Sodium fluoride is a less efficient human cell mutagen at low concentrations.

Sodium fluoride was found to induce gene-locus mutations at the thymidine kinase (tk) and hypoxanthine guanine phosphoribosyl transferase (hgprt) loci in human lymphoblastoid cells. A single, 28 hr exposure to up to 600 micrograms/ml sodium fluoride induced a concentration-dependent increase in mutant fraction at both gene loci and reduced cell survival to 12% relative to negative control cultures. When cells were exposed to sodium fluoride concentrations that were only minimally toxic using a 20 day treatment protocol, no detectable induction of mutation was ob-served at the hgprt locus, and induction of mutation was observed at the tk locus only for treatment with 65 micrograms/ml sodium fluoride; exposure to 50 and 35 micrograms/ml sodium fluoride did not induce detectable mutation. The assay protocol used was of sufficient statistical sensitivity to detect the level of mutation predicted based on a linear extrapolation of data obtained from a 28 hour exposure. The implications of these observations with regard to the extrapolability of mutagenicity data to low concentrations are discussed.

The induction of aneuploidy by nitrogen mustard in a human lymphoblastoid cell line.

We report that the presence of an extra Y chromosome can be used as a marker for the induction of aneuploidy (mitotic non-disjunction) in a human lymphoblastoid cell line. This endpoint is easily visualized in metaphase chromosome preparations after staining with quinacrine mustard. The induction of cells with two Y chromosomes by nitrogen mustard (NM) was examined. Exposure to 150 ng/ml nitrogen mustard induced a 6-fold increase in aneuploid frequency relative to untreated control levels; maximal induction of aneuploidy was observed 2 days after treatment. Lower concentrations of nitrogen mustard (36 and 75 ng/ml) induced smaller increases in aneuploid frequency, with maximal induction observed 1 day after treatment. This system has the potential to be used as an assay for the induction of aneuploidy in cultured human cells.

Mutagenicity of 1,2-dichloroethane and 1,2-dibromoethane in two human lymphoblastoid cell lines.

1,2-Dichloroethane (DCE) and 1,2-dibromoethane (DBE) were tested for the ability to induce gene mutations in two human lymphoblastoid cell lines, designated AHH-1 and TK6. Both chemicals were 'direct-acting' mutagens in both cell lines. DBE was essentially equally mutagenic in TK6 cells and AHH-1 cells. In contrast, DCE was 25-fold more mutagenic in the AHH-1 cell line than in the TK6 cell line. This differential sensitivity between AHH-1 cells and TK6 cells was related to the levels of glutathione S-transferase activity in these two cell lines.

The aza-arenes as mutagens for Salmonella typhimurium.

Several unsubstituted aza-arenes have been found to be more mutagenic to Salmonella typhimurium than their corresponding parent hydrocarbons. In most cases, the activity of these compounds depended on the presence of a post-mitochondrial supernatant for metabolic activation, although acridine was mutagenic only in the absence of such an activating system. An examination of the effect of the metabolizing system's concentration on mutagenicity showed that quinoline, benzo[f]quinoline, and phenanthridine have different optima. In an attempt to uncover active intermediates in aza-arene metabolism, N-oxides of quinoline and phenanthridine were synthesized and found to be non-mutagenic, and coincubation with the epoxide hydrase inhibitor trichloropropylene oxide did not affect the mutagenic activity of quinoline or phenanthridine.