Rajendra S. Chhabra

Carcinogenicity of p-chloroaniline in rats and mice

p-Chloroaniline (PCA), a dye intermediate, was evaluated for potential long-term toxicity and carcinogenicity. Groups of 50 F344/N rats of each sex were given by gavage PCA hydrochloride in deionized water at doses of 0, 2, 6 or 18 mg/kg body weight, 5 days/wk for 103 wk. Groups of 50 male and female B6C3F1 mice of each sex were given 0, 3, 10 or 30 mg/kg on the same schedule. In general, body weights and survival were unaffected by PCA administration. In rats the group given 18 mg/kg had mild haemolytic anaemia and slight increases in methaemoglobin at various times during the study. Fibrosis of the spleen was significantly increased in all PCA-treated groups of male rats and in the 18-mg/kg group of female rats. Sarcomas of the spleen occurred in male rats, their incidence being 0/49, 1/50, 3/50 and 38/50 in control low-, mid- and high-dose groups, respectively. There was a slightly increased incidence of pheochromocytomas of the adrenal gland in both male and female rats. Dosed groups of male mice had increased incidences of hepatocellular adenomas or carcinomas (11/50, 21/49, 20/50 and 21/50 in controls, low- mid- and high-dose groups, respectively). Haemangiosarcomas of the liver or spleen were also increased in the high-dose group (incidences of 4/50, 4/49, 1/50 and 10/50 in controls, low-, mid- and high-dose groups, respectively). In conclusion, PCA was carcinogenic in male rats and male mice.

Establishing aerosol exposure concentrations for inhalation toxicity studies

Criteria for the selection of aerosol concentrations to be used in inhalation studies assessing the toxicity and carcinogenicity of chemical substances were discussed by the authors in a meeting sponsored by the National Toxicology Program. Concepts in the design of aerosol inhalation studies emerged from that meeting and are being communicated through this publication. Inhalation studies assessing the toxicity and carcinogenicity of aerosols have often used maximum exposure levels on the basis of technological feasibility. Evidence has now accumulated that the amount of pulmonary burden of deposited particles impacts on particle clearance above some as yet not well-defined exposure concentration. The sequelae are such that lung clearance decreases with increased particulate burden to the point of approaching complete cessation. This paper focuses on the major determinants in establishing maximal aerosol concentrations for use in inhalation toxicity studies with special emphasis on experimental design features to assess lung retention. The subject matter of this paper is a rapidly developing area in terms of knowledge. Accordingly, the contents of this article are intended as guidelines and not as absolute rules for the conduct and interpretation of inhalation exposure studies.

Toxicity of p-chloroaniline in rats and mice

p-Chloroaniline (PCA) was administered as PCA hydrochloride in water by gavage to groups of ten Fischer 344 rats and ten B6C3F1 mice of each sex for 13 wk. The doses, calculated as PCA rather than the hydrochloride salt, were 0, 5, 10, 20, 40 or 80 mg PCA/kg body weight/day for rats and 0, 7.5, 15, 30, 60 or 120 mg/kg body weight/day for mice. The vehicle controls were given deionized water by gavage. All male rats survived to the end of the studies. One of the ten female rats that received 80 mg PCA/kg died from unknown causes. The final body weights of rats that received 80 mg/kg were 16% lower than those of vehicle controls in the case of males and 4% lower in females. In mice, there was no mortality related to PCA administration. The final body weights of treated mice were similar to those of vehicle controls. In both rats and mice, no treatment-related effects on organ weights were observed at autopsy, except for a dose-related increase in spleen weight. The proportion of haemoglobin in the form of methaemoglobin was increased in dosed groups in both species and resulted in a secondary anaemia, the severity of which was dose related. Compound-related lesions observed histologically in rats and mice, included pigmentation (haemosiderin) in the kidney, spleen and liver and increased haematopoiesis in the liver and spleen and in the bone marrow (in rats but not mice), reflecting the response to the haemolytic anaemia and methaemoglobinaemia induced by PCA. It is concluded that the haematopoietic system is a target of PCA toxicity.

Comparative carcinogenicity of ethylene thiourea with or without perinatal exposure in rats and mice

Chronic toxicity and carcinogenicity studies of ethylene thiourea (ETU), 97% pure, were conducted in F344/N rats and B6C3F1 mice of each sex. The major objective of the study was to determine if incorporation of perinatal exposure, in addition to the conventional exposure of young adult animals for 2 years, enhances the sensitivity of the bioassay in identification of the carcinogenic potential of chemicals when compared to the conventional exposure of animals to a chemical for 2 years, usually beginning at the age of 6-8 weeks. The studies were designed to determine (1) the toxic and carcinogenic effects of dietary ETU in rats and mice receiving perinatal exposure up to 8 weeks of age followed by control diet for 2 years, (2) the effects of ETU in rats and mice receiving exposure for 2 years beginning at the age of 8 weeks, and (3) the effects of combined perinatal/adult exposure to ETU (perinatal exposure to 8 weeks of age followed by the adult exposure for 2 years). During the perinatal period, rats were exposed to dietary ETU concentrations ranging from 9 to 90 ppm and adult exposure concentrations ranged from 25 to 250 ppm. In the mice, the perinatal exposure concentrations of ETU in the diet ranged from 33 to 330 ppm, and in the adults the concentrations were 100 to 1000 ppm. A total of eight exposure groups (including controls) were used with 60 animals in each group. Ten animals from each group were killed at Month 9 of the study for interim evaluation. The thyroid gland in rats and mice and the liver in mice were identified as target organs of ETU toxicity at the 9-month interim evaluation. The perinatal only exposure to ETU was not carcinogenic in rats or mice, while adult or perinatal/adult combination exposures to ETU were carcinogenic both in rats and in mice. The thyroid gland was the major site of ETU carcinogenicity both in rats and in mice. The liver and pituitary glands were other major sites of ETU carcinogenicity in mice. The carcinogenic effects of ETU were generally similar by adult and perinatal/adult combination protocols except that the incidences of thyroid tumors were slightly higher in the rats receiving the perinatal/adult combination of ETU exposure in the diet.

Circadian variations in microsomal drug-metabolizing enzyme activities in rat and rabbit tissues.

1. The circadian variations in drug-metabolizing enzyme activities have been measured in microsomal fractions from the livers, lungs, and intestines of rabbits and in the livers and intestines of rats. 2. Circadian rhythms in enzyme activities in the rat intestine show 2 peaks in activity (around 0500 and 1900 h) with two intermediate troughs around 1200 and 2400 h. This twin-peaked (biphasic) profile contrasts with the single maximum and minimum in activity observed in rat liver. 3. Rabbit hepatic, pulmonary, and intestinal microsomal drug-metabolizing enzyme activities also show a biphasic profile during a 24 h period. This profile is less distinct in liver than in intestine, and less distinct in intestine than in lung. Consequently, rat and rabbit hepatic drug metabolizing enzyme activities show a considerable species difference with respect to their circadian profiles in activity.

A comparative study of two procedures used in the determination of hepatic microsomal aniline hydroxylation

Abstract The hepatic microsomal parahydroxylation of aniline is measured by the determination of its product p -aminophenol (pAP). The pAP formed in incubation mixtures is assayed either after ether extraction or after trichloroacetic acid (TCA) precipitation. The TCA-precipitation method is simpler and less time-consuming than the ether-extraction method, but it has been found that the apparent recovery of pAP was lower in TCA supernatants than with the ether-extraction method. In the present work, it was found that the recovery of pAP by the TCA-precipitation method depended on the nature of NADPH-generating system used in the incubation mixture. When “soluble fraction” was used as a source of glucose-6-phosphate dehydrogenase for the reduction of NADP to NADPH, the recovery of pAP using the TCA-precipitation method was less than that with the ether-extraction method. But when “soluble fraction” was replaced by yeast glucose-6-phosphate dehydrogenase or by chemically prepared NADPH, the recovery of pAP was approximately equal with both the methods. Lowered recovery of pAP when added to the soluble fraction or its dialyzate might be due to the presence of sulfhydryl reacting groups. The addition of mercuric chloride to the soluble fraction dialyzate resulted in almost “full” recovery of pAP by the TCA-precipitation method, i.e., the apparent loss of pAP was prevented.

Carcinogenesis studies of cresols in rats and mice

Cresols, monomethyl derivatives of phenol, are high production chemicals with potential for human exposure. The three isomeric forms of cresol are used individually or in mixtures as disinfectants, preservatives, and solvents or as intermediates in the production of antioxidants, fragrances, herbicides, insecticides, dyes, and explosives. Carcinogenesis studies were conducted in groups of 50 male F344/N rats and 50 female B6C3F1 mice exposed to a 60:40 mixture of m- and p-cresols (m-/p-cresol) in feed. Rats and mice were fed diets containing 0, 1500, 5000, or 15,000 ppm and 0, 1000, 3000, or 10,000 ppm, respectively. Survival of each exposed group was similar to that of their respective control group. Mean body weight gains were depressed in rats exposed to 15,000 ppm and in mice exposed to 3000 ppm and higher. A decrease of 25% over that of controls for the final mean body weight in mice exposed to 10,000 ppm appeared to be associated with lack of palatability of the feed. A marginally increased incidence of renal tubule adenoma was observed in the 15,000-ppm-exposed rats. The increased incidence was not statistically significant, but did exceed the range of historical controls. No increased incidence of hyperplasia of the renal tubules was observed; however, a significantly increased incidence of hyperplasia of the transitional epithelium associated with an increased incidence of nephropathy was observed at the high exposure concentration. The only significantly increased incidence of a neoplastic lesion related to cresol exposure observed in these studies was that of squamous cell papilloma in the forestomach of 10,000-ppm-exposed mice. A definitive association with irritation at the site-of-contact could not be made because of limited evidence of injury to the gastric mucosa at the time of necropsy. However, given the minimal chemical-related neoplastic response in these studies, it was concluded that there was no clear evidence of carcinogenicity in male rats or female mice exposed to the cresol mixture.

Effects of the hepatic S9 fraction from aroclor-1254-treated rats on the mutagenicity of benzo[a]pyrene and 2-aminoanthracene in the salmonella/microsome assay

The mutagenicity of benzo[alpha]pyrene and 2-aminoanthracene for Salmonella typhimurium TA98 in the plate-incorporation test was studied using liver S9 from untreated and aroclor-1254-treated rats. The induction of liver S9 protein, arylhydrocarbon hydroxylase (AHH), and cytochrome P448/450 was followed with time. There was no change in protein concentrations with induction; AHH and cytochrome levels were increased at 1, 3, 5 and 7 days post Aroclor treatment. Benzo[alpha]pyrene mutagenicity was enhanced with Aroclor treatment while 2-aminoanthracene mutagenicity was depressed. The benzo[alpha]pyrene mutagenicity showed a positive correlation with the levels of AHH and cytochrome on the plate; 2-aminoanthracene showed a negative correlation with activity in induced samples.

Effects of vitamin A deficiency on hepatic and extrahepatic mixed-function oxidase and epoxide-metabolizing enzymes in guinea pig and rabbit

Abstract Male guinea pigs and male rabbits were fed a vitamin A deficient diet for 9 weeks and for 12 weeks respectively. Hepatic levels of vitamin A were significantly reduced in the vitamin A deficient animals. The activities of some xenobiotic-metabolizing enzymes were measured in the liver, lung and small intestine. Aryl hydrocarbon hydroxylase, aniline hydroxylase, and 7-ethoxycoumarin deethylase activities were decreased in the vitamin A deficient guinea pig liver. However, in the guinea pig small intestine, aniline hydroxylase, 7-ethoxycoumarin deethylase, aminopyrine demethylase, and aryl hydrocarbon hydroxylase specific activities were increased. In rabbits, vitamin A deficiency decreased hepatic aniline hydroxylase and 7-ethoxycoumarin deethylase activities but increased intestinal aminopyrine demethylase activity. Enzyme activities in lung were not altered by vitamin A deficiency in guinea pig or rabbit. Microsomal epoxide hydrase and microsomal supernatant glutathione S -transferase activities in the three tissues of both species were not altered by vitamin A deficiency.

Intestinal absorption of nutrients in rats treated with 2,3,7,8-tetrachlorodibenzo-p-dioxin (Tcdd)

Impairment of active intestinal absorption of glucose and leucine was observed in rats 2-3 wk after oral treatment with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) (5 and 100 mg/kg). At the higher dose level used this response was complicated by the effects of severely reduced food consumption. Malabsorption of specific nutrients may help occasion the body wasting seen in many animals after acute exposure to TCDD.