A T-dependent antibody response evaluation in CD-1 mice after an acute whole-body inhalation exposure to nickel (II) chloride hexahydrate.

Nickel (Ni) in ambient air may vary regionally with contributions from both natural processes and anthropogenic activities. Exposure to Ni compounds in ambient air above a certain level is associated with acute adverse effects, such as upper respiratory tract irritation, pneumonitis, and chronic adverse effects, such as respiratory cancer. Inhalation reference exposure standards are enacted in different jurisdictions to minimize exposures to ambient Ni above levels that can elicit adverse effects. This paper reports a guideline-/GLP-compliant study designed for setting inhalation exposure standards to protect from immunological effects associated with acute exposure to Ni. Female CD-1 mice were exposed via whole-body inhalation to aerosolized nickel chloride hexahydrate for 24-hr at nominal (vs. mean analyzed) concentrations of 20 (16), 50 (44) and 100 (81) µg Ni/m3. Host T-cell antibody immunological responses to intravenously-injected sheep red blood cells were then measured ex vivo in an Antibody-Forming Cell (AFC) assay. Exposure to the Ni substance significantly decreased spleen cell levels by 33%, but this was within biological variability for outbred mice. No concurrent decreases in spleen, thymus, or body weights were noted. No immunosuppression was observed with the Ni substance in the context of Total Spleen Activity [IgM AFC/spleen (× 103)] and Specific Activity [IgM AFC/spleen cells (× 106)]. Significant concentration-independent increases in Total Spleen Activity and Specific Activity seen with the nickel chloride hexahydrate were normal and within biological variability for outbred mice. In contrast, cyclophosphamide (positive control) significantly decreased spleen cell numbers, spleen and thymus weights, and abolished Specific Activity and Total Spleen Activity. Based on results here, an NOAEC of 81 µg Ni/m3 for immunosuppressive effects from inhaled nickel chloride hexahydrate was identified. It is hoped this value can be used to derive a reference standard for human exposure to ambient Ni.

Lack of immunotoxic effects of repeated exposure to atrazine associated with the adaptation of adrenal gland activation.

T cell-dependent IgM antibody production and natural killer cell (NKC) activity were assessed in SD rats orally administered atrazine for 28 days to males (0, 6.5, 25, or 100 mg/kg/day) or females (0, 3, 6, or 50 mg/kg/day), or 30 or 500 ppm in diet (3 or 51 mg/kg/day). Anti-asialo GM1 antibodies (NKC) and cyclophosphamide (antibody-forming cell assay [AFC]) served as positive controls. Pituitary (ACTH, prolactin), adrenal (corticosterone, progesterone, aldosterone), and gonadal (androgens, estrogens) hormones were assessed after 1, 7, and/or 28 days of treatment. Food intake and body weights were significantly reduced in the highest dosed males, and transiently affected in females. Urinary corticosterone levels were not increased in atrazine-treated groups in either sex at any time point measured (10, 22, or 24 days). Corticosterone and progesterone were elevated in males after a single atrazine dose ≥6.5 mg/kg/day, but not after 7, 14, or 28 doses. There were no effects on adrenal, pituitary, or gonadal hormones in females. Atrazine did not suppress the AFC response or decrease NKC function after 28 days in males or females. Atrazine had no effect on spleen weights or spleen cell numbers in males or females, although thymus weights were elevated in males receiving the highest dose. The lack of immunotoxic effect of atrazine was associated with diminished adrenal activation over time in males, and no effects on adrenal hormones in females.

Health assessment of gasoline and fuel oxygenate vapors: immunotoxicity evaluation.

Female Sprague Dawley rats were exposed via inhalation to vapor condensates of either gasoline or gasoline combined with various fuel oxygenates to assess potential immunotoxicity of evaporative emissions. Test articles included vapor condensates prepared from "baseline gasoline" (BGVC), or gasoline combined with methyl tertiary butyl ether (G/MTBE), ethyl t-butyl ether (G/ETBE), t-amyl methyl ether (G/TAME), diisopropyl ether (G/DIPE), ethanol (G/EtOH), or t-butyl alcohol (G/TBA). Target concentrations were 0, 2000, 10,000 or 20,000mg/mg(3) administered for 6h/day, 5days/week for 4weeks. The antibody-forming cell (AFC) response to the T-dependent antigen, sheep erythrocyte (sRBC), was used to determine the effects of the gasoline vapor condensates on the humoral components of the immune system. Exposure to BGVC, G/MTBE, G/TAME, and G/TBA did not result in significant changes in the IgM AFC response to sRBC, when evaluated as either specific activity (AFC/10(6) spleen cells) or as total spleen activity (AFC/spleen). Exposure to G/EtOH and G/DIPE resulted in a dose-dependent decrease in the AFC response, reaching the level of statistical significance only at the high 20,000mg/m(3) level. Exposure to G/ETBE resulted in a statistically significant decrease in the AFC response at the middle (10,000mg/m(3)) and high (20,000mg/m(3)) exposure concentrations.

Characterization of the T-dependent antibody response (TDAR) to keyhole limpet hemocyanin (KLH) in the Göttingen minipig.

Recently, there has been a renewed interest in the use of the minipig as an alternative to dogs and non-human primates for conducting toxicological assessments in non-rodent species. Since the T-dependent antibody response (TDAR) is one of the most widely-accepted assays used in the assessment of immunocompetence, the present study was undertaken to characterize the primary and secondary TDAR to keyhole limpet hemocyanin (KLH) in the Göttingen Minipig(®). Following primary immunization with either 2 or 10 mg KLH, anti-swine IgM and IgG ELISAs were optimized and individual animal responses were evaluated over time. Immunization with 10 mg KLH on Day 0 promoted primary IgM responses that peaked 6-9 days after antigen administration, while primary IgG levels peaked on Day 13 or 14. Secondary IgG antibody levels (following secondary injection with 2 mg KLH on Day 14) plateaued on Days 20-22. Anti-KLH antibody levels were decreased in minipigs treated with cyclophosphamide (CPS), a known immunosuppressant, at doses ranging from 12.5-50 mg/kg/day, while antibody levels in animals treated with 2.5 mg CPS/kg/day were similar to levels in saline-treated swine. These results demonstrate that the Göttingen Minipig(®) can be a useful alternative non-rodent species to the dog and the non-human primate for evaluating the TDAR to KLH in regulatory assessments of immunotoxicity.

Jet fuel kerosene is not immunosuppressive in mice or rats following inhalation for 28 days.

Previous reports indicated that inhalation of JP-8 aviation turbine fuel is immunosuppressive. However, in some of those studies, the exposure concentrations were underestimated, and percent of test article as vapor or aerosol was not determined. Furthermore, it is unknown whether the observed effects are attributable to the base hydrocarbon fuel (jet fuel kerosene) or to the various fuel additives in jet fuels. The present studies were conducted, in compliance with Good Laboratory Practice (GLP) regulations, to evaluate the effects of jet fuel kerosene on the immune system, in conjunction with an accurate, quantitative characterization of the aerosol and vapor exposure concentrations. Two female rodent species (B6C3F1 mice and Crl:CD rats) were exposed by nose-only inhalation to jet fuel kerosene at targeted concentrations of 0, 500, 1000, or 2000 mg/m(3) for 6 h daily for 28 d. Humoral, cell-mediated, and innate immune functions were subsequently evaluated. No marked effects were observed in either species on body weights, spleen or thymus weights, the T-dependent antibody-forming cell response (plaque assay), or the delayed-type hypersensitivity (DTH) response. With a few exceptions, spleen cell numbers and phenotypes were also unaffected. Natural killer (NK) cell activity in mice was unaffected, while the NK assessment in rats was not usable due to an unusually low response in all groups. These studies demonstrate that inhalation of jet fuel kerosene for 28 d at levels up to 2000 mg/m(3) did not adversely affect the functional immune responses of female mice and rats.

Validation of a Candida albicans delayed-type hypersensitivity (DTH) model in female juvenile rats for use in immunotoxicity assessments.

Establishing an in vivo cell-mediated immunity (CMI) assay, such as the delayed-type hypersensitivity (DTH) assay, has been identified as an important gap and recommended to receive highest priority for new model development in several workshops on developmental immunotoxicity. A Candida albicans DTH model has recently been developed that has the advantage over other DTH models, which use alternative sensitizing antigens, in that antigen-specific antibodies, which may interfere with the assay, are not produced. In addition, the in vivo C. albicans DTH model was demonstrated to be more sensitive in detecting immunosuppression than DTH models using keyhole limpet hemocyanin (KLH) or sheep red blood cells as antigens, as well as some ex vivo CMI assays. While KLH and sheep red blood cells are non-physiological immunogens, C. albicans is an important human pathogen. The present studies were conducted in order to optimize and validate the C. albicans DTH model for use in developmental immunotoxicity studies using juvenile rats. Three known immunosuppressive compounds with different mechanisms of action were tested in this model, cyclosprorin A (CsA), cyclophosphamide (CPS), and dexamethasone (DEX). Animals were sensitized with formalin-fixed C. albicans on postnatal day (PND) 28 and challenged with chitosan on PND 38. Drug was administered beginning on PND 23 and continued until PND 37. Exposure to each of the three immunotoxicants resulted in statistically significant decreases in the DTH response to C. albicans-derived chitosan. Decreases in footpad swelling were observed at ≥10 mg CsA/kg/day, ≥5 mg CPS/kg/day, and ≥0.03 mg DEX/kg/day. These results demonstrate that the C. albicans DTH model, optimized for use in juvenile rats, can be used to identify immunotoxic compounds, and fills the need for a sensitive in vivo CMI model for assessments of developmental immunotoxicity. Abbreviations Ab, antibody APC, antigen presenting cell BSA, bovine serum albumin C. albicans, Candida albicans CI, challenge interval CMI, cell-mediated immunity CO, challenge only CPS, cyclophosphamide CsA, cyclosporin A CTL, cytotoxic T lymphocyte DEX, dexamethasone DIT, developmental immunotoxicity DTH, delayed-type hypersensitivity ip, intraperitoneal KLH, keyhole limpet hemocyanin MLR, mixed lymphocyte reaction OVA, ovalbumin PBS, phosphate-buffered saline PND, postnatal day sc, subcutaneous SEM, standard error of the mean SRBC, sheep red blood cells.

Oral subchronic immunotoxicity study of ethyl tertiary butyl ether in the rat.

The potential for immunotoxicological effects of ethyl tertiary butyl ether (ETBE, CAS RN 637-92-3) was studied in young adult female Crl:CD(SD) rats following subchronic oral exposures. Rats were exposed by gavage once daily for 28 consecutive days to 0, 250, 500, or 1000 mg ETBE/kg body weight (BW)/day; a concurrent positive control group received four intraperitoneal injections of at 50 mg cyclophosphamide monohydrate (CPS)/kg/day on study Days 24-27. Immunotoxicity was evaluated using a splenic antibody-forming cell (AFC) assay to assess T-cell-dependent antibody responses in rats sensitized with sheep red blood cells (SRBC). All rats survived to the scheduled necropsy. There were no effects on clinical observations, body weights, feed or water consumption, or macroscopic pathology findings in the ETBE-treated rats. No ETBE-related effects were observed on absolute or relative (to final body weight) spleen or thymus weights, spleen cellularity, or on the specific (AFC/10(6) spleen cells) or total activity (AFC/spleen) of splenic IgM AFC to the T-cell-dependent antigen SRBC. CPS produced expected effects consistent with its known immunosuppressive properties and validated the appropriateness of the AFC assay. Based on the results of this study, ETBE did not suppress the humoral component of the immune system in female rats. The no-observed-effect level for immunotoxicity was the highest dosage tested at 1000 mg/kg/day.

Oral gavage subchronic neurotoxicity and inhalation subchronic immunotoxicity studies of ethylbenzene in the rat.

The potential for neurotoxicological and immunotoxicological effects of ethylbenzene was studied in young adult Crl:CD(SD) rats following 90-day oral (neurotoxicity) or 28-day inhalation (immunotoxicity) exposures. In the neurotoxicity study, ethylbenzene was administered orally via gavage twice daily at 0, 25, 125, or 250 mg/kg per dose (total daily dosages of 0, 50, 250, or 500 mg/kg bwt/day [mg/kg bwt/day]) for 13 weeks and the functional observational battery (FOB), automated tests for motor activity and neuropathological examination were conducted. In the immunotoxicity study, animals were exposed by inhalation to 0, 25, 100, or 500 ppm ethylbenzene (approximately 26, 90, or 342 mg/kg bwt/day as calculated from physiologically based pharmacokinetic modeling). Immunotoxicity was evaluated in female rats using the splenic antibody-forming cell plaque-forming assay in sheep red blood cell sensitized animals. The no-observed-effect level for the oral gavage study was 50mg/kg bwt/day based on increased relative weights of the liver and kidneys in the male rats. The no-observed-adverse-effect level (NOAEL) for adult neurotoxicity was the highest dose tested 500 mg/kg bwt/day. The NOAEL for the immunotoxicity evaluation was the highest tested exposure concentration, 500 ppm (342 mg/kg bwt/day).

Effects of administration of a monoclonal antibody against mouse tumor necrosis factor alpha during pregnancy and lactation on the pre- and postnatal development of the mouse immune system.

Monoclonal antibodies directed against tumor necrosis factor alpha (TNFalpha) are currently employed in the treatment of various immune-mediated diseases. These studies were designed to evaluate potential effects of anti-TNFalpha treatment in mice during pregnancy and lactation on the development of the immune system in the F1 generation. Pregnant CD-1 mice were treated with vehicle or with 10 or 40 mg/kg of an anti-mouse TNFalpha monoclonal antibody (mAb) (cV1q) on days 6, 12, and 18 of gestation and on days 3, 9, and 15 of lactation. Evaluation of immune system functionality was conducted in F1 generation mice at 11 weeks of age. Immune function was evaluated by splenocyte phenotyping, immunoglobulin M (IgM) antibody response to sheep red blood cells (SRBCs), spleen cell proliferative response to anti-CD3, and natural killer cell activity. Treatment of pregnant mice with cV1q produced no adverse effects in the dams and no adverse effects in the F1 generation. In general, the functioning of the immune system of the F1 generation did not appear to be adversely affected following exposure to cV1q in utero and during lactation. The only statistically significant change was a slight (approximately 20%) reduction in the spleen cell expansion in response to SRBC immunization in the female F1 mice from the 40 mg/kg cV1q treatment group. In conclusion, administration of a monoclonal antibody against mouse TNFalpha during pregnancy and lactation had little or no effect on selected immune parameters in mice, with only a possible minor attenuation of spleen cell response to immunization noted in the female F1 generation at 11 weeks of age.

Immunotoxicity evaluation of jet a jet fuel in female rats after 28-day dermal exposure.

The potential for jet fuel to modulate immune functions has been reported in mice following dermal, inhalation, and oral routes of exposure; however, a functional evaluation of the immune system in rats following jet fuel exposure has not been conducted. In this study potential effects of commercial jet fuel (Jet A) on the rat immune system were assessed using a battery of functional assays developed to screen potential immunotoxic compounds. Jet A was applied to the unoccluded skin of 6- to 7-wk-old female Crl:CD (SD)IGS BR rats at doses of 165, 330, or 495 mg/kg/d for 28 d. Mineral oil was used as a vehicle to mitigate irritation resulting from repeated exposure to jet fuel. Cyclophosphamide and anti-asialo GM1 were used as positive controls for immunotoxic effects. In contrast to reported immunotoxic effects of jet fuel in mice, dermal exposure of rats to Jet A did not result in alterations in spleen or thymus weights, splenic lymphocyte subpopulations, immunoglobulin (Ig) M antibody-forming cell response to the T-dependent antigen, sheep red blood cells (sRBC), spleen cell proliferative response to anti-CD3 antibody, or natural killer (NK) cell activity. In each of the immunotoxicological assays conducted, the positive control produced the expected results, demonstrating the assay was capable of detecting an effect if one had occurred. Based on the immunological parameters evaluated under the experimental conditions of the study, Jet A did not adversely affect immune responses of female rats. It remains to be determined whether the observed difference between this study and some other studies reflects a difference in the immunological response of rats and mice or is the result of other factors.

Comparison of primary immune responses to SRBC and KLH in rodents.

In rodents, the Plaque Assay, T-dependent antibody response to sheep erythrocytes (SRBC), has been reported to be a sensitive and predictive functional immune assay for detecting immunomodulatory compounds. However, various laboratories have chosen to use ELISA-based assays for evaluating the primary immune response in rodents. The ELISA-based assays offer several advantages over the Plaque Assay, which make them attractive for use in immunotoxicological evaluations. Among the most popular antigens used in the ELISA-based assays are SRBC and more recently KLH. While the Plaque Assay and the ELISA-based assays are both capable of evaluating the humoral immune response, they are measuring different endpoints. The Plaque Assay focuses primarily on splenic effects. ELISA-based assays, which use serum from immunized animals, are holistic in nature in that these assays measure effects of antibody production on the spleen, lymph nodes, and bone marrow. Depending on the drug or compound evaluated, different effects and degrees of sensitivity can be seen with the Plaque Assay and ELISA-based assays. One recent finding is that the sensitizing dose of KLH used in the KLH ELISA differentially affects the responses observed in rodents. Even within the same species, different strains of mice and rats produce different magnitudes of responses to the same sensitizing dose. A key component of this discussion focuses on the sensitivity of the Plaque Assay as compared to KLH ELISA-based assays. These assays were evaluated by comparing the response obtained following administration of several known immunosuppressive agents, including cyclophosphamide, azathioprine, cyclosporine A and dexamethasone. The effects on the primary IgM immune response in the B(6)C(3)F(1) mice, the primary immunotoxicological rodents used by National Toxicology Program, and in the Sprague-Dawley rat, the primary rodent models used by industry are addressed.

Screening New Drugs for Immunotoxic Potential: I. Assessment of the Effects of Conventional Nonsteroidal Anti-Inflammatory Drugs and Selective COX-2 Inhibitors on In Vitro and In Vivo Phagocytic Activity.

Although both experimental and clinical literature contain reports suggestive of associations between enhanced susceptibility to soft tissue infections and nonsteroidal anti-inflammatory drug (NSAID) use, the immunotoxicological potential of this class of therapeutic agents has not been thoroughly investigated. In consideration of the widespread clinical use of these agents, we have initiated studies of the interaction between NSAIDs (both nonselective and selective COX-2 inhibitors) and the immune system. This communication describes the conduct and results of assessments of the effects of NSAIDs on the in vitro phagocytic activity of rat macrophages and canine neutrophils and on the functional activity of the intact murine mononuclear phagocytic system. During in vitro experiments 0.1 to 10 muM concentrations of naproxen, indomethacin, and experimental selective COX-2 inhibitors, SC-236, SC-245 and SC-791, caused marginal, but statistically significant, reductions in phagocytic activity of resident rat peritoneal macrophages. The effects were consistently small and there was no evidence of concentration-response relationships. An in vitro concentration of 10 muM of either SC-236 or SC-791 was required to decrease phagocytosis by dog neutrophils. Repeated oral doses of either naproxen or SC-236 (3, 10, or 30 mg/kg twice daily for 3 days) were without effect on the intact phagocytic system of the mouse. A potential immunotoxicologic effect based on direct impairment of phagocytic processes seems an unlikely explanation for drug-induced susceptibility to infection reported earlier. However, the results of these experiments do not support an unequivocal conclusion relative to immunotoxicological potential of either conventional NSAIDs or selective COX-2 inhibitors. Further studies on other components of the immune system are needed to fully explore possible immunomodulatory effects of NSAIDs.

Immunomodulation by Dok Din Daeng (Aeginetia indica Roxb.) extracts in female B6C3F1 mice: (I): stimulation of T cells.

Aeginetia indica Roxbert (Dok Din Daeng, DDD), a parasitic plant that grows on bamboo, is extensively used in Thai traditional medicine to treat various diseases. There have been no published studies on the pharmacological, toxicological or immunological effects of DDD, indigenous to Thailand. The study reported here was focused on the immunological effects (T cells) of the whole plant extract using water (WDDD) or ethanol (EDDD) as a solvent. The extracts were administered to female B6C3F1 mice by gavage for WDDD (10-100%) and intraperitoneally (i.p.) for EDDD (0.25-250 mg/kg) for 28 days. Only mice administrated the highest dose of EDDD exhibited an increase in absolute spleen and liver weights. Three T cell functional assays, including anti-CD3 antibody-mediated T cell proliferation, the mixed leukocyte response (MLR) and the cytotoxic T lymphocyte (CTL) response, were employed to determine the effects of DDD extracts on splenic T cell activities. Exposure to WDDD enhanced the responses in all three assays with significant changes observed in the anti-CD3 and MLR assays. Exposure to EDDD also enhanced the responses in all three assays with significant changes observed in the MLR and CTL assays. Additionally, significant increases in the MLR and anti-CD3 responses were also observed when EDDD was used to treat cells in vitro. Finally, exposure to WDDD decreased both the percentage and absolute number of regulatory CD4(+)CD25(+) T cells in the spleen, which was consistent with a significant increase in interferon-gamma (IFN-gamma) production from Con A-stimulated splenocytes. Overall, this study demonstrated that the extracts from A. indica Roxbert had a T cell stimulatory activity.

Immunomodulation by Dok Din Daeng (Aeginetia indica Roxb.) extracts in female B6C3F1 mice: II. Humoral immunity, innate immunity and hematology.

In the previous report, we have provided evidence that Aeginetia indica Roxbert (DDD) extracts enhance T cell-mediated immune responses. The study reported here was focused on the hematological and immunological effects, including B cells, natural killer (NK) cells, macrophages and neutrophils, of the whole plant extract using water (WDDD) or ethanol (EDDD) as the solvent. The extracts were administered to female B6C3F1 mice by gavage for WDDD (10-100%) and intraperitoneally for EDDD (0.25-250 mg/kg) for 28 days. In addition to hematological evaluation, several quantitative measures and functional assays (e.g., the splenic phenotypic analysis, IgM antibody-forming cell responses, natural killer cell activity, mononuclear phagocyte system [MPS] and neutrophil activity) were employed to examine the effects of DDD extracts on the innate and humoral immunities. The results from this study demonstrated that exposure to WDDD and EDDD produced minimal changes in the activities of B cells and natural killer cells, macrophages and neutrophils. Overall, hematological parameters were not affected by exposure to WDDD or EDDD. Taken together, the enhancing effect of DDD extracts on T cells may be primarily responsible for the successful and long-time use of this traditional herbal medicine in Thailand.

Phthalate treatment does not influence levels of IgE or Th2 cytokines in B6C3F1 mice.

Bronchial asthma is mediated, in part, by the immunoregulatory cytokines interleukins 4 and 13 (IL-4 and IL-13). These cytokines stimulate IgE synthesis that in turn is associated with airway hyper-responsiveness. Compounds that stimulate IgE synthesis and elicit bronchial reactivity are generally considered to be respiratory sensitizers. Recently, it has been hypothesized that exposure to phthalates may contribute to childhood asthma. To address this question, di-(2-ethylhexyl) phthalate (DEHP) was tested using a protocol adapted from work by Dearman that involves topical application (and challenge) of test substances to mice followed by measurements of total serum IgE. In addition, auricular lymph nodes were harvested for measurement of IL-4 and IL-13 proteins and their corresponding messenger RNAs. Because skin absorption of high molecular weight phthalates is limited, liver weight increase, a measure of peroxisomal proliferation, was monitored to assure that internal dosing had been achieved. ELISA and RNAse protection assays demonstrated that DEHP treatment did not significantly affect IgE, IL-4, or IL-13 levels. Similarly, IL-4 and IL-13 mRNA levels were not elevated. In contrast, all of these were significantly elevated by trimellitic anhydride (TMA), a respiratory sensitizer used as the positive control in this assay. Liver weights were significantly elevated by DEHP, providing evidence of sufficient percutaneous absorption to induce physiological responses. To extend these observations, three other commercial phthalate ester plasticizers, di-isononyl phthalate (DINP), di-isohexyl phthalate (DIHP), and butyl benzyl phthalate (BBP), were assessed using the same protocol. As above, ELISA and RNAse protection assays showed that IgE, IL-4, and IL-13 proteins, and IL-4 and IL-13 mRNAs in the phthalate-treated animals were all at levels similar to that of control values. The positive control, TMA, produced large, statistically significant increases in all parameters, demonstrating responsiveness of the assay. Another control, dinitrochlorobenzene (DNCB), a contact sensitizer, also responded as expected, producing smaller but statistically significant increases in IgE and in mRNA for IL-4 and IL-13 but not in the levels of these cytokines. In summary, treatment with DEHP, DINP, DIHP, and BBP did not result in significant elevations in total serum IgE, IL-4, or IL-13. As such it is unlikely that these substances would produce antibody-mediated respiratory allergy.