William J. Moorman

The diversity of reaginic immune responses to platinum and palladium metallic salts

As part of a National Institute for Occupational Safety and Health health hazards evaluation, workers employed in a precious metal refinery exposed to platinum (Pt), palladium (Pd), and other group VIII metallic salts were evaluated for direct skin test sensitivity to Pt. Current (107) and former (30) workers who quit or were discharged because of Pt-related health problems were prick tested with ammonium hexachloroplatinate ([NH4]2 PtCl6). Of the 107 currently exposed workers, 15 (14%) exhibited positive skin tests, as indexed by immediate reactivity at a dose of 10(-3) gm/ml or less. Eight (27%) of the 30 former workers no longer exposed to Pt also demonstrated positive Pt skin tests. Sera obtained from the workers were assessed for transferable antibodies to Pt and Pd salts by monkey passive cutaneous anaphylaxis. In addition, Pt-specific antibodies were evaluated by RAST. Results of these studies suggested that short- and long-term passive cutaneous anaphylaxis immune responses occur after exposure to both Pt and Pd compounds. Results of RAST analysis for Pt-specific antibodies indicated that significantly higher (p less than 0.001) levels were present in the sera of skin test-positive workers as compared to control sera from Pt-exposed, skin test-negative workers or nonexposed control subjects. Evidence was also obtained that Pt or Pt-protein adducts present in the sera of exposed workers may compete for IgE-binding sites in the RAST assay. The specificity of the Pt-specific RAST system was proved by inhibition experiments.

Sister-chromatid exchanges and chromosome aberrations in lymphocytes from monkeys exposed to ethylene oxide and propylene oxide by inhalation

The ability of long-term exposures to inhaled ethylene oxide (EO) and propylene oxide (PO) to induce sister-chromatid exchanges (SCEs) and chromosome aberrations in peripheral lymphocytes of monkeys was investigated. Five groups of adult male cynomolgus monkeys were exposed at 0 (shared control), 50, or 100 ppm EO, and at 100 or 300 ppm PO (7 hr/day, 5 days/week) for 2 years. EO exposures at 50 and 100 ppm resulted in statistically significant increases in sister-chromatid exchange rates and in the incidence of chromosome aberrations in monkey lymphocytes. Both EO-exposed groups had increased numbers of SCEs/metaphase compared to controls, with the SCEs/metaphase of the EO 100 ppm group also significantly elevated versus the EO 50 ppm group. Variability of SCEs/metaphase within each monkey increased even more than the increase in total SCEs/metaphase group with increasing EO exposure. Chromatid-type aberrations were also significantly increased for both EO 50 and EO 100 ppm groups compared to controls. Statistically significant increases in the number of chromosome-type aberrations (excluding gaps) were found only in the EO 100 ppm group. Combined chromatid- and chromosome-type aberrations were increased in both EO 50 and EO 100 ppm groups. No group differences in the number of gaps were found. In lymphocytes from monkeys exposed at 100 and 300 ppm PO, there were no group differences compared to controls for any variable-chromatid or chromosome-type aberrations, gaps, or SCEs/metaphase. These results indicate that EO is a more potent clastogen than PO and demonstrate, for the first time, statistically significant effects of EO on both SCEs and chromosome aberrations in lymphocytes of nonhuman primates.

Prioritization of NTP reproductive toxicants for field studies

Population studies that evaluate human reproductive impairment are time consuming, expensive, logistically difficult, and with limited resources must be prioritized to effectively prevent the adverse health effects in humans. Interactions among health scientists, unions, and industry can serve to identify populations exposed to potential hazards and develop strategies to evaluate and apply appropriate controls. This report describes a systematic method for prioritizing chemicals that may need human reproductive health field studies. Rodent reproductive toxicants identified from the National Toxicology Program (NTP) Reproductive Assessment by Continuous Breeding (RACB) protocol were prioritized on the basis of potency of toxic effect and population at risk. This model for prioritization links NTP findings with data from the National Occupational Exposure Survey (NOES) and the Hazardous Substance Data Base (HSDB) or the High Production Volume Chemical Database (HPVC) to prioritize chemicals for their potential impact on worker populations. The chemicals with the highest priority for field study were: dibutyl phthalate, boric acid, tricresyl phosphate, and N, N-dimethylformamide.

A Chronic Inhalation Toxicity Study of Diesel Engine Emissions and Coal Dust, Alone and Combined:

To evaluate the potential health hazards of diesel engine emissions in underground coal mines, inhalation studies were performed using three species of animals. A wide range of toxicological responses was measured. Exhaust was provided by a 425 in.3 displacement four-cycle, water-cooled, naturally aspirated diesel engine (Caterpillar Model 3304) equipped with a water scrubber. Exposures were 7 h/day, 5 days/week, for periods up to 24 months. Micronized coal dust was generated using a Wright dust feeder. Four exposures were evaluated: (1) filtered ambient air, (2) 2 mg/m3 diesel particulate, (3) 2 mg/m3 respirable coal dust, and (4) 1 mg/m3 each of 2 and 3. Gaseous and vapor concentrations were similar in both exposures employing diesel exhaust. Male cynomolgus monkeys, Fischer-344 male and female rats, and female CD-1 mice were the experimental subjects. Monkeys were sacrificed at 24 months, rats at 3, 6, 12, and 24 months, and mice at 1, 3, and 6 months. Gross morphology and histopathology demonstrated that both diesel and coal dust particles are deposited in the lungs and retained in alveolar tissue. Alveolar type II cell hyperplasia and pulmonary lipidosis occurred in rats, being most evident in rats exposed to diesel exhaust alone. There was, however, no evidence of emphysema or chronic bronchitis, and only minimal fibrosis was seen in association with the retained particulate. Both particulates affected the defense mechanisms of the lung. Exposure to coal dust activated responses associated with phagocytosis, whereas exposure to diesel exhaust depressed them. Severity of influenza challenge increased concomitantly with decreased interferon production in diesel-exposed mice. Exposure to diesel emissions did not result in genotoxic effects as measured by increases in sister chromatid exchange, chromosomal aberrations, micronucleus testing, and urine genotoxic assays. Pulmonary function studies in monkeys showed mild obstructive airway disease in coal dust, diesel exhaust, and the combined exposed animals. This effect was most pronounced in monkeys exposed to diesel exhaust. Evidence of restrictive lung disease was not seen in any group. Clearance of F3O4 particles appeared to be stimulated by exposure to diesel exhaust in the first 3 months, but long-term clearance of diesel particulate appeared to be inhibited. No evidence was found for increases in tumorogenicity (rats) or induction of xenobiotic metabolizing enzymes in the lung or liver (rats). Humoral and cellular immunities were not significantly affected by exposure (rats). No adverse seminal effects were observed in monkeys exposed for 2 years. There was no frank evidence of chronic toxicity as demonstrated by changes in mortality, body weight gains, organ-body weight ratios, or clinical parameters in rats or monkeys. Synergistic effects between diesel exhaust and coal dust were not demonstrated.

Male reproductive effects of lead, including species extrapolation for the rabbit model.

The effects of elevated blood lead on semen quality were evaluated in the rabbit model and compared to published effects in humans. Mature, male rabbits were given lead acetate by subcutaneous injection in the dose range of 0 to 3.85 mg/kg on a Monday-Wednesday-Friday basis. In each of eight treatment groups, a dosing regimen was developed to produce blood lead levels of 0, 20, 40, 50, 70, 80, 90, and 110 microg/dL. A 5-week pre-exposure period was followed by a 15-week exposure testing period allowing for response through six cycles of the seminiferous epithelium. Semen analyses revealed that increased blood lead levels were associated with adverse changes in the sperm count, ejaculate volume, percent motile sperm, swimming velocities, and morphology. Hormonal responses were minimal. Testicular pathology revealed a dose-dependent inhibition of spermiation. For six measures of semen quality, threshold estimates ranged from 16 to 24 microg/dL. Using the species extrapolation factor derived in this study, a rabbit dose would have to be divided by 1.56 to obtain the equivalent human dose for an equal percentage decrease in sperm concentration; however, rabbits are 3.75 more sensitive in terms of absolute decrease in sperm count for a given blood lead level.

Pulmonary hyperreactivity in cynomolgus monkeys (Macaca fasicularis) from nose-only inhalation exposure to disodium hexachloroplatinate, Na2PtCl6☆

The pulmonary and dermal effects of exposure to Na2PtCl6 were investigated in cynomolgus monkeys (Macaca fascicularis) exposed by the nose-only inhalation and percutaneous routes. Separate inhalation exposures were performed in monkeys at 200 micrograms/m3 and 2 mg/m3 (4 hr/day, biweekly for 12 weeks), while another group of monkeys was percutaneously exposed biweekly by an open patch method. After a 2-week refractory period, serial Na2PtCl6 bronchoprovocation challenges and intradermal Na2PtCl6 sensitivity evaluations were performed. Na2PtCl6 bronchoprovocation in naive control monkeys yielded significant impairments in post-challenge pulmonary mechanics and ventilatory function. These results indicate a pharmacologic or irritant-mediated bronchoconstriction mechanism for acute exposure to this compound. When the post-challenge pulmonary function of animals exposed for the 12-week exposure regimen (across treatments) was compared to pulmonary deficits observed in control animals upon challenge, significantly greater pulmonary deficits were seen in animals exposed at the 200 micrograms/m3 concentration. Exposure at this concentration yielded significant changes in post-challenge average pulmonary flow resistance (RL) and forced expiratory volume in 0.5 sec corrected for vital capacity (FEV0.5/FVC) when compared to control monkey responses. Animals exposed by the percutaneous route or at 2 mg/m3 showed no significant post-challenge pulmonary deficits when compared to control animals. Intradermal Na2PtCl6 sensitivity was found not to be exposure related in the conditions of this experiment.

Male adolescent exposure to endocrine-disrupting pesticides: vinclozolin exposure in peripubertal rabbits

Adolescence is a time of dramatic neuroendocrine changes that are required for sexual maturation. Hormonal mimicking or inhibiting chemicals can cause significant impairment during this critical period. Vinclozolin (Vin) has been shown to be an anti‐androgen affecting male offspring in rats in utero, and its mechanism of action may be mediated by inhibition of androgenic receptor action. The majority of teenagers working on farms are male, and therefore a systemic fungicide, vinclozolin, was selected for study. The rabbit has proved to be an excellent species for modelling reproductive toxicant effects in the male and was selected as the test species. The peripubertal phase for the rabbit was determined to be between the 3rd and 4th months. A 2‐month dosing period was therefore initiated at 3 months of age and carried through to the 4th month. Vin was administered by dermal application (100 mg kg−1 in 100 μl of dimethylsulphoxide) daily. Body weights were determined weekly. The rabbits were then held until fully mature (6 months of age). Semen was collected and evaluated from sexually mature males on a weekly schedule for 5 weeks to maximize sperm output. An automated solid phase extraction procedure for monitoring exposures through isolation and quantification of Vin and its metabolic products was developed. Increased plasma levels of Vin and M2 were found throughout the experimental period. The exposed rabbits had a smaller weight gain during pubertal growth (approaching significance; P=0.059). At maturity, the accessory sex glands of the exposed animals weighed less than those of the controls (P=0.016). Surprisingly, the pooled sperm count of the exposed animals was significantly higher (P=0.017) than that of the unexposed animals. The anti‐androgenic effects of Vin may have blocked the negative feedback mechanism of testosterone on the hypothalamus or pituitary gland, allowing for an increase in gonadotrophin release, and consequently increasing sperm production at puberty.

Alterations in rabbit kidney protein expression following lead exposure as analyzed by two-dimensional gel electrophoresis

It was recently reported that low blood lead levels impaired kidney function in men. To develop a set of molecular markers of renal lead exposure and effect, we investigated changes in renal protein expression while approximating occupational lead exposure at subchronic, low blood levels. Lead was administered to male Dutch Belted rabbits as a lead acetate solution adjusted weekly to achieve and maintain the target blood lead levels of 0, 20, 40, and 80 μg/dL for 15 weeks. Lead exposure did not affect kidney or body weights. The effect of increasing blood lead on protein expression was evaluated in rabbit kidney by large‐scale two‐dimensional electrophoresis (2‐DE). Significant quantitative changes (p < 0.05) occurred in a dose‐related manner in 12 proteins at 20 μg/dL exposure, 25 at 40 μg/dL, and 102 at 80 μg/dL. At a higher level of significance (p < 0.001), 40 μg/dL blood lead resulted in one protein alteration and 80 μg/dL affected 14 proteins. A set of quantitatively altered charge variants was tentatively identified as glutathione‐S‐transferase (GST), based on similar observations in rodents subjected to short‐term, very high lead exposure. The significance of the protein alterations observed as markers of toxicity awaits their conclusive identification. Investigation of the kidney 2‐DE profile in lead‐exposed rabbit may be useful in understanding the mechanism of lead nephrotoxicity in humans.

Subchronic inhalation toxicity of isobutyl nitrite in BALB/c mice. I. Systemic toxicity.

The effects of subchronic inhalation exposure to isobutyl nitrite (IBN) on body weight, selected organ weights, hematology, and gross pathology and histopathology of BALB/c mice were evaluated. Mice of both sexes were exposed at 0, 20, 50, or 300 ppm IBN for 6.5 h/d, 5 d/wk for up to 18 wk. Most changes in measured indices occurred in mice exposed at 300 ppm IBN and included decreased thymus weight (females); decreased liver weight (males); decreased white blood cell counts (males); mild focal hyperplasia and vacuolization of the epithelium lining bronchi and bronchioles of the lungs (males and females). Organ weight and hematologic changes, however, were not accompanied by any observed histologic changes. In addition, elevated methemoglobin concentrations were detected in mice of both sexes exposed at 50 and 300 ppm IBN. Body weights were not adversely affected by exposure. These data suggest that mild tissue injury, restricted to the lung, and methemoglobinemia are the major toxic effects observed following exposures of mice to IBN at concentrations up to 300 ppm for 18 wk. No treatment-related effects were noted in mice exposed at 20 or 50 ppm IBN, except for slight elevations in methemoglobin concentrations in mice exposed at 50 ppm.

Review of experimental male-mediated behavioral and neurochemical disorders

Paternal exposures to exogenous agents have been reported to produce a variety of developmental defects in the offspring. In experimental animals, these effects include decreased litter size and weight, increased stillbirth and neonatal death, birth defects, tumors, and functional/behavioral abnormalities-some of these effects being transmitted to the second and third generations. This article reviews the exogenous agents that have reportedly caused behavioral or neurochemical alterations in offspring of experimental animals following paternal exposures, including advanced age, alcohols, cyclophosphamide, ethylene dibromide, lead, opiates, and a few miscellaneous chemicals. Based upon the consistency of effects in several of these agents in a variety of studies in experimental animals, the conclusion is that paternal exposures may contribute to the incidence of neurobehavioral disorders in humans.