Helen V. Ratajczak

Evaluation of host resistance and immune function in cadmium-exposed mice☆

Adult female B6C3F1 mice received distilled water only or water containing 10, 50, or 250 ppm of cadmium chloride (CdCl2) for 90 days. Body weights were measured weekly. On selected days during exposure and on Day 91, Cd tissue concentrations were measured along with changes in primary antibody responses. On Day 91 mice also received a primary challenge with various infectious agents. T- and B-cell mitogenesis, natural killer (NK) cell function, delayed type hypersensitivity (DTH) as well as macrophage bactericidal activity, and phagocytosis were measured. There was no change in body weight gain, organ weights, or in humoral immunity during treatment even though cadmium had accumulated in significant quantities in the tissues. Compared with controls, exposure to cadmium had no statistically significant effect on mortality and mean survival time following primary or secondary challenge with any of the infectious agents. However, there was a dose-related, increased susceptibility to Herpes simplex type 2 virus. T- and B-lymphocyte proliferation was significantly reduced, and macrophage phagocytosis was significantly increased following cadmium exposure. NK cell activity was augmented, but not significantly. Macrophage bactericidal activity and DTH were not significantly altered.

Evaluation of host resistance and immunity in mice exposed to the carbamate pesticide aldicarb.

Adult female Swiss-Webster and B6C3F1 mice received distilled water only or water containing 0.1, 1.0, 10, 100, or 1000 ppb of aldicarb daily for 34 days. The target concentration of aldicarb present in the 10 ppb dosing solution was analytically verified on a daily basis as was its stability over a 48-hr period. To develop an immune profile of this compound, functional parameters measured after exposure included resistance to infectious viral challenge; quantitation of splenic antibody-forming cells to sheep erythrocytes and circulating serum antibody levels; splenic lymphocyte blastogenesis to T- and B-cell mitogens; and mixed-lymphocyte culture response. To supplement the functional assays, complete blood counts, differential leukocyte counts, and body and relative organ weights were measured. In addition, gross and histopathologic examinations of tissues relevant to the immune system were performed. The absence of significant effects on any of these parameters suggests that aldicarb at environmentally relevant exposure concentrations is not immunotoxic in rodents.

The pathologic and immunologic response to inhaled trimellitic anhydride in rats

Trimellitic anhydride (TMA) is a chemical intermediate used in the paint and plastics industry. Inhalation of TMA can induce four types of syndromes in TMA workers; three are immunologically based whereas the fourth, an irritant syndrome, is nonimmunologic. To evaluate the potential inhalation hazard of TMA under controlled conditions, Sprague-Dawley rats were exposed 6 hr/day via inhalation to target concentrations of 0, 10, 30, 100, and 300 micrograms/m3 for varying durations. Two sets of rats received either 5 or 10 exposures and were terminated. A third set received 10 exposures, and was held 12 days and terminated. A fourth set received 10 exposures, and was held 12 days, challenged with a single 6-hr exposure, and terminated. A fifth set received 10 exposures, and was held 12 weeks and terminated. There were no effects after 5 exposures; however, after 10 exposures the following parameters were increased in a concentration-related manner: absolute and relative lung weights, external hemorrhagic lung foci, alveolar macrophage accumulation, alveolar hemorrhage, pneumonitis, and lung and mediastinal lymph node nonspecific IgG and complement (C3). The rats exposed and rested 12 days were nearly recovered from these effects; however, rats rested 12 days and subsequently challenged exhibited lesions similar to those seen immediately following exposure. Exposed rats rested 12 weeks were completely normal in all of the above parameters. The timing and nature of the lung lesions, along with the presence of lung IgG and complement, are consistent with some of the known aspects of TMA-induced lesions in humans, and are reflective of results obtained from other hypersensitivity pneumonitis models.

The pathologic and immunologic effects of inhaled acrolein in rats

Four groups of 40 male Sprague-Dawley rats each were exposed by inhalation to target concentrations of 0, 0.1, 1.0, and 3.0 ppm of acrolein 6 h/day, 5 days/week for 3 weeks. Subsequent changes in local pulmonary immunity were determined by examining the number of antibody plaque-forming cells in the lung-associated lymph nodes following intratracheal immunization with sheep red blood cells. Separate groups of rats were evaluated for blastogenic responsiveness to phytohemagglutinin-P and Salmonella typhimurium antigen using spleen- and lung-associated lymph node cells. In vivo resistance was evaluated utilizing acrolein-exposed rats subsequently challenged with intravenous Listeria monocytogenes. Local pulmonary antibody responsiveness was not affected by acrolein exposure. Lymphocyte blastogenesis and resistance to Listeria challenge were not altered. Body weights and spleen weights were decreased in the 3 ppm-exposed group only. Microscopic examination of the nasal turbinates revealed acrolein-induced exfoliation, erosion, and necrosis of the respiratory epithelium as well as squamous metaplasia, however, lung histology was not affected. Thus at environmental concentrations, acrolein toxicity appeared to be confined to local nasal pathologic changes with no alterations in lung histology or immune function.

Surgical Influence on Murine Immunity and Tumor Growth: Relationship of Body Temperature and Hormones with Splenocytes

Abstract Adrenalectomy predisposed the C3HeB/FeJ Mouse to tumor from a low dose of tumor cells, derived from a C3H spontaneous mammary adenocarcinoma. Sham surgery had a similar effect. In contrast, ovariectomized females, intact females, and male mice did not allow the low dose of cells to develop into a tumor. In order to better understand the role of hormones on the immune system controlling tumor growth, normal C3HeB/FeJ mice were studied for the effect of corticosterone or estradiol on splenic lymphocyte surface antigen expression. Adrenalectomy and ovariectomy caused a decrease in the percentage of all T cell subclasses and an increase in absolute numbers of immunoglobulin-bearing cells. Reconstitution of ovariectomized mice with estradiol did not significantly alter lymphocyte cell surface antigen expression. In contrast, injection of corticosterone into adrenalectomized mice brought these values to normal. Further study on normal mice placed on a 12:12-hr light:dark schedule showed that the hours after lights on (HALO) had a significant effect (analysis of variance) on body temperature, percentage of splenic B cells, T pan, T helper and T suppressor cells, and absolute numbers of T pan cells. Brain dehydroepiandrosterone sulfate correlated positively with T pan lymphocytes, but showed no significant effect on HALO. In contrast, body temperature showed a strong circadian rhythm (P < 0.001). In addition, the presentation of estrus was circadian rhythmic (P = 0.003) with 58% of mice in estrus at 16 HALO and only 8% at 4 HALO. Multiple regression analysis revealed body temperature was strongly associated with absolute numbers of splenic T lymphocytes and their subsets, as well as percentage of B lymphocytes, Thy 1.2-, and Lyt-2-bearing cells. Similarly, HALO and estrous cycle stage were associated with percentage of T helper cells.

An immunotoxicity assessment of food flavouring ingredients

A rapid screening protocol incorporating key elements of the US National Toxicology Programs immunotoxicity tier testing strategy was used to evaluate the effects of 35 commonly used food flavouring ingredients on humoral and cell-mediated immune responses. The test compounds were administered intragastrically on a daily basis for 5 days at three dose levels to female CD-1 or B6C3F1 mice, 6-8 wk old. A host resistance assay (Listeria monocytogenes bacterial challenge) was conducted to assess cell-mediated immunity. Humoral immunity was measured by the antibody plaque-forming cell (PFC) response to sheep erythrocytes. Body weights, lymphoid organ weights and spleen cellularity were also measured. Cyclophosphamide (80 mg/kg) served as an immunosuppressive positive control agent. The results indicated that the majority of the flavouring ingredients tested did not modulate the cell-mediated or humoral immune response. However, at very high dose levels, two of the materials tested, peppermint oil and citral dimethyl acetal, did increase mortality rate and reduce survival time in the host resistance assay. Neither of these materials significantly altered the PFC response. This rapid, economical screening battery for potential immunotoxicants proved to be a useful means of evaluating a large number of structurally diverse compounds and mixtures to prioritize them for more definitive testing.

Aldicarb Immunotoxicity: Functional Analysis of Cell-Mediated Immunity and Quantitation of Lymphocyte Subpopulations

Adult female B6C3F1 mice received distilled water only or water containing 1.0, 10, or 100 ppb of aldicarb daily for 34 days. The target concentration of aldicarb present in the 100 ppb dosing solution was analytically verified. To further develop an immune profile of this compound, following aldicarb exposure, the ability of splenic natural killer cells and specifically sensitized cytotoxic T-lymphocytes to lyse YAC-1 lymphoma and P815 tumor cells, respectively, was evaluated. To supplement the functional assays, the impact of aldicarb exposure on the percentages and absolute numbers of total T-cells, T-suppressor, T-helper, and B-cells was evaluated. The absence of statistically significant effects on any of these parameters supports earlier reports that aldicarb does not result in adverse effects on the immune system of mice.

Evidence for Genetic Basis of Seasonal Differences in Antibody Formation Between Two Mouse Strains

In order to confirm the presence of an acrophase difference based upon genotype in the seasonal expression of an immune competence end point, splenic plaque-forming cell (PFC) response to sheep red blood cells (SRBC), female B6C3F1 and CD1 mice were concurrently studied for PFC response during two studies performed in each season for 1 year. Mice were multiply housed, fed ad libitum, and standardized to light (06:00-18:00); dark (18:00-06:00). For each strain and study, subgroups were either naive (n = 10), received a vehicle (n = 10) or Cytoxan (n = 5). Challenge with SRBC occurred in early afternoon 4 days before harvesting of spleens and PFC assay. All other procedures were performed early in the daily light span. Analysis of variance and single cosinor analysis revealed a significant seasonal time effect for PFC in naive mice of both strains. Antibody formation was greatest in spring for CD1 mice and in summer for the B6C3F1 mice. These acrophases were consistent with earlier results for both strains and show the phenomena to be reproducible and genetically based.

Assessment of carbamate pesticide immunotoxicity.

Adult female Swiss Webster and B6C3F1 mice received distilled water only or water containing 0.1, 1.0, 10, 100 or 1000 ppb of aldicarb daily for 34 days. The target concentration of aldicarb present in the 10 ppb dosing solution was analytically verified on a daily basis as was its stability over a 48-hr period. To develop an immune profile of this compound, functional parameters measured after exposure included resistance to infectious viral challenge; quantitation of splenic antibody-forming cells to sheep erythrocytes; splenic lymphocyte blastogenesis to B-cell mitogens; and T-cell mixed lymphocyte culture response. In addition, gross and histopathologic examinations of tissues relevant to the immune system were performed. The absence of significant effects on any of these parameters suggests that aldicarb at environmentally relevant exposure concentrations is not immunotoxic in rodents.

Effects of inhalation of ethylene dichloride on pulmonary defenses of mice and rats

The effects of single or multiple inhalation exposures to ethylene dichloride (DCE) on the pulmonary defense systems of mice and rats were evaluated. Single exposures of mice to the threshold limit value of DCE (10 ppm) resulted in decreased pulmonary bactericidal activity to inhaled Klebsiella pneumoniae and increased mortality from Streptococcus zooepidemicus respiratory infection. A single exposure to 5 ppm DCE caused increased mortality from streptococcal pneumonia although bactericidal activity was not affected. Neither of these two parameters changed following single or five consecutive daily exposures to 2.5 ppm DCE. Single exposures to 10 or 100 ppm DCE did not affect mouse alveolar macrophage (AM) inhibition of the proliferation of a tumor target cell in vitro or AM in vitro phagocytosis of red blood cells. In rats, no effects were observed on pulmonary bactericidal activity. AM in vitro phagocytosis, AM cytostasis and cytolysis of tumor target cells, AM ectoenzymes, or blastogenesis of mitogen-stimulated rat T- and B-lymphocytes from lung-associated, mesenteric, and popliteal lymph nodes following single exposure to 100 or 200 ppm DCE or after twelve 5-hr exposures to 10, 20, 50, or 100 ppm DCE.