The protective action of disodium cromoglycate on alveolar macrophages in phagocytosis of fibrogenic silica

Abstract

Treatment of fibrogenic silica (DQ-12) with Disodium Cromoglycate (DSCG) prior to its in-vitro and in-vivo phagocytosis by alveolar macrophages prevents the destruction of the cells and the fibrosis of lung tissue which are a consequence of phagocytosis. However, the treatment of alveolar macrophages with DSCG before phagocytosis of the silica had no, or a negligible, protective effect on the cells. Acid phosphatase activity which was significantly enhanced above the control in cells phagocytosing the silica was returned to the range found in phagocytosis of inert dust when silica treated with DSCG was phagocytized. The inhibitor of DNA- dependent RNA synthesis actinomycin D caused an increase of acid phosphatase activity. DSCG did not depress the phagocytic ability of alveolar macrophages. It appears that the catabolic enzyme process predominant in cells phagocytosing DQ-12 was under control in cells phagocytosing DQ-12 treated with DSCG and that DSCG probably acted as a regulator of the factors permitting catabolism. From the results it is suggested that the equilibrium of the enzyme reactions which accompany phagocytosis was such that the integrity of the phagocytes was preserved.