Identification of vitamin K-dependent carboxylase activity in lung type II cells but not in lung macrophages

Abstract

Fluorography of 14C-labelled glutamic acid residues in vitamin K-dependent protein precursors in lung microsomes (microsomal fractions) shows that the lung had several substrates that are not found in the liver. These precursor proteins unique to the lung have apparent molecular masses of 65, 53, 50, 36, 31 and 13 kDa. Type II epithelial cells appear to synthesize most of the vitamin K-dependent proteins in the lung. The 36 and the 31 kDa precursors also found in Type-II-cell microsomes have a similar molecular mass to those of surfactant-associated proteins, and we have previously shown [Rannels, Gallaher, Wallin and Rannels (1987) Proc.Natl. Acad. Sci. U.S.A. 84, 5952-5956] that the 36kDa protein is one of the precursors for these proteins. Immunoblotting of membrane fragments of Type-II-cell microsomes with plasma prothrombin antibodies identified two prothrombin-like antigens of apparent molecular masses 68 and 65 kDa. This raises the question as to whether Type II cells are also a potential site for synthesis of prothrombin and possibly other vitamin K-dependnet clotting factors. Pulmonary macrophages appear to be devoid of vitamin K-dependent carboxylase activity. However, Type II epithelial cells have significant activity, and this activity was unaltered when these cells were maintained in primary culture for 3 days, suggesting that carboxylase activity is expressed in lung alveolar epithelium independently of culture-induced changes in celllular differentiation. Carboxylase activity in Type II cells was enhanced 2-fold when cells were cultured for 24 h in the presence of 50 .mu.M-warfarin. Type II cells, therefore, resemble hepatocytes with regard to their rsponse to coumarin anticoagulant drugs.