Pulmonary reaction to long and short asbestos fibers is independent of fibroblast growth factor production by alveolar macrophages.

The role of alveolar macrophage (AM)-derived secretory products in fibroblast stimulation after the instillation of long and short asbestos to rat lungs is now investigated. A pure sample of 1 mg long crocidolite (greater than 2.5 mu) induced pulmonary fibrosis in 8 weeks, but secretions of lavaged AM from these lungs did not enhance growth or collagen synthesis in cultured rat lung fibroblasts. In contrast, the same dose of short fibers did not produce pulmonary fibrosis, although AM lavaged from these lungs were increased in number, had more phagocytized fibers, and when incubated, secreted factors that stimulated fibroblasts in culture. When normal AM were exposed to these fiber samples for 24 hours in vitro, greater phagocytosis of particles occurred and each asbestos fiber sample induced secretion of an AM-derived growth factor for cultured fibroblasts. The results indicate that both long and short fibers are capable of inducing AM to secrete fibrogenic factors in vitro, but in vivo, cytokine secretion by AM into the alveolar spaces in response to short fibers is not associated with stimulation of the interstitial fibroblast. In contrast, pulmonary fibrosis after long fiber administration appears unrelated to an AM secretion and is probably caused by fiber penetration into the peribronchiolar tissue, where interstitial macrophage activation may occur over several weeks.