1-Chloromethylpyrene: a reference skin sensitizer and genotoxin

1-Chloromethylpyrene (1-CMP) has been evaluated as a model mutagen and toxin related to the ultimate electrophiles derived from benzo[a]pyrene and 1-nitropyrene. It was mutagenic to Salmonella (greater than 100 pg/plate) and exceptionally reactive to DNA when assessed by the 32P-postlabelling technique. 1-CMP was inactive in a mouse bone micronucleus assay when administered by gavage, probably due to hydrolysis, whose kinetics have been studied (t1/2 approximately 23 min at 37 degrees C). However, as expected, it was a potent skin toxin as determined by its activity as a mitogen to mouse skin and its contact allergenicity, as determined using the local lymph node proliferative assay. It is concluded that 1-CMP will probably be a potent human skin carcinogen and contact allergen.     

Transforming activities of sodium fluoride in cultured Syrian hamster embryo and BALB/3T3 cells

The transforming activity of sodium fluoride was studied in the SHE and the BALBl3T3 cell culture systems. Initiating and promoting activities were then investigated by means of the orthogonal methodology. Sodium fluoride was found to induce morphological transformation of SHE cells seeded on a feeder layer of X-irradiated cells at high concentrations (75–125 g/ ml). When the cells were seeded in the absence of a feeder-layer, the transformation frequencies increased in a dose-dependent manner with the concentrations of sodium fluoride ranging from 0 to the highly toxic concentration of 200 g/ml. In the BALBl3T3 cell system, sodium fluoride was negative in the standard Kakunaga procedure, while through the experiment designed by table L₈ (2⁷) of the orthogonal method, an initiating-like effect and a weak promoting activity were detected within the concentrations ranging from a 25 g/ ml to a 50 g/ ml concentration which is highly toxic for BALBl3T3 cells. From these results, it is suggested that, besides a genetic mode of action, sodium fluoride could possibly act through a non-genotoxic mechanism.Abbreviations CE cloning efficiency - NaF sodium fluoride - SHE Syrian hamster embryo - TF transformation frequency     

Characterization and identification of 6 mutagens in opium pyrolysates implicated in oesophagel cancer in Iran

Previous epidemiological studies have indicated an association between the ingestion of opium pyrolysates, dietary deficiencies, and a high incidence of oesophageal cancer in subjects in north-east Iran. Laboratory studies have shown that pyrolysates of opium and particularly of morphine, a major opium alkaloid, are highly mutagenic in bacteria and induce sister-chromatid exchanges in mammalian cells after metabolic activation. We now report the ability of these pyrolysates to transform Syrian hamster embryo cells in culture and present some evidence for their carcinogenicity in mice and hamsters following topical, subcutaneous, intratracheal and intragastric administration. 6 of the most abundant mutagenic compounds present in morphine pyrolysate were isolated and purified by high-performance liquid chromatography and characterized by gas chromatography/mass spectrometry and ¹H-Fourier transform nuclear magnetic resonance spectroscopy. These hitherto unknown compounds, all containing a hydroxy-phenanthrene moiety, were identified as: 3-methyl-3H-naphth[1,2-e]indol-10-ol; 1,2-dihydro-3-methyl-3H-naphth[1,2-e]indol-10-ol; 6-methylaminophenanthren-3-ol; 2-methylphenanthro[3,4-d][1,3]oxazol-10-ol; 2,3-dimethyl-3H-phenanthro[3,4-d]imidazol-10-ol and 2-methyl-3H-phenanthro[3,4-d]imidazol-10-ol. Mutagenicity in Salmonella typhimurium TA98 of these compounds increased in the order listed, the last compound being 35 times more active than benzo[a]pyrene. The mechanisms, by which these mutagens are formed and metabolically activated are discussed.