Time-Dependent Regulation of Apoptosis by Aen and Bax in Response to 2-Aminoanthracene Dietary Consumption

Presenters/Authors

Worlanyo E. Gato, Georgia Southern UniversityFollow
Stacey R. McGee, Southern Illinois UniversityFollow
Dale B. Hales, Southern Illinois UniversityFollow
Jay C. Means, University of California, Santa BarbaraFollow

Document Type

Presentation

Presentation Date

11-13-2013

Abstract or Description

The modulation of the toxic effects of 2AA on the liver by apoptosis was investigated. The arylamine 2-aminoanthracene (2AA) is an aromatic hydrocarbon employed in manufacturing chemicals, dyes, inks, and as curing agents in epoxy resins and polyurethanes. 2AA has been detected in tobacco smoke and cooked foods. Analysis of total mRNA extracts from liver for apoptosis-related gene expression changes was coupled with liver tissue histology (H&E staining), TUNEL and Caspase-3 activity assays. Specific apoptosis staining showed greater level of apoptosis in medium- and high-dose 2AA treated animals. Apoptosis does not seem to occur directly via caspase-3 activation mechanism. Analyses of apoptosis-related genes seem to show AEN and BAX as the main targets in the induction of apoptosis in response to 2AA exposure. Dose-dependent increases in mRNA expression were observed in all genes except caspase 3. Bax was highly expressed in the high-dose rats belonging to the 2-week exposure group.

Sponsorship/Conference/Institution

Southeastern Regional Meeting of American Chemical Society (SERMACS)

Location

Atlanta, GA

Recommended Citation

Gato, Worlanyo E., Stacey R. McGee, Dale B. Hales, Jay C. Means. 2013. "Time-Dependent Regulation of Apoptosis by Aen and Bax in Response to 2-Aminoanthracene Dietary Consumption." Department of Chemistry and Biochemistry Faculty Presentations. Presentation 30.
https://digitalcommons.georgiasouthern.edu/chem-facpres/30