Progressive Alterations in Global and GC-Rich DNA Methylation during Tumorigenesis

doi:10.1093/toxsci/kfg190

ToxSci Advance Access originally published online on July 25, 2003

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Toxicological Sciences 75, 289-299 (2003)
Copyright © 2003 by the Society of Toxicology

CARCINOGENICITY

Progressive Alterations in Global and GC-Rich DNA Methylation during Tumorigenesis

Rebecca E. Watson^*, Geoffrey M. Curtin, David J. Doolittle and Jay I. Goodman^*^,1

^* Department of Pharmacology and Toxicology, Michigan State University, East Lansing, Michigan 48824, and R. J. Reynolds Tobacco Company, Research and Development, Winston-Salem, North Carolina 27102

DNA methylation plays a key role in the regulation of gene expression,and failure to maintain normal patterns of methylation oftencontributes to carcinogenesis. We have characterized progressivemethylation changes during the promotion stage of carcinogenesisusing a SENCAR mouse skin initiation/promotion tumorigenesismodel. Mice were initiated with a dermal application of 75 µgdimethylbenz[a]anthracene (DMBA) and promoted with 9, 18, 27,and 36 mg cigarette smoke condensate (CSC) thrice weekly fortime periods up to 29 weeks, when a large increase in tumornumber was produced by the highest three doses. Global and GC-specificmethylation were assessed using SssI methylase and arbitrarilyprimed PCR, respectively. Changes in GC-specific methylationwere dose- and time-dependent. CSC doses required to detectthese changes were 27 mg at 6 weeks and 18 mg at 9 weeks. Thiseffect appears to be reversible; changes in GC-specific methylationwere less marked after 9 weeks promotion with 27 mg CSC followedby 6 weeks of recovery in comparison to 9 and 15 weeks promotionwith 27 mg CSC and no recovery period. Both tumor and non-tumortissue promoted with 27 mg CSC for 29 weeks exhibited changesin GC-specific methylation that were more pronounced in tumors.Tumor tissue was globally hypomethylated, whereas non-tumortissue did not exhibit changes in global methylation. In conclusion,as expected for a mechanism underlying tumor promotion, CSCalters methylation in a threshold-exhibiting, reversible, progressivefashion during promotion. Progressive alterations in globaland GC-rich methylation appear to be mechanistically importantduring tumor promotion.

Key Words: DNA methylation; tumorigenesis; promotion; SENCAR mouse; skin tumorigenesis; epigenetics.

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