Abstract

Aromatic amines are believed to induce tumors in humans and experimental animals because of their conversion to N-hydroxylated derivatives which are further metabolized toreactive metabolites that are capableof altering nucleic acid. The formation of N-acetoxyarylamines has been implicated as the latter metabolic activation step that is crucial to the carcinogenic and mutagenic activities of many of these agents. In the rat, mouse and rabbit, and perhaps other species such as the human and hamster, the terminal activation reaction, O-acetylation, involves the transfer of an acetyl group to the hydroxylamine from either acetyl coenzyme A or an arylhydroxamic acid. The same enzyme is also capable of N-aetylation to yield arylacetamides or arylhydroxamic acids from arylamines or arylhydroxylamines, respectively. The N-, O- and N,O-acetylation activities of the enzymes from different species vary in their rates and relative abilities to carry out these reactions. These differences are significant determinants of the susceptibilities of the target organs of the aromatic amines. The objective of this project is to explore the molecular features responsible for the differences in activation by O-acetylation and, consequently, how these factors mayinfluence the carcinogenic and mutagenic responses to these agents.
The specific aims of the project are to: (1. Determine the primary sequence of the rat enzyme bymolecular cloning. Oligonucleotide probes and monoclonal antibodies will be used to screen cDNA libraries. (2. Identify the active site(s) of the enzyme by labelling with reagents specific for sulfhydryl groups and N-hydroxy-chloroacetylaminoarene substrates to identify amino acids that are crucial to the catalytic activity. the monoclonal antibodies will be used to help in establishing the areas of the molecule that are involved in catalysis. (3. Localize the acetyltransferase and mRNA in rat tissues by use of monoclonal antibodies and cDNA probes to identify those cells that may be at particular risk from these compounds. (4. Express acetyltransferase in bacterial and mammalian cells to verify the identity of the sequence and to provide a means by which cells can be provided with a metabolic activation system. (5. Compare the structures of acetyltransferases from other species that differ in their abilities to carry out N-,O- and N,O- acetyltransfer.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
3R01CA023386-21S1
Application #
2356201
Study Section
Special Emphasis Panel (NSS)
Project Start
1978-04-01
Project End
1999-01-31
Budget Start
1996-09-30
Budget End
1999-01-31
Support Year
21
Fiscal Year
1996
Total Cost
Indirect Cost

  Institution

Name
Upstate Medical University
Department
Urology
Type
Schools of Medicine
DUNS #
058889106
City
Syracuse
State
NY
Country
United States
Zip Code
13210

  Publications

Soos, Gyorgyike; Haas, Gabriel P; Wang, Ching Y et al. (2003) Differential gene expression in human prostate cancer cells adapted to growth in bone in Beige mice. Urol Oncol 21:15-9
Wang, Ching Y; Jones, Richard F; Debiec-Rychter, Maria et al. (2002) Correlation of the genotypes for N-acetyltransferases 1 and 2 with double bladder and prostate cancers in a case-comparison study. Anticancer Res 22:3529-35
Archer, C L; Morse, P; Jones, R F et al. (2000) Carcinogenicity of the N-hydroxy derivative of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine, 2-amino-3, 8-dimethyl-imidazo[4,5-f]quinoxaline and 3, 2'-dimethyl-4-aminobiphenyl in the rat. Cancer Lett 155:55-60
Singh, A; Jones, R F; Friedman, H et al. (1999) Expression of p53 and pRb in bladder and prostate cancers of patients having both cancers. Anticancer Res 19:5415-7
Archer, C; Debiec-Rychter, M; Morse, P et al. (1999) Epithelial proliferation and expression of the aromatic amine activation enzyme N-acetyltransferase in the prostate of postnatal rat. Anticancer Res 19:4013-6
Vosianov, A F; Romanenko, A M; Zabarko, L B et al. (1999) Prostatic intraepithelial neoplasia and apoptosis in benign prostatic hyperplasia before and after the Chernobyl accident in Ukraine. Pathol Oncol Res 5:28-31
Wang, C Y; Debiec-Rychter, M; Schut, H A et al. (1999) N-Acetyltransferase expression and DNA binding of N-hydroxyheterocyclic amines in human prostate epithelium. Carcinogenesis 20:1591-5
Debiec-Rychter, M; Tada, M; Poirier, M C et al. (1998) DNA adduct formation in human and rat mammary epithelium by N-hydroxy derivatives of 2-aminofluorene and 4-aminobiphenyl. Teratog Carcinog Mutagen 18:35-9
Soos, G; Jones, R F; Haas, G P et al. (1997) Comparative intraosseal growth of human prostate cancer cell lines LNCaP and PC-3 in the nude mouse. Anticancer Res 17:4253-8
Hirose, M; Shirai, T; Lee, M S et al. (1997) Carcinogenecity of the N-acyl derivatives of N-hydroxy-trans-4-aminostilbene in CD rats. Chem Biol Interact 106:123-32

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