Masahiro Nakadate

Species difference in the metabolic activation of phenacetin by rat and hamster liver microsomes

Phenacetin is mutagenic in Salmonella typhimurium TA 100 when liver 9,000 X g supernatant fractions from PCB-treated hamsters instead of rats are used. A mechanism of the species difference in phenacetin mutagenicity was investigated. By high-performance liquid chromatography analysis, it was found that phenacetin is activated to direct-acting mutagens through N-hydroxylation and deacetylation by hamster liver microsomes. Although no significant species difference was observed in N-hydroxylation, rates of deacetylation were 9 to 150 times higher in hamsters than in rats. The results indicate that the marked species difference in phenacetin mutagenicity is due to the difference in deacetylation activity between rat and hamster liver microsomes.

Mutations in Salmonella typhimurium and inactivation of Bacillus subtilis transforming DNA induced by phenylhydroxylamine derivatives.

Phenylhydroxylamine (PHA) and its derivatives such as monomethyl (2-Me, 3-Me, 4-Me) and dimethyl (2,3-diMe, 2,4-diMe, 2,5-diMe, 2,6-diMe, 3,4-diMe, 3,5-diMe) were tested for their mutagenicity and for their inducing ability to inactivate transforming DNA. All these compounds except PHA and 3,5-diMePHA were found to be mutagenic in Salmonella typhimurium TA100 even in the absence of S9 mix, and their mutagenic potency was in the order: 2,6-diMe- greater than 2,4-diMe- = 3,4-diMe- greater than 4-Me- greater than 2,3-diMe- = 2,5-diMe- greater than 2-Me- = 3-MePHA. Besides mutagenicities, all the PHA derivatives except 2,6-diMePHA caused severe reductions in the activity of Bacillus subtilis transforming DNA. To establish the structure-activity relationship, we examined the correlation between these activities and the stabilities of the PHA derivatives, and the results indicated that the more chemically unstable the PHA derivatives were, the more active they were with respect to the mutations and to the inactivation of the transforming DNA. The mutagenic activity of 2,6-diMePHA was the sole exception, because it was most stable, but its induced mutation frequency was highest. From these results, we suggest that all the PHA derivatives, except 2,6-diMePHA, cause DNA damage through the generation of active molecular species, such as nitrenium ions, without any enzymatic activation, while 2,6-diMePHA requires further metabolic activation by bacterial enzymes to stimulate mutagenesis.

THE EXPERT SYSTEM FOR TOXICITY PREDICTION OF CHEMICALS BASED ON STRUCTURE-ACTIVITY RELATIONSHIP

The prediction systems of chemical toxicity has been developed by means of structure-activity relationship based on the computerized fact database (BL-DB). Numbers and ratio of elements, side chains, bonding, position, and microenvironment of side chains were used as structural factors of the chemical for the prediction. Such information was obtained from the BL-DB database by Wiswesser line-formula chemical notation. In the present study, the Salmonella/microsome assay was chosen as indicative of the target toxicity of chemicals. A set of chemicals specified with mutagenicity data was retrieved, and necessary information was extracted and transferred to the working file. Rules of the relations between characteristics of chemical structure and the assay result are extracted as parameters for rules by experts on the rearranged data set. These were analyzed statistically by the discriminant analysis and the prediction with the rules were evaluated by the elimination method. Eight kinds of rules to predict Salmonella/microsome assay were constructed, and currently results of the assay on aliphatic and heterocyclic compounds can be predicted as accurately as +90%.

Induction of digestive-tract tumors in F344 rats by continuous oral administration of N-butyl-N-nitrosourea.

SummaryMale and female F344/DuCrj rats were administered N-butyl-N-nitrosourea at a concentration of 400 ppm in their drinking water. By the 50th week of the experiment, the cumulative incidence of upperdigestive-tract tumors was as high as 35/39 (90%) and 34/39 (87%) in male and female rats, respectively. Among these, esophageal and forestomach tumors occurred most frequently. Except one female rat with fibroma, upper-digestive-tract neoplasms were of the epithelial type—papilloma, squamous-cell carcinoma or adenocarcinoma. In female rats, vaginal tumors were induced in 16 (41%) animals. Ear-duct tumors and hematopoietic neoplasms were also induced in both sexes of rats, with incidence of less than 21%.

Induction of tumors in female Donryu rats by a single administration of 1-propyl-1-nitrosourea.

Three groups of female Donryu rats were given a single gastric intubation of 800, 400, or 200 mg/kg body weight of 1-propyl-1-nitrosourea and one group of female Donryu rats was given a single subcutaneous injection of 1-propyl-1-nitrosourea. The incidence of tumors was highest for mammary tumors and leukemia, and next for tumors of the ovary, thyroid, and adrenal glands, and in the digestive tract in rats given the chemical by oral administration. There were also scattered tumors in various other organs. Mammary and subcutaneous tumors were found in some rats given a subcutaneous injection of 1-propyl-1-nitrosourea.