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  • Title: Temporal dissociation in the exposure times required for maximal induction of cytotoxicity, mutation, and transformation by N-methyl-N'-nitro-N-nitrosoguanidine in the BALB/3T3 ClA31-1-1 cell line.
    Author: Bignami M, Ficorella C, Dogliotti E, Norman RL, Kaighn ME, Saffiotti U.
    Journal: Cancer Res; 1984 Jun; 44(6):2452-7. PubMed ID: 6722787.
    Abstract:
    Cytotoxicity, alkali-labile DNA lesions, ouabain resistance mutations, and neoplastic transformation were analyzed concurrently in the BALB/3T3 ClA31 -1-1 cell line treated with the alkylating agent N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) for different exposure times (15, 30, 60, 90, 120, and 240 min; 24, 48, and 72 hr). The half-life of MNNG in complete medium was approximately 70 min, both without cells and with cell numbers as used in the assays for cytotoxicity (2 X 10(2) cells/60-mm dish), transformation (1 X 10(4) cells/dish), and mutation (1 X 10(5) cells/dish). The cytotoxic effect of MNNG (0.5 or 2 micrograms/ml) appeared to be completed after an exposure time between 100 and 200 min. Maximal frequency of ouabain resistance mutations, however, was reached after a much shorter treatment time (30 to 60 min). Detection of DNA damage by alkaline elution analysis showed maximal increase in single-strand breaks already after treatment for 30 min. Exposures for 30 min followed by posttreatment incubation for 30 or 90 min showed active repair of single-strand breaks during these periods, indicative of an even balance between the additional MNNG-induced damage and its repair. Morphological transformation assays, at the same treatment times and concentrations used in the mutation assays, yielded frequency curves that reached their maxima 1 to 3 hr later than did the mutation frequencies. The ratio of transformation to ouabain resistance mutation frequencies was 3.7 for short treatment times (30 to 60 min), while it increased to more than 20 for exposure times of 240 min or longer. The temporal dissociation in the exposure times for maximal induction of mutation and transformation, observed with MNNG in this cell line, supports the hypothesis that a single gene mutational event is not sufficient to account for the full expression of neoplastic transformation.
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