Kamal M. Abdo

Hexavalent chromium is carcinogenic to F344/N rats and B6C3F1 mice after chronic oral exposure.

Background Hexavalent chromium [Cr(VI)] is a human carcinogen after inhalation exposure. Humans also ingest Cr(VI) from contaminated drinking water and soil; however, limited data exist on the oral toxicity and carcinogenicity of Cr(VI). Objective We characterized the chronic oral toxicity and carcinogenicity of Cr(VI) in rodents. Methods The National Toxicology Program (NTP) conducted 2-year drinking water studies of Cr(VI) (as sodium dichromate dihydrate) in male and female F344/N rats and B6C3F1 mice. Results Cr(VI) exposure resulted in increased incidences of rare neoplasms of the squamous epithelium that lines the oral cavity (oral mucosa and tongue) in male and female rats, and of the epithelium lining the small intestine in male and female mice. Cr(VI) exposure did not affect survival but resulted in reduced mean body weights and water consumption, due at least in part to poor palatability of the dosed water. Cr(VI) exposure resulted in transient microcytic hypochromic anemia in rats and microcytosis in mice. Nonneoplastic lesions included diffuse epithelial hyperplasia in the duodenum and jejunum of mice and histiocytic cell infiltration in the duodenum, liver, and mesenteric and pancreatic lymph nodes of rats and mice. Conclusions Cr(VI) was carcinogenic after administration in drinking water to male and female rats and mice.

Toxicity and carcinogenicity study in F344 rats following 2 years of whole-body exposure to naphthalene vapors.

The toxicologic and carcinogenic potential of naphthalene was studied by exposing groups of 49 male and 49 female F344 rats to atmospheres containing 0, 10, 30, or 60 ppm of the chemical for 6 h daily, 5 days/wk for 2 yr. Mean body weights of exposed groups of male rats were less than for the control group throughout most of the study. Mean body weights of exposed female rats were generally similar to those of controls. Survival of exposed and control rats was similar. Under the conditions of this 2-yr inhalation study, naphthalene was carcinogenic to male and female F344/N rats, causing increased incidences of respiratory epithelial adenoma (males: control, 0%; low dose, 12%, mid dose, 17%; high dose, 31%; females: 0%; 0%; 8%; 4%) and olfactory epithelial neuroblastoma (males: control, 0%; low dose, 0%; mid dose, 8%; high dose, 6%; females: 0; 4%; 6%; 24%) of the nose. In both sexes of rats, exposure to naphthalene also caused significant increases in the incidences of nasal lesions including hyperplasia, atrophy, chronic inflammation, and hyaline degeneration of the olfactory epithelium and hyperplasia; squamous metaplasia, hyaline degeneration, and goblet-cell hyperplasia of the respiratory epithelium; and glandular hyperplasia and squamous metaplasia.The toxicologic and carcinogenic potential of naphthalene was studied by exposing groups of 49 male and 49 female F344 rats to atmospheres containing 0, 10, 30, or 60 ppm of the chemical for 6 h daily, 5 days/wk for 2 yr. Mean body weights of exposed groups of male rats were less than for the control group throughout most of the study. Mean body weights of exposed female rats were generally similar to those of controls. Survival of exposed and control rats was similar. Under the conditions of this 2-yr inhalation study, naphthalene was carcinogenic to male and female F344/N rats, causing increased incidences of respiratory epithelial adenoma (males: control, 0%; low dose, 12%, mid dose, 17%; high dose, 31%; females: 0%; 0%; 8%; 4%) and olfactory epithelial neuroblastoma (males: control, 0%; low dose, 0%; mid dose, 8%; high dose, 6%; females: 0; 4%; 6%; 24%) of the nose. In both sexes of rats, exposure to naphthalene also caused significant increases in the incidences of nasal lesions including hyperplasia, atrophy, chronic inflammation, and hyaline degeneration of the olfactory epithelium and hyperplasia; squamous metaplasia, hyaline degeneration, and goblet-cell hyperplasia of the respiratory epithelium; and glandular hyperplasia and squamous metaplasia.

Caloric Restriction and Toxicity

The modulatory effects of caloric intake on the rate and extent of both spontaneous and induced disease incidence is well known, but the significance of these effects in the interpretation of testing data has only recently become appreciated. This is especially true relative to the impact of caloric intake on both survival and background incidence for common tumors. In order to enhance the health and survival of animals ongoing chronic toxicity testing it has been suggested that such tests should restrict food consumption. Although this restriction will result in increasing survival of the test animals, it may also effect the expression of toxicity by altering agent metabolism and disease progression. Focus in this symposium is on the necessity to control dietary consumption in toxicity tests (dietary control), and if such a need does exist to what level of consumption should be diet be focused (caloric restriction).

Exposure to Hexavalent Chromium Resulted in Significantly Higher Tissue Chromium Burden Compared With Trivalent Chromium Following Similar Oral Doses to Male F344/N Rats and Female B6C3F1 Mice

In National Toxicology Program 2-year studies, hexavalent chromium [Cr(VI)] administered in drinking water was clearly carcinogenic in male and female rats and mice, resulting in small intestine epithelial neoplasms in mice at a dose equivalent to or within an order of magnitude of human doses that could result from consumption of chromium-contaminated drinking water, assuming that dose scales by body weight(3/4) (body weight raised to the 3/4 power). In contrast, exposure to trivalent chromium [Cr(III)] at much higher concentrations may have been carcinogenic in male rats but was not carcinogenic in mice or female rats. As part of these studies, total chromium was measured in tissues and excreta of additional groups of male rats and female mice. These data were used to infer the uptake and distribution of Cr(VI) because Cr(VI) is reduced to Cr(III) in vivo, and no methods are available to speciate tissue chromium. Comparable external doses resulted in much higher tissue chromium concentrations following exposure to Cr(VI) compared with Cr(III), indicating that a portion of the Cr(VI) escaped gastric reduction and was distributed systemically. Linear or supralinear dose responses of total chromium in tissues were observed following exposure to Cr(VI), indicating that these exposures did not saturate gastric reduction capacity. When Cr(VI) exposure was normalized to ingested dose, chromium concentrations in the liver and glandular stomach were higher in mice, whereas kidney concentrations were higher in rats. In vitro studies demonstrated that Cr(VI), but not Cr(III), is a substrate of the sodium/sulfate cotransporter, providing a partial explanation for the greater absorption of Cr(VI).

Thirteen-week toxicity study of d-α-tocopheryl acetate (vitamin E) in Fischer 344 rats

A 13-wk study was conducted by administering d-alpha-tocopheryl acetate (vitamin E) in corn oil by gavage to groups of ten male and ten female Fischer 344 rats at doses of 0, 125, 500 or 2000 mg/kg body weight daily for 13 wk. The dose of corn oil given was 3.5 ml/kg. Additional groups of ten males and ten females were included and served as untreated controls. Deaths occurred only in males at 2000 mg/kg. Vitamin E dosing had no effect on body weight or food consumption. The liver-to-body weight ratio of females at 2000 mg/kg was significantly increased. In males, high levels of vitamin E (2000 mg/kg) caused prolongation of both prothrombin and activated partial thromboplastin (APTT) times, reticulocytosis and a decrease in haematocrit values and haemoglobin concentrations. APTT was also lengthened in females at this dose level. High levels (2000 mg/kg) caused haemorrhagic diathesis in both males and females and increased medullary erythropoiesis in the spleen of one male. Vitamin E at all doses tested caused interstitial inflammation and adenomatous hyperplasia of the lung. The above findings indicate that vitamin E administration in excessive amounts is potentially toxic.

The sensitivity of the NTP bioassay for carcinogen hazard evaluation can be modulated by dietary restriction

Studies were undertaken to compare outcomes when four chemicals were evaluated under typical NTP bioassay conditions as well as by protocols employing dietary restriction. Four chemicals, using three different routes of exposure (in utero [accomplished by feeding the dam dosed feed], dosed feed, and gavage) were used to 1) evaluate the effect of diet restriction on the sensitivity of the bioassay toward chemically-induced chronic toxicity and carcinogenicity; and 2) evaluate the effect of weight-matched control groups on the sensitivity of the bioassays. Control and chemical exposed F344 rats and B6C3F1 mice (50-60/group) were fed NIH-07 diet either ad libitum or at restricted levels such that body weights were approximately 80% of ad libitum control weights. The dietary restricted groups were either sacrificed at the end of two or 3-years. Results consistently show that feed restriction decreased the incidence of neoplastic and non-neoplastic lesions at a variety of anatomic sites in both control and chemical exposed animals. Furthermore, the sensitivity of the bioassay to detect chemical carcinogenic response were altered by dietary restriction: three of the four chemicals were found to increase the incidence of neoplastic lesions at four sites when evaluated under standard ad libitum conditions for 104 weeks. When unexposed and exposed groups were both subjected to dietary restriction, none of these 4 sites were detected as a target for carcinogenesis after two or three years. Rather, two different sites of carcinogenesis were detected. When the top dosed ad libitum fed animals were compared against their weight-matched control groups, a total of 10 sites were identified as targets for carcinogenesis. These included all four sites identified under the ad libitum protocol, both sites identified under the feed restricted protocol, and an additional four sites that were not identified under the other two protocols. These studies show that dietary restriction of all animals can be expected of decrease the sensitivity of carcinogenesis bioassays. However, restricting only unexposed groups (weight matching) of control for non-specific weight loss in chemical exposed groups yielded the most sensitivity among our comparisons.

Effects of gavage versus dosed feed administration on the toxicokinetics of benzyl acetate in rats and mice

Effects of gavage versus dosed feed administration on the toxicokinetics of benzyl acetate were studied in male F344 rats and B6C3F1 mice. Benzyl acetate was rapidly hydrolysed to benzyl alcohol and then oxidized to benzoic acid. After gavage administration of benzyl acetate in corn oil at 500 mg/kg (rats) and 1000 mg/kg (mice), high benzoic acid plasma concentrations were observed. In contrast, much lower benzoic acid plasma concentrations were found after dosed feed administration at about 615 mg/kg/day for rats and about 850 mg/kg/day for mice. Results show that although the daily doses of benzyl acetate are comparable, bolus gavage administration effectively saturated the benzoic acid elimination pathway whereas dosed feed administration did not. In contrast, hippuric acid plasma concentrations were similar after both gavage and dosed feed administration due to the depletion of the glycine supply pool. Study results could explain the different toxicity and carcinogenicity responses of benzyl acetate observed in 2-yr chronic gavage and dosed feed studies.

Chronic Kidney Disease and Organic Chemical Exposures: Evaluations of Causal Relationships in Humans and Experimental Animals

Chronic renal failure is a serious health problem in the United States and other developed countries, and large amounts of public funds are being expended for what is essentially palliative treatment of this disease. Historical data also indicate increasing trends for urinary tract cancers of both sexes in the United States. Although the data on humans are not definitive, causal associations appear to exist between occupational exposures to some hydrocarbon solvents and chronic kidney disease, and there is preliminary evidence that suggests an association between organic chemical exposures and cancers of the urinary tract in humans. A review of more than 230 chemicals tested in two-year chronic toxicity studies by the National Toxicology Program (NTP)/National Cancer Institute (NCI) has identified two chemical classes that commonly produced nonneoplastic chronic renal disease in rodents: aromatic amines and organohalides. Tumors of the kidney were most frequently produced by alkyl or alkenyl halide compounds, while tumors of the bladder were caused by aromatic amines. Consistent with many literature reports, short-chain halogenated hydrocarbons appeared to have a propensity for causing a low incidence of renal tubular carcinoma in exposed rodents. Comparative analyses of the NTP/NCI studies did not indicate consistent sex or species differences in the nonneoplastic chronic toxic response, but chemically induced urinary tract cancers occurred more commonly in rats than in mice, and chemically induced cancers of the kidney occurred more commonly in males than in females. Viewed collectively, these data indicate a potential for organic chemicals, especially halogenated hydrocarbons and aromatic amines, to produce chronic kidney injury in humans and other mammalian species.(ABSTRACT TRUNCATED AT 250 WORDS)

A review of whole animal bioassays of the carcinogenic potential of naphthalene

This report provides a summary of deliberations conducted under the charge for members of Module A participating in the Naphthalene State-of-the-Science Symposium (NS3), Monterey, CA, October 9-12, 2006. Whole animal bioassays have been performed by the National Toxicology Program in mice and rats to ascertain the carcinogenic potential of naphthalene by inhalation exposure. A statistically significant increased incidence of pulmonary alveolar/bronchiolar adenoma (a benign lesion), was observed among female mice; an observed increase among the males did not reach statistical significance. No nasal tumors were observed in either sex. A tumorigenic response was observed in both sexes of rats, in males an increased incidence of nasal respiratory epithelium adenoma (a benign rather than malignant lesion) and in females, olfactory epithelial neuroblastoma. Interpretations of these studies vary. On the one hand, evidence of extensive non-neoplastic response in both sexes of both species indicates cytotoxicity occurred at all doses, and strongly suggests that cytotoxicity played a significant role in the tumor responses observed in the target tissues. On the other hand, olfactory epithelial neuroblastoma has rarely been observed in NTP bioassays. This review seeks to develop a consensus understanding of the scientific evidence provided by these studies, taking into account that they have been used as the basis for quantitative human cancer risk assessment, and suggests scientific studies that, if performed, could resolve scientific uncertainties.

Morphology of Nasal Lesions in F344/N Rats Following Chronic Inhalation Exposure to Naphthalene Vapors:

Naphthalene (CAS No. 91-20-3) administered by inhalation at concentrations of 10, 30, or 60 ppm for 6 hours per day, 5 days per week for 105 weeks caused nonneoplastic and neoplastic effects in nasal respiratory and olfactory regions of male and female F344/N rats. Non-neoplastic nasal effects were characterized by an increase in the incidence and severity of a complex group of lesions, including atypical hyperplasia, atrophy, chronic inflammation, and hyaline degeneration of olfactory epithelium; hyperplasia, squamous metaplasia, hyaline degeneration, and goblet cell hyperplasia of the respiratory epithelium; and hyperplasia and squamous metaplasia of mucosal glands. Neoplastic effects were characterized by the induction of two types of rare primary nasal tumors, olfactory neuroblastomas and respiratory epithelial adenomas. The incidences of olfactory neuroblastomas in males at 0 ppm, 10 ppm, 30 ppm, and 60 ppm were, respectively, 0%, 0%, 8%, and 6%, whereas in females they were 0%, 4%, 6%, and 24%. The incidences of respiratory epithelial adenomas in males at 0 ppm, 10 ppm, 30 ppm, and 60 ppm were, respectively, 0%, 12%, 17%, and 31% and in females 0%, 0%, 8%, and 4%. The olfactory neuroblastomas and respiratory epithelial adenomas were considered carcinogenic effects related to naphthalene exposure based on their relatively high incidence in exposed rats, their absence in concurrent control rats and NTP historical controls, and their rare spontaneous occurrence in rats of any strain.