The composition and mutagenicity of compounds generated during the pyrolysis of solid fuels will be studied under well-defined experimental conditions in order to nominate compounds for more detailed biological studies and to develop chemical pathways for the formation of the compounds of greatest concern. Selected coals, woods, and model compounds representing moieties commonly found in coal and wood will be studied in either a flow apparatus or bed systems operated over temperature ranges and times encountered in common combustor types. The products will be analyzed, in collaboration with the core laboratory in Analytical Chemistry, to separate out major categories of substituted, unsubstituted, polar, and nitrogen-containing compounds for bioassay. The subgroups showing the greatest biological activity will be subjected to more detailed chemical analyses to identify the major mutagens. The chemical pathways leading to these compounds will be evaluated using frontier molecular orbital theory and by selected experiments with model compounds. The focus of the study will be on oxygen and nitrogen compounds, prevalent in the products of incomplete combustion of coal and wood and known to cause mutation of bacteria with or without enzymatic activation.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Program Projects (P01)
Project #
5P01ES001640-14
Application #
3855564
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
14
Fiscal Year
1991
Total Cost
Indirect Cost
Name
Massachusetts Institute of Technology
Department
Type
DUNS #
City
Cambridge
State
MA
Country
United States
Zip Code
02139
Tomita-Mitchell, Aoy; Ling, Losee Lucy; Glover, Curtis L et al. (2003) The mutational spectrum of the HPRT gene from human T cells in vivo shares a significant concordant set of hot spots with MNNG-treated human cells. Cancer Res 63:5793-8
Tomita-Mitchell, A; Kat, A G; Marcelino, L A et al. (2000) Mismatch repair deficient human cells: spontaneous and MNNG-induced mutational spectra in the HPRT gene. Mutat Res 450:125-38
Durant, J L; Lafleur, A L; Busby Jr, W F et al. (1999) Mutagenicity of C24H14 PAH in human cells expressing CYP1A1. Mutat Res 446:1-14
Wang, J S; He, X; Mulder, P P et al. (1999) Comparative tumorigenicity of the cyclopenta-fused polycyclic aromatic hydrocarbons aceanthrylene, dihydroaceanthrylene and acephenanthrylene in preweanling CD-1 and BLU:Ha mouse bioassays. Carcinogenesis 20:1137-41
Busby Jr, W F; Smith, H; Crespi, C L et al. (1997) Mutagenicity of the atmospheric transformation products 2-nitrofluoranthene and 2-nitrodibenzopyranone in Salmonella and human cell forward mutation assays. Mutat Res 389:261-70
Busby Jr, W F; Smith, H; Plummer, E F et al. (1997) Mutagenicity of cyclopenta-fused polynuclear aromatic hydrocarbons and a non-polar fraction from a fuel combustion sample in a Salmonella forward mutation assay without exogenous metabolic activation. Mutat Res 391:117-25
Durant, J L; Busby Jr, W F; Lafleur, A L et al. (1996) Human cell mutagenicity of oxygenated, nitrated and unsubstituted polycyclic aromatic hydrocarbons associated with urban aerosols. Mutat Res 371:123-57
Palotas, A B; Rainey, L C; Feldermann, C J et al. (1996) Soot morphology: an application of image analysis in high-resolution transmission electron microscopy. Microsc Res Tech 33:266-78
Wang, J S; Busby Jr, W F (1996) Bacterial and human cell mutagenicity and mouse lung tumorigenicity of the oxygenated polynuclear aromatic hydrocarbon phenalenone. Fundam Appl Toxicol 33:212-9
Wang, J S; Busby, W F; Wogan, G N (1995) Tissue distribution of DNA adducts in pre-weanling BLU:Ha mice treated with a tumorigenic dose of fluoranthene. Cancer Lett 92:9-19

Showing the most recent 10 out of 65 publications