Mutagenic response of mouse lymphoma cells after activation of benzidine and 2-aminofluorene with purified prostaglandin H synthase.

The mutagenic response of L5178Y mouse lymphoma cells to the model aromatic amine carcinogens, benzidine (BNZ) and 2-aminofluorene (2-AF) in the presence of the mammalian peroxidase prostaglandin H synthase (PHS) was examined. Standard incubation conditions for mouse lymphoma cells and the PHS system were developed. The cells were exposed to BNZ and 2-AF with purified PHS in the presence or absence of a peroxide, 5-phenyl-4-pentenyl hydroperoxide (PPHP) which is required for PHS-dependent amine oxidation. Incubations were carried out in a medium consisting of Hanks' balanced salt solution with calcium and magnesium and 0.1% pluronic F-68. BNZ by itself or in the presence of PPHP induced a weak mutagenic response in mouse lymphoma cells, but the addition of PHS or PHS and its co-factor PPHP increased the mutagenic response approximately 5-fold over that observed in the absence of PHS. A maximal mutagenic response for BNZ was observed after incubation with the complete activating system, PHS and PPHP. These data are in agreement with the fact that BNZ is an excellent substrate for PHS. When 2-AF was incubated with mouse lymphoma cells, only a minimal mutagenic response was observed. Incubation of 2-AF with either PPHP or PPHP and PHS (complete peroxidase system produced a significant enhancement in mutagenic response. Thus, the mutagenic response of the mouse lymphoma cells to 2-AF was dependent on the peroxide, PPHP but not the enzyme PHS. These data suggest that 2-AF, which is a poor PHS substrate, is oxidized by a different catalyst than PHS. This work demonstrates that BNZ and 2-AF are converted by peroxide-dependent mechanisms to mutagens that can be detected in mammalian cells.

Spontaneous mutation rates in mammalian cells: effect of differential growth rates and phenotypic lag.

We calculated a spontaneous rate of 26-37 x 10(-6) mutations per cell division for L5178Y MOLY (mouse lymphoma) cells at the thymidine kinase locus (tk+/(-)----tk-/-) using a procedure that isolated and segregated cells during expression. This rate was 50 times higher than when cells expressed the mutant phenotype in suspension. The higher mutation rates obtained with the in situ procedure suggest that many of the mutants, whether expressed or unexpressed, grew more slowly than wild-type cells prior to selection with trifluorothymidine (TFT), implying that the slow growth phenotype is expressed earlier than the TFTr (TFT-resistant) phenotype. The loss of mutants was not restricted to cells forming small colonies; the mutation rate for cells forming large colonies was more than ten times higher using the in situ procedure. In this new procedure, the cells expressed spontaneous mutations while growing in semisolid medium for up to 3 days without TFT. Mutants were then selected in situ by adding an overlay of TFT and the visible colonies were analyzed after 11 days. Cells with spontaneous mutations at the tk locus required approximately 30 hr for the more rapidly expressing cells with new mutations to be detected. Most of the TFTr colonies selected after 60 hr of growth in semisolid medium represented independent mutations that had accumulated during the first 30 hr.(ABSTRACT TRUNCATED AT 250 WORDS)

TFT and 6TG resistance of mouse lymphoma cells to analogs of azacytidine.

5-Azacytidine (5-aza-CR) and six of its analogs were examined for their ability to induce trifluorothymidine (TFT) and/or 6-thioguanine (6TG) resistance in L5178Y mouse lymphoma cells. These analogs were 5-aza-2'-deoxycytidine (5-aza-CdR), 5-fluoro-2'-deoxycytidine (5-FCdR), 5,6-dihydro-5-azacytidine (dH-aza-CR), 6-azacytidine (6-aza-CR), cytidine (CR) and 1-b-D-arabinofuranosylcytosine (ara-C). 5-Aza-CR and 6-aza-CR were examined for their ability to induce 6TG-resistant colonies and results demonstrated no effect. At least a 5-fold increase in TFT resistance was observed for 5-aza-CR, 5-aza-CdR, 5-FCdR, dH-aza-CR and ara-C. The concentration at which these compounds induced TFT resistance correlated well with the potential of the nucleoside analogs to induce differentiation in C3H10T1/2 cells as determined by Constantinides et al. (Nature, 267, 364-366, 1977). In L5178Y mouse lymphoma (MOLY) cells, 5-aza-CR induced TFT resistance and produced both small and large colonies. Previous studies using mammalian cells showed the absence of mutagenic activity with 5-aza-CR and some of its analogs at the ATPase and hgprt loci. However, the different spectrum of DNA lesions detected at the tk locus may be responsible for the response of MOLY cells to 5-aza-CR.

Evaluation of the L5178Y mouse lymphoma cell mutagenesis assay: interlaboratory reproducibility and assessment.

The L5178Y mouse lymphoma cell mutagenesis assay is used to detect the mutagenic activity of chemicals in a mammalian cell system. To evaluate this assay we compared the results of assays performed independently on 63 chemicals by laboratories at SRI International and Litton Bionetics, Inc. The two laboratories used similar protocols. The solvent and positive control mutant frequencies and cloning efficiencies obtained by the two laboratories were similar, which justified the use of the same quality-control criteria and analytical procedures for analyzing the results from both laboratories. The rate of concordance between the two laboratories was 92% for tests in the absence of S9 activation and 95% for tests in its presence. The results of the assays agreed for 57 of the 63 chemicals; three chemicals could not be compared because there were questionable calls in at least one of the laboratories; the results disagreed for the three remaining chemicals. The concordance rate for these overall assay evaluations was 95%. The interlaboratory concordance rates were similar to concordance rates for replicate experiments within the laboratories (96% at LBI, 94% at SRI). The mouse lymphoma cell mutagenicity results are concordant with the rodent chronic assay results in 78% of 50 chemicals and with the Salmonella assay results in 79% of 56 chemicals. Fifteen carcinogens were examined for genotoxic effects in mouse lymphoma, Salmonella, Chinese hamster ovary (CHO) chromosomal aberration, and CHO sister chromatid exchange assay. Eight of these were positive in all four assays. Of the seven noncarcinogens that were tested in these four assays, none was negative in all four. The main conclusion to be drawn from this study is that the mouse lymphoma cell forward mutation assay, as performed and evaluated in this study, detects chemical mutagenicity in a manner that is highly consistent with other genetic endpoints as well as rodent carcinogenicity studies. Thus the assay quality control and response criteria established in this study led not only to a high degree of reproducibility but also to an apparently reliable detection of mutagenic activity.