TYPE-II EPITHELIAL-CELLS OF LUNG .3. LECITHIN SYNTHESIS - COMPARISON WITH PULMONARY MACROPHAGES

Abstract

Lecithin synthesis in isolated type II alveolar cells [rabbit] was compared with that in alveolar macrophages as a means of exploring the biochemical mechanisms underlying surfactant production in the lung. Counted cell populations were suspended in a simple glucose-salt solution, and 14C-labeled precursors were added singly, in physiologic concentrations, to assess the potential importance of each as a substrate for lecithin synthesis. Molar incorporation of glucose, glycerol, choline, lysolecithin, acetate, palmitate, oleate and linoleate was determined in lecithins fractionated according to degree of saturation after 1 h incubation. Palmitate was the most actively utilized substrate in type II cells. Type II cells incorporated 6 nmol of palmitate per 107 cells, of which 77% was in disaturated lecithins and 66% at the C2 position (compared to 0.8 nmol, 47% disaturated, in macrophages). Acetate was also incorporated mainly into disaturated lecithins in type II cells; macrophages did not utilize acetate, and no precursor specifically supported disaturated lecithin synthesis in macrophages. Type II cells and macrophages synthesized similar quantities of total lecithins and disaturated lecithins from glucose and choline. Only the type II cells were capable of increasing disaturated lecithin synthesis from 14C-choline when unlabeled palmitate was added to the medium. Type II cells synthesized significantly more disaturated lecithins from lysolecithin than did macrophages (451 vs. 60 pmol per 107 cells). Macrophages utilized glycerol in lecithin synthesis, but type II cells did not. Type II cells are the site of disaturated lecithin synthesis, and acyl turnover mechanisms are important in production of disaturated lecithins by the type II cell.