g(m1)-ganglioside and Pulmonary-Fibrosis

Despite circumstantial evidence postulating a protective role for NK cells in many fibrotic conditions, their contribution to the development of pulmonary fibrosis has yet to be tested. Lung-migrating NK cells are thought to attenuate the development of bleomycin induced pulmonary fibrosis (BIPF) by providing anti-fibrotic mediators and cytokines, such as IFN-γ. If true, we reasoned that depletion of NK cells during experimentally-induced fibrotic disease would lead to exacerbated fibrosis. To test this, we treated mice with NK cell-depleting antisera (anti-asialo GM1) and evaluated lung inflammation and fibrosis in the BIPF model. While NK cell infiltration into the airways was maximal at day 10 after bleomycin injection, NK cells represented a minor portion (1-3%) of the total leukocytes in BAL fluid. Anti-asialo GM1 significantly abrogated NK cell numbers over the course of the disease. Depletion of NK cells with anti-asialo GM1 before and throughout the BIPF model, or during just the fibrotic phase did not alter fibrosis development or affect the levels of any of the pro-inflammatory/pro-fibrotic cytokines measured (IL-1β, IL-17, IFN-γ, TGF-β and TNF-α). In addition, adoptively transferred NK cells, which were detectable systemically and in the airways throughout BIPF, failed to impact lung fibrosis. These findings indicate that NK cells likely do not play an essential protective role in controlling pulmonary fibrosis development.

Topics: Adoptive Transfer; Animals; Antibodies; Bleomycin; Bronchoalveolar Lavage Fluid; Cell Movement; Cytokines; Female; G(M1) Ganglioside; Killer Cells, Natural; Kinetics; Lung; Lymphocyte Depletion; Mice, Inbred BALB C; Pulmonary Fibrosis; Spleen

Trehalose dimycolate is a glycolipid component of the cell walls of mycobacteria, nocardia, and corynebacteria. When trehalose dimycolate is injected into certain strains of mice, they develop interstitial pneumonitis that is characterized by mononuclear cell infiltration of the alveolar walls, intra-alveolar hemorrhages, and in some animals, granuloma formation. The disorder is seldom fatal, and in approximately 4 weeks, the lungs are normal. There is strong evidence that T lymphocytes are essential for production of interstitial pneumonitis by trehalose dimycolate, but little is known about the mechanisms of lung injury in this model. The experiments described in this report were conducted to identify the roles of the various cells that accumulate in the lungs of mice with this form of interstitial pneumonitis. We found that Mac3+ macrophages were the first cells to appear in the alveolar walls. Increases in the number of L3T4+ T lymphocytes, Lyt2+ T lymphocytes, and surface-immunoglobulin-positive lymphocytes followed, but significant increases in the number of lymphoid cells were not observed until day 7, when the pulmonary lesions were well developed. Treatment of the mice with cyclophosphamide or anti-T-cell sera significantly reduced the number of lymphoid cells in the alveolar walls but did not affect the number of Mac3+ cells and did not affect development of intra-alveolar hemorrhages. Treatment with poly(I.C) significantly decreased the number of Mac3+ cells in the lungs, and these mice did not develop pulmonary hemorrhages. We conclude that although development of pulmonary lesions in trehalose dimycolate-treated mice is a T-cell-dependent process, macrophages are also essential and are more directly involved in production of the lung injury. We postulate that the lung lesions are the direct effect of macrophage-produced cytokines, such as tumor necrosis factor.

Topics: Animals; Cell Movement; Cord Factors; Cyclophosphamide; Female; G(M1) Ganglioside; Glycolipids; Glycosphingolipids; Immune Sera; Lymphocytes; Macrophages; Male; Mice; Mice, Inbred BALB C; Mice, Inbred C57BL; Phenotype; Poly I-C; Pulmonary Fibrosis