Faculty Bibliography

Lung cell populations may be directly exposed to environmental airbone toxicants such as ozone (O3). Since pulmonary macrophages (M phi) play a pivotal role in host pulmonary immunocompetence, their function in this regard may be compromised by pollutant exposure thereby giving rise to an increased incidence of pulmonary disease. The current in vitro study was designed to provide some insight into possible mechanisms by which O3 induces decreased host pulmonary resistance against microbial pathogens. Specifically, this study investigated the impact of an acute O3 exposure upon the ability of a cultured mouse M phi cell line (WEHI-3) to interact with, and respond to, the major M phi-activating cytokine, interferon-gamma (IFN gamma). The results of this study indicate that WEHI-3 exposure to 1 ppm O3 for 4 h reduced both the binding of, and responsivity to, IFN gamma. Among the functional parameters affected by this inability to properly bind/respond to IFN gamma were: reactive oxygen intermediate production, phagocytic activity, and cellular calcium ion elevation; IFN gamma-enhanced expression of surface histocompatibility antigens was unaffected by O3 exposure. The reduced activity of any one of these critical M phi functions could provide a basis for previously-documented increases in microbial pathogen survival in the lungs, and overall compromise of host health following O3 exposure

Male Fisher 344 rats were exposed to 2 mg vanadium(V)/m3 (as ammonium metavanadate NH4VO3, 0.32 micron MMD) atmospheres for 8 hr/day for 4 days in a nose-only exposure system. In exposed rats, lung V burdens increased in a time-dependent fashion. Analysis of lung cells and lavage fluid 24 hr after the final exposure suggested that tissue damage and a strong inflammatory response was elicited; numbers of neutrophil and small macrophages (Mo), as well as levels of lavageable protein and lactate dehydrogenase, were significantly elevated as compared with levels observed with air-exposed rats. Vanadium also affected pulmonary alveolar Mo (PAM) capacities to produce and respond to immunoregulating cytokines. Inducible PAM production of tumor necrosis factor-alpha was significantly inhibited, as was the ability to increase cell surface Class II/I-A molecule expression in response to interferon-gamma (IFN gamma). PAM from V-exposed hosts were also inhibited in their ability to be primed by IFN gamma to produce superoxide anion and hydrogen peroxide in response to stimulation with opsonized zymosan. These studies indicate that short-term repeated exposure of rats to atmospheric V, at levels encountered in an occupational setting, can alter host pulmonary immunomocompetence, with one major effect occurring at the level of cytokine-related functions. These alterations may be underlying mechanisms for the well-documented increases in bronchopulmonary infections and cancers in workers chronically exposed to V-containing atmospheres

Mouse WEHI-3 cells were exposed overnight to vanadium [V; ammonium metavanadate (NH4VO3) or vanadium pentoxide (V2O5)] to determine whether documented V-induced immunomodulation might arise from altered macrophage (M phi) interactions with interferon-gamma (IFN gamma) or altered IFN gamma-inducible responses. Binding studies performed at 22 degrees C indicated that although NH4VO3-pretreated cells had approximately 48% fewer actively-binding Class I IFN gamma receptors, binding affinities were 1.5-fold greater than that of control cell receptors; Class II expression was unaffected but affinities were reduced 2-fold. Postbinding IFN gamma-receptor complex internalization was unaffected by V pretreatment. Spontaneous production of both hydrogen peroxide and superoxide anion was significantly increased by treatment with both V compounds. Total hydrogen peroxide and superoxide production was increased by stimulation of IFN gamma-primed cells with zymosan, but relative increases in primed V-treated cells were lower than that in controls. Vanadium-treated cells also displayed decreased rates of IFN gamma-induced changes in [Ca2+]i levels secondary to increased resting [Ca2+]i levels. Although V-treated cells did not display significant increases in I-A expression after IFN gamma treatment, increased numbers of I-A+ cells (irrespective of priming) and lower maximal antigen densities than observed on I-A+ control cells were evident. Results from this study show that V exposure may produce alterations in M phi-mediated functions, in part, by modifying cell interactions with IFN gamma and subsequent IFN gamma-dependent functional parameters

Despite the widespread occurrence of acidic sulfur oxides in the ambient environment and their potential risks to human health, effects associated with pulmonary immune defenses have been poorly studied. The current in vivo study was designed to provide some insight into this relatively unexplored area by investigating the impact of inhaled sulfuric acid on immune defense mechanisms critical for maintaining pulmonary resistance against infectious diseases. Results of this study demonstrate that repeated inhalation of sulfuric acid reduces the uptake and intracellular killing of pathogenic bacteria by exposed pulmonary macrophages, and depresses the activity/production of important biological modifiers critical for maintaining pulmonary immunocompetence. These findings have important implications for human health, and may contribute to a better understanding of the possible mechanism(s) underlying the epidemiological evidence which suggests an association between total sulfates in the ambient air and increased incidence of acute bronchitis and lower respiratory illness in school-age children

Rabbit pulmonary macrophages were exposed in vitro to particulate lead oxide (PbO) for periods of up to 72 h and then assayed for the activity of tumor necrosis factor-alpha (TNF alpha) released after stimulation with lipopolysaccharide (LPS). The levels of TNF alpha obtained from PbO-treated cells were decreased in a dose-dependent manner as compared with metal-free control cells for each time point examined. Cells treated simultaneously with both LPS and PbO yielded less monokine than did cells receiving LPS alone. In addition, incubation of cell-free TNF alpha with PbO resulted in a diminution of cytotoxicity directed against TNF alpha-sensitive tumor target cells. Macrophage burdens of PbO particles increased with both the length of incubation and concentration of PbO used; increases in cellular lead burdens were paralleled by reductions in cell viability. Thus, under in vitro conditions, PbO affects the levels of the immunoregulatory monokine TNF alpha and also disrupts its cytotoxic properties after release from activated macrophages

The effects of the carcinogenic metal nickel on DNA polymerase alpha (pol alpha) activity and fidelity have been analyzed. In the absence of Mg2+, the presence of Ni2+ ions at concentrations below 0.25 mM gave rise to a dose-dependent activation of pol alpha as monitored by [3H]dTMP incorporation into an activated DNA template. The apparent Km for Ni(2+)-dependent pol alpha incorporation of dTTP was estimated to be 25 microM, which was about 10 times higher than the Km for Mg2+ (2.3 microM). Above 0.25 mM, Ni2+ caused a dose-dependent inhibition of pol alpha activity and the Ki was calculated to be 1.5 mM. Scatchard analyses showed that Ni2+ binds to affinity-purified pol alpha and associated proteins at two tight binding sites with a Kd of approximately 50 microM and at eight weak binding sites with a Kd of approximately 4 mM. In the presence of 2 mM Mg2+, the addition of Ni2+ to the reactions caused an inhibition of polymerase activity. The inhibition patterns tended to switch from competitive to mixed-type to noncompetitive as a function of Ni2+ concentration. Lastly, Ni2+ increased the incorporation of the modified nucleotide dideoxy-CMP in reactions using varying ratios of dideoxy-CTP/dCTP