Carcinogenesis

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© 1988 Oxford University Press

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Phenobarbital: a non-genotoxic agent which induces the repair of O⁶-methylguanine from hepatic DNA

P.J. O'Connor, S. Fida ¹, C.Y. Fan, M. Bromley and R. Saffhill ²

CRC Section of Carcinogenesis, Paterson Institute for Cancer Research, Christie Hospital and Holt Radium Institute Manchester M20 9BX, UK

¹Present address: Cormet MBH, Königstein, FRG

²Deceased 30 December 1987

Exposure to phenobarbital (PB) (0.05% in drinking water) markedly increased the rate of repair of O⁶methylguanine (O⁶-MeG) from the hepatic DNA of rats given N-nitrosodi-methylamine (2 mg/kg). No effect of comparable magnitude was seen for the repair of O⁴-methylthymine. During 21 weeks of exposure to PB the increased repair of O⁶-MeG exhibited a biphasic response and was maximal at 3 weeks of treatment. Although this increased repair was readily observed when direct measurements were made of the loss of O⁶-MeG from hepatic DNA in vivo, no corresponding increased level of methyltransferase activity was detected in cell-free liver extracts, indicating that the methyltransferase protein was induced in a relatively limited population of cells. Immunohistichemical procedures have been used to demonstrate the formation of O⁶-MeG in, and its repair from, the DNA of hepatocytes in the centrilobular region of the liver lobule. Comparison with published data, for changes in the level of asialoglycoprotein receptors (Evars et al. (1985) Carcinogenesis, 6, 1767–1773) and for the induction of cytochrome P450 (Schwartz et al. (1987) Carcinogenesis, 8, 1355–1357) in hepatocytes during PB administration, indicate that PB is acting at membrane sites in a relatively limited population of cells associated with the central vein. These observations show that the methyltransferase activity responsible for the repair of the major promutagenic base O⁶-MeG can be induced by a membrane active agent, without recourse to the genotoxic action of initiators and toxins, or the induction of restorative hyperplasia, previously employed for this purpose.

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This article has been cited by other articles:

				P. J. O'Connor, F. C.R. Manning, A. T. Gordon, M. A. Billett, D. P. Cooper, R. H. Elder, and G. P. Margison Thresholds for Genotoxic Carcinogens: DNA Repair: Kinetics and Thresholds Toxicol Pathol, May 1, 2000; 28(3): 375 - 381. [Abstract] [PDF]

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