Donald W. Barnes

Immunosuppression without liver induction by subchronic exposure to 2,7-dichlorodibenzo-p-dioxin in adult female B6C3F1 mice

The overall objective of this investigation was to begin to characterize the structure-activity relationship associated with dioxin-induced suppression of humoral immunity. Subchronic exposure (14 days) to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), the prototype of the class, produced a suppression of the antibody responses to both sheep erythrocytes, a T-dependent antigen, and dinitrophenyl-Ficoll, a T-independent antigen. Surprisingly, similar results were observed with 2,7-dichlorodibenzo-p-dioxin (DCDD), a dioxin congener lacking affinity for the Ah receptor. In contrast, subchronic exposure to octachlorodibenzo-p-dioxin (OCDD), another dioxin congener without affinity for the Ah receptor, was devoid of activity. Subchronic exposure to 2,3,7,8-TCDD, but not 2,7-DCDD, produced an induction of several liver parameters including: liver weight, amount of microsomal protein, amount of cytochrome P-450, activity of aminopyrine-N-demethylase and activity of aryl hydrocarbon hydroxylase. Subchronic exposure to 2,3,7,8-TCDD or 2,7-DCDD produced no marked changes in thymus weight. Acute exposure to 2,3,7,8-TCDD also produced suppression of the antibody response in the absence of effects on the thymus.

Toxicology of trichloroethylene in the mouse

Abstract The purpose of this study was to evaluate the acute and subchronic toxicology of trichloroethylene (TCE) in the mouse. The oral LD50 in female mice was 2443 mg/kg (95% confidence limits of 1839–3779 mg/kg) and in male mice was 2402 mg/kg (95% confidence limits of 2065–2771 mg/kg). After determination of the LD50 by the oral route, a 14-day study was done in male CD-1 mice in which TCE was administered daily by gavage at 24 and 240 mg/kg. A subchronic drinking water study was designed based on these data, in which TCE at concentrations of 0.1, 1.0, 2.5, and 5.0 mg/ml was used, and mice of both sexes were exposed for 4 or 6 months. There was a decreased body weight gain at the highest dose, which could be attributed to a decrease in fluid consumption. The most significant effects attributable to TCE were an increase in liver weight in both sexes accompanied by increased nonprotein sulfhydryl levels in the males, and an increase in kidney weight in both sexes accompanied by increases in protein and ketones in the urine. TCE failed to elicit any other adverse effects.

The role of metabolism in carbon tetrachloride-mediated immunosuppression: in vivo studies

The role of metabolic bioactivation for carbon tetrachloride-mediated suppression of humoral responses was investigated in B6C3F1 mice. Subchronic studies with CCl4 demonstrated that this chlorinated hydrocarbon markedly suppressed T-dependent antibody responses following 7 consecutive days of administration at doses between 500 and 5000 mg/kg. No significant difference in the magnitude of suppression was observed between the ip and oral routes of exposure. Thirty-day ip administration of CCl4 at doses as low as 25 mg/kg also resulted in a significant inhibition of T-dependent antibody responses. The results from both the 7-day and the 30-day studies indicate that a greater than 50% suppression of antibody responses could not be achieved even at doses of CCl4 as high as 5000 mg/kg. In vivo studies utilized the cytochrome P450 competitive inhibitor, aminoacetonitrile (AAN), in an effort to block the effects of exposure to CCl4. Both the hepatotoxicity, as measured by serum glutamic pyruvic transaminase levels, and the suppression of the T-dependent antibody response to sRBC were reversed by treatment with AAN. Conversely, induction of cytochrome P450, by pretreatment of mice with ethanol prior to treatment with CCl4, resulted in the potentiation of the immunosuppressive effects of CCl4. AAN and ethanol administered alone had no effect on antibody responses. In order to assess the effect of CCl4 treatment on cytochrome P450 activity at doses which cause immunosuppression, measurements of total microsomal protein and specific substrate activities were determined. Significant decreases were observed in both total hepatic microsomal protein as well as in aminopyrine N-demethylase activity, aniline hydroxylase activity, and aryl hydrocarbon hydroxylase activity following treatment with CCl4 for 7 days at doses ranging from 5 to 1000 mg/kg. All of the cytochrome P450 parameters that were measured, following CCl4 treatment, demonstrated very flat dose-response curves which appeared to parallel the effects of CCl4 on antibody responses.

Naphthalene Toxicity in CD-1 Mice: General Toxicology and Immunotoxicology

Random bred CD-1 mice were used to evaluate the acute oral toxicity and subchronic toxicity of naphthalene administered in corn oil. The acute oral LD50 of naphthalene was 533 and 710 mg/kg in male and female mice, respectively. Subchronic toxicity was evaluated with 14- and 90-day daily oral gavage studies. Doses utilized in the 14-day study were 27, 53, and 267 mg/kg, with the latter representing one-half of the male LD50. Both males and females demonstrated a 5-10% mortality and depressed body weight at the high dose only. Males had decreased thymus weights, and females had decreased spleen and increased lung weights at the high dose only. Other organ weights were unaffected at any dosage level. Serum enzyme and electrolyte levels were not altered in a dose-related manner. To assess the potential immunotoxicity of naphthalene the following screen was utilized: humoral immune response, response to mitogens, delayed hypersensitivity response, popliteal lymph node response, bone marrow stem cell number, and DNA synthesis. No evidence of immunotoxicity was demonstrated. The 90-day study employed daily oral doses of 5.3, 53, and 133 mg/kg. There was no treatment-related mortality in either sex, nor was body weight affected. Organ weights were not affected in males, and females showed reduced spleen weights only at the high dose. Serum enzyme and electrolyte levels, as well as the immunotoxicity screen, indicated that naphthalene doses up to one-fourth the LD50 for 90 days failed to elicit consistent statistically significant and biologically relevant compound-related effects. A screen of the effects of the 90-day naphthalene treatment on various aspects of the hepatic drug metabolizing system indicated no alterations, with the exception of a specific dose-related inhibition of aryl hydrocarbon hydroxylase activity in both male and female mice.

Immunotoxicological Investigations in the Mouse: General Approach and Methods

The adverse effects of chemicals on the lymphoreticular system have generated considerable toxicological interest. In this series of papers, the effects of selected environmentally relevant compounds are reported. This first paper describes the methods and general approach used in judging a chemicals potential risk to the immune system. Risk evaluation was approached utilizing acute, 14- and 90-day studies. Both sexes of the CD-1 random-bred mouse were employed. The immune system was evaluated against a background of more standard toxicological parameters, which included fluid consumption, body and organ weights, hematology, serum and liver chemistries, hepatic microsomal enzyme activities and blood coagulation. Bone marrow status was evaluated by assessing DNA synthesis. Humoral immunity was evaluated by determining the number of IgM spleen antibody-forming cells (AFC) to sheep erythrocytes (sRBC), the serum antibody level to sRBC, and spleen lymphocyte response to the B cell mitogen, lipopolysaccharide (LPS). The status of cell-mediated immunity was assessed by quantitating the delayed type hypersensitivity (DTH) response to sRBC, proliferation of the popliteal lymph node, and the spleen cell response to the T lymphocyte mitogen, Concanavalin A (Con A). Macrophage function was evaluated by measurement of the vascular clearance rate and distribution of radiolabeled sRBC in the liver, spleen, lungs, and thymus, and recruitability, adherence, chemotaxis, and phagocytic activity of peritoneal exudate cells (PEC). Historical control data from six 14- and 90-day studies conducted over a one year period are given. The data resulting from these types of studies can provide a basis for the initial evaluation of a chemicals adverse effect on the immune system.

TOXICOLOGY OF TRANS-1,2-DICHLOROETHYLENE IN THE MOUSE

Trans-1,2-dichloroethylene (DCE) was administered to male and female CD-1 mice in order to evaluate its effects on standard toxicological parameters. Following an acute LD50 determination (2122 mg/kg in males and 2391 mg/kg in females) and a 14-day range-finding study, a 90-day drinking water study was performed using levels of DCE calculated to deliver approximately 1/100, 1/10, and 1/5 the LD50. Various toxicological assessments were made, including body and organ weights, hematology, serum chemistries, and hepatic microsomal activities. Few alterations were observed in either sex following 90 days of exposure. The most noteworthy changes occurred in the males exposed to the highest level of DCE, where there was a significant decrease in glutathione levels, and in the females exposed to all three DCE levels, where there was a significant decrease in aniline hydroxylase activity. These data served as background for the immunotoxicological evaluation presented in the following manuscript.

Subchronic Toxicology of Diethystilbestrol in the Mouse

This study evaluated the subchronic (14-day) toxicity of selected (0.2, 1.0, and 4.0 mg/kg) daily subcutaneous injections of diethylstilbestrol (DES) in female (C57B1/6 X C3H)F1 mice. Parameters observed included body and organ weights, gross organ morphology, histopathology, clinical chemistry, and hepatic microsomal enzyme activities. The liver, bone marrow, and thymus are major target organs for DES. Liver enlargement, with associated histopathological changes consistent with mild hepatitis, centrolobular necrosis, and sinusoidal changes were observed. Supporting the histological changes were alterations in serum enzyme levels and microsomal enzyme activity. Bone marrow changes included decreases in the number of cells as well as the number of colony forming units per gram stem cells. Toxicity to the thymus was evidenced by decreased thymic weights and lymphocyte depletion. The hepatic and thymic effects were observed at the lowest (0.2 mg/kg) dose. Although all parameters were not assessed for recovery, those that were evaluated returned to control levels by thirty days after treatment.

Toxicology of 1,1,2-Trichloroethane in the Mouse

1,1,2-Trichloroethane (TCE) was administered to male and female CD-1 mice to evaluate its effect on standard toxicological parameters. Following determination of the acute LD50 (378 mg/kg in males and 491 mg/kg in females), and a 14-day range-finding study, a 90-day drinking water study was performed in which the doses consumed were 4.4, 46, and 305 mg/kg for males and 3.9, 44, and 384 mg/kg for females. The liver was a target of TCE toxicity in both sexes as demonstrated by dose-dependent alterations in hepatic microsomal enzyme activities and serum enzyme levels. The erythroid element of the female mice was also affected, as indicated by significantly decreased hematocrit and hemoglobin levels.