Mutagenicity of an antitumor protein, neocarzinostatin, in Escherichia coli.

An assay is described for the measurement of mutation induction at the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) locus in Chinese hamster ovary (CHO) cells utilizing resistance to 6-thioguanine (TG). Optimal selection conditions are defined for such parameters as phenotypic expression time prior to selection, and TG concentration and cell density which permits maximum mutant recovery. The nature of the TG-resistant mutants is characterized by several physiological and biochemical methods. The data demonstrate that more than 98% of the mutant clones isolated by this selection procedure contain altered HGPRTase activity. The CHO/HGPRT system thus shows the specificity necessary for a specific gene locus mutational assay.     

DNA repair and the genetic effects of thymidylate stress in yeast

Folate antagonists, such as aminopterin, methotrexate and various sulfonamides, block de novo thymidylate biosynthesis in Saccharomyces cerevisiae. The resulting starvation for thymine nucleotides is lethal and recombinagenic in RAD wild-type strains. In this paper we report our studies of these effects in repair-deficient yeast. Antifolate treatment of various rad mutants revealed that repair defects influence the killing and recombination caused by thymidylate deprivation. Compared to a RAD wild-type strain, diploids homozygous for rad3, rad6 or rad18 were more resistant to cell killing. Thus, contrary to findings with conventional DNA-damaging agents, the lethal effects of thymidylate starvation appear to be ameliorated by certain DNA repair deficiencies. On the other hand, a rad50 strain was extremely sensitive to the antifolates. Within this series of diploids, increasing sensitivity to thymidylate starvation was accompanied by an increase in recombination frequencies. The degrees of lethality and recombination, induced by thymidylate depletion, were correlated with the severity of DNA-strand breakage in the RAD and rad50 strains. Experiments with diploids homozygous for rad52, rad54 or rad57 suggested that aborted recombination events, provoked by thymidylate deprivation, caused chromosome loss. Furthermore, the repair defects in these mutants indicated that double-strand breaks are among the lethal lesions induced by thymine nucleotide starvation. Finally, we discuss the possibility that the recombinagenicity of thymidylate stress may account for one type of acquired resistance to methotrexate in mammalian cells.     

A mammalian cellular system for the concomitant study of neoplastic transformation and somatic mutation.

A mammalian cellular system, utilizing Syrian hamster embryo cells, was developed for the concomitant study of neoplastic transformation and somatic mutation. Chemically induced somatic mutation of the cells was assayed at two genetic loci. Mutants deficient in hypoxanthine phosphoribosyl transferase (HPRT) were detected by the production of colonies resistant to 8-azaguanine (AG^r) or 6-thioguanine (TG^r) and mutants with an altered Na⁺/K⁺ ATPase were detected by the production of colonies resistant to ouabain (Oua^r). Colonies resistant to each of the three selective agents were isolated and characterized. AG^r and TG^r resistant cells maintained their resistance to the selective agent after isolation and growth in the absence of the drug, displayed a low reversion frequency, and possessed less than 1% of the HPRT activity of the wild-type cells. AG^r cells were also resistant to the cytotoxicity effects of 6TG. Oua^r cells also maintained their resistance to ouabain and were less sensitive to the inhibition of ⁸⁶Rb uptake by ouabain than the wild-type cells. The spontaneous frequency of all three types of resistant cells was <10^?6, but the mutation frequency was significantly increased following exposure of the cells to known mutagens in a dosage-dependent manner. These properties indicate that AG^r and TG^r cells posess a mutation in the structural or regulatory gene for HPRT, and that Oua^r cells have an altered Na⁺/K⁺ ATPase.The factors involved in the quantification of the mutation frequencies of hamster embryo cells following exposure to carcinogens were determined. Cytotoxicity was assayed by a reduction in the cloning efficiency of the treated cells. The recovery efficiencies of the resistant cells were measured by reconstitution experiments and the degree of cross feeding effects of HPRT^? cells was determined. The expression time of the mutations following exposure of the cells to carcinogens was also examined, and the mutation frequencie at the two loci of hamster embryo cells following exposure to MNNG or benzo(a)-pyrene (B(a)P) were determined. Employing this system, a quantitative comparison can be made between the frequencies of somatic mutation and morphological transformation.     

The influence of serum components on the growth and mutation of Chinese hamster cells in medium containing aminopterin

When seeded in small numbers in medium containing 10^?6M aminopterin and fetal calf serum, V₇₉ Chinese hamster cells required dialyzable components from the serum for growth. However, the cells grew in medium containing 10^?6M aminopterin and dialyzed serum, provided that the medium was supplemented with 10^?5M hypoxanthine and sufficient 5·10^?6M) thymidine. A growth-inhibitory property of some batches of dialyzed serum was abolished on heating the serum for 30 min at 56°. Three lines of V₇₉ cells which lacked detectable hypoxanthine-guanine phosphoribosyl transferase (HGPRT) activity were seleccted in medium containing 8-azaguanine (8-AzG). In two of these, no spontaneous reversion to the HGPRT⁺ phenotype was detectable, and these cells did not cooperate metabolically with HGPRT⁺ cells to prevent the growth of the latter in HAT medium. One of the HGPRT^? lines showed a high rate of spontaneous reversion (118/10⁵ cells) in medium containing undialyzed serum. However, in medium containing dialyzed serum the spontaneous reversion rate fell to $\text{4}\text{10}{}^5\text{cells}$, suggesting that the revertants arising in medium containing undialyzed serum were biochemically heterogeneous.