The significance of p16INK4a in cell defenses against transformation

Human cells, including fibroblast strains that have been immortalized by telomerase, are much more resistant to transformation than rodent cells. Most of the experimental evidence suggests that transformation of human fibroblasts requires inactivation of both the retinoblastoma (pRb) and p53 tumor suppressors as well as the addition of one or more dominant oncogenes. By starting with strains of primary fibroblast (Leiden and Q34 cells) that are genetically deficient for p16INK4a, we have been able to generate anchorage independent colonies simply by addition of telomerase (hTERT) and either Ras or Myc. Importantly, the transformed cells appear to retain pRb and p53 functions and are essentially diploid. Whereas Leiden cells expressing the individual oncogenes did not form tumors in mice, the combination of hTERT, Myc and Ras enabled them to become tumorigenic, albeit at a frequency suggestive of an additional genetic event. Significantly, we have obtained karyotypically stable tumors without the need to use DNA tumor virus oncoproteins and without deliberate ablation of p53.     

Mutagenicity of the carcinogen 7-bromomethylbenz (a)-anthracene: a quantitative study in repair-deficient strains of Escherichia coli

The mutagenicity of 7-bromomethylbenz[a]anthracene, a reactive arylalkylating carcinogen, was investigated in several strains of E. coli WP2, using reversion from tryptophan auxotrophy (ochre trpE locus) as a measure of induced mutation.WP2, the wild-type with respect to DNA repair, was more resistant to the cytotoxic effects of 7-bromomethylbenz[a]anthracene than WP2uvrA, WP2exrA, or WP2uvrAexrA, the D₃₇ doses of carcinogen being 22, 5, 8, and 1 μg/ml respectively. Mutagenesis in WP2 was observed only at doses in excess of the D_Q, whereas in WP2uvrA mutation was linearly related to dose throughout the range studies. No mutation was detectable in WP2exrA or WP2uvrAexrA even at doses which resulted in 95% and 99.9% lethality respectively. It was concluded that an intact Exr function was an absolute requirement for the induction of mutation by 7-bromomethylbenz[a]anthracene and that excision-repair was very efficient in removing premutational lesios.The use of $\text{[}{}^3\text{H}\text{]7-}\text{bromomethylbenz}\text{[a]}\text{anthracene}$ at high specific radioactivity enabled the quantitation of mutation as a function of the extent of reaction of the mutagen with cellular macromolecules. Extent of reaction with DNA, RNA and protein was linearly related to dose, binding to DNA being 3 times that to RNA and 20 times that to protein. There was a linear relationship between binding and mutation in WP2uvrA and the effective target size for Exr-mediated mutation in this system was of the order of 0.04 nucleotides. Having established that the n umber of 7-bromomethylbenz[a]anthracene-induced mutants increased linearly with successive cell generations and, by use of T4 ochre427, that about 30% of the mutants scored were true revertants, it was estimated that the Exr pathway incorporates productive errors into the bacterial genome with a frequency of the order of 2.10^?3.