and UFCB-induced specific gene marker sets for in vitro chronically exposed lung epithelial cells. Both SWCNT and MWCNT markers were associated with lipid metabolism and cancer while ASB and UFCB centered on inflammatory response and senescence, respectively. Biological functions associated with each small gene marker subset for each particle were predictive of the entire genome signature and exposed cell phenotype. Toxicogenomic signature profiling in a subchronic in vitro exposure model identified particle-specific gene markers which can potentially aid in assessing detection of early onset of CNT pulmonary disease.
Keywords
Nanotechnology; Exposure-levels; Risk-factors; Lung; Lung-disease; Lung-disorders; Lung-function; Carcinogens; Carcinogenesis; Particulates; In-vitro-study; Models; Genes; Biological-function; Cell-function; Cellular-function; Pulmonary-system; Pulmonary-function; Pulmonary-system-disorders; Pulmonary-disorders; Diseases; Author Keywords: carbon nanotube; asbestos; in vitro model; biomarkers; toxicogenomics
CAS No.
1332-21-4
Publication Date
20140601
Document Type
Conference/Symposia Proceedings
Email Address
tstueckle@cdc.gov
Editors
Nano Science and Technology Institute (NSTI)
Fiscal Year
2014
NTIS Accession No.
NTIS Price
ISBN No.
9781482258301
Identifying No.
M102014
NIOSH Division
HELD
Priority Area
Mining: Oil and Gas Extraction
Source Name
Nanotech 2014: electronics, manufacturing, environment, energy & water, technical proceedings of the 2014 NSTI nanotechnology conference and expo, June 15-18, 2014, Washington, DC
State
WV
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