1. A549 is a continuous cell line derived from a human pulmonary adenocarcinoma. To evaluate the suitability of this cell line as a model of the type II pneumocyte, the morphology and the composition and biosynthesis of phosphatidylcholine was examined under control culture conditions and during fatty acid supplementation with palmitate. A number of the ultrastructural characteristics of A549 cells were similar to the in situ type II pneumocyte and were unchanged by fatty acid supplementation. The phospholipid composition of the cell line was similar to that of primary isolates of type II cells in total phosphatidylcholine, disaturated phosphatidylcholine, and palmitate and saturated fatty acid. Phospholipid biosynthetic results were also consistent with those reported for isolated type II cell models. These included: (i) the pattern of incorporation of choline, palmitate and acetate into phosphatidylcholines; (ii) the effect of palmitate supplementation, which resulted in stimulation of the rate of phosphatidylcholine biosynthesis and in increased percentage of labeled precursor in disaturated phosphatidylcholine; and (iii) the preferential synthesis from labeled choline and palmitate of a highly disaturated phosphatidylcholine in short-term incubations. 2. The incorporation of an organometallic palmitate analog, 12,12-dimethyl-12-stannahexadecanoate, into A549 cell lipids was examined and compared to that of palmitate. These date demonstrate for the first time the incorporation of an organometallic substrate into the phospholipids of a mammalian cell line. This analog substitutes selectively for the native fatty acid at a rate similar to that of the native fatty acid with no cytotoxic effects. The organotin probe, coupled with spectroscopic detection and electron microscopy, may be useful for examining ultrastructural aspects of phospholipid synthesis, translocation and assembly.