References
- Adamson, I. Y. R., and Bowden, D. H. 1 982. Chemotactic and mitogenic components of the alveolar macrophage response to particles and neutrophil chemoattractant. Am. J. PathoL 109:71–77.
- Colton, T. 1 974. Statistics in medicine. Boston: Little, Brown.
- Driscoll, K. E., Hassenbein, D. G., Carter, J. M., Kunkel, S. L., Quinlan, T. R., and Mossman, B. T. 1996. TNFa and increased chemokine expression in rat lung after particle exposure. Toxicol. Lett. 82/83:483–489.
- Ghio, A. J., Zhang, J., and Piantadosi, C. A. 1992. Generation of hydroxyl radical by crocidolite asbestos is proportional to surface [Fel . Arch. Biochem. Biophys. 298:646–650.
- Ghio, A. J., Jaskot, R. H., and Hatch, G. E. 1994. Lung injury after silica instillation is associated with an accumulation of iron in rats. Am.]. PhysioL 267:L6864692.
- Kagan, E., Oghiso, Y., and Hartmann, D. 1983. Enhanced release of a chemoattractant for alveo-lar macrophages after asbestos inhalation. Am. Rev. Respir. Dis. 128:680–687.
- Kamp, D. W., Graceffa, P., Pryor, W. A., and Weitzman, S. A. 1992. The role of free radicals in asbestos-induced diseases. Free Radical Biol. Med. 12:293–315.
- Kinnula, V. L., Adler, A. B., Ackley, N. J., and Crapo, J. D. 1992. Release of reactive oxygen species by guinea pig tracheal epithelial cells in vitro. Am. J. PhysioL 262:L7084712.
- Kolb, W. P., Kolb, L. M., Wetsel, R. A., Rogers, W. R., and Shaw, J. 0. 1 981. Quantitation and stability of the fifth component of complement (C5) in bronchoalveolar lavage fluids. Am. Rev. Respir. Dis. 123:226–231.
- Mossman, B. T., Marsh, J. P., Sesko, A., Hill, S., Shatos, M. A., Doherty, J., Petruska, J., Adler, K. B., Hemenway, D., Mickey, R., Vacek, P., and Kagan, E. 1990. Inhibition of lung injury, inflammation, and interstitial pulmonary fibrosis by polyethylene glycol-conjugated catalase in a rapid inhalation model of asbestosis. Am. Rev. Respir. Dis. 141:1266–1271.
- Oldham, K. T., Guicek, S., Till, G. 0., and Ward, P. A. 1988. Activation of complement by hydroxyl radical in thermal injury. Surgery 104:272–279.
- Podack, E. R., and Muller-Eberhard, H. J. 1979. Isolation of human S-protein, an inhibitor of the membrane attack complex of complement.]. BioL Chem. 254: 9908–9914.
- Robertson, J., Caldwell, J. R., Castle, J. R., and Waldman, R. H. 1 976. Evidence for the pres-ence of components of the alternative (properdin) pathway of complement activation in res-piratory secretions./ Immunol. 117:900–903.
- Saint-Remy, J. M. R., and Cole, R. 1 980. Interactions of chrysotile asbestos fibres with the com-plement system. Immunology 41:431–436.
- Schapira, R. M., Ghio, A. J., Effros, R. M., Morrisey, J., Dawson, C. A., and Hacker, A. D. 1994. Hydroxyl radicals are formed in the rat lung after asbestos instillation in vivo. Am. J. Respir. Cell MoL Biol. 10:573–579.
- Schoenberger, C. I., Hunninghake, G. W., Kawanami, 0., Ferrans, V. J., and Crystal, R. G. 1982. Role of alveolar macrophages in asbestosis: Modulation of neutrophil migration to the lung after acute asbestos exposure. Thorax 37:803–809.
- Shin, H. S., Snyderman, R., Friedman, E., Mellors, A., and Mayer, M. M. 1968. Chemotactic and anaphylatoxic fragment cleaved from the fifth component of guinea pig complement. Science 162:361–363.
- Shingu, M., Nonaka, S., Nishimukai, H., Nobunaga, M., Kitamura, H., and Tomo-Oka, K. 1992. Activation of complement in normal serum by hydrogen peroxide and hydrogen peroxide-related oxygen radicals produced by activated neutrophils. Clin. Exp. Immunol. 90:72–78.
- Simeonova, P. P., and Luster, M. I. 1995. Iron and reactive oxygen species in the asbestos-induced tumor necrosis factor-alpha response from alveolar macrophages. Am.]. Respir. Cell MoL Biol. 12:676–683.
- Slade, R., Crissman, K., Norwood, J., and Hatch, G. 1993. Comparison of antioxidant substances in bronchoalveolar lavage cells and fluid from humans, guinea pigs, and rats. Exp. Lung Res. 19:469–484.
- Snyderman, R., Altman, L. C., Hausman, M. S., and Mergenhagen, S. E. 1972. Human mononu-clear leukocyte chemotaxis: A quantitative assay for humoral and cellular chemotactic fac-tors.]. Immunol. 108:857–860.
- Vogt, W., and Hesse, D. 1992. Activation of the fifth component of human complement by oxy-gen-derived free radicals, and by methionine oxidizing agents: A comparison. Immunobiology 184:384–391.
- Vogt, W., Nolte, R., and Brunahl, D. 1 991. Binding of iron to the 5th component of human complement directs oxygen radical-mediated conversion to specific sites and causes nonen-zymic activation. Complement Inflamm. 8:313–319.
- Vogt, W., Zimmermann, B., Hesse, D., and Nolte, R. 1992. Activation of the fifth component of human complement, C5, without cleavage, by methionine oxidizing agents. MoL Immunol. 29:251–256.
- Warheit, D. B., George, G., Hill, L. H., Snyderman, R., and Brody, A. R. 1985. Inhaled asbestos activates a complement-dependent chemoattractant for macrophages. Lab. Invest. 52:505–514.
- Warheit, D. B., Hill, L. H., George, G., and Brody, A. R. 1986. Time course of chemotactic factor generation and the corresponding macrophage response to asbestos inhalation. Am. Rev. Respir. Dis. 134:128–133.
- Wilson, M. R., Gaumer, H. R., and Salvaggio, J. R. 1 977. Activation of the alternative comple-ment pathway and generation of chemotactic factors by asbestos. J. Allergy Clin. Immunol. 60:218–225.
- Yano, E., Takeuch, A., Yukiyamo, Y., and Brown, R. C. 1984. Chemotactic factor generation by asbestos. Fibre type differences and the effects of leaching. Sr.]. Exp. PathoL 65:223–230.