Increased integration of viral genome following chemical and viral treatment of hamster embryo cells

Abstract

Treatment of hamster embryo cells with diverse classes of chemical carcinogens enhances transformation by a carcinogenic simian adenovirus, SA7. Virus transformed foci selected from plates pretreated with 3-methyl-cholanthrene (MCA), methyl methanesulfonate (MMS) or 7,12-dimethylbenz[a]anthracene (DMBA) and established as cell lines in culture, contained equivalent amounts of SA7 viral genome. However, hamster embryo cultures treated with MMS or nickel sulfate had increased amounts of SA7 DNA integrated into cellular DNA when examined 2--9 days after chemical treatment and viral inoculation. An increased uptake of SA7 DNA was demonstrated in hamster cells treated with MMS during DNA repair synthesis in cells retricted in scheduled DNA synthesis by amino acid deprivation; addition of virus after the repair period did not result in an increased integration of viral DNA. These data suggest that enhancement of viral oncogenesis by chemical carcinogens or mutagens may be related to the formation of additional attachment sites in cellular DNA for insertion of viral DNA, thereby increasing the probability of viral transformation.