The phospholipids of lamellar body material from fetal rabbit lung tissue in culture. Unusual phosphatidylcholine fatty acid profile

Abstract

Tissue pieces of rabbit fetal lung, 23 days gestation, were cultured for 7 days in serum-free medium to obtain lamellar body material for phospholipid analysis. Cultures were maintained in culture medium without serum and (1) with no added hormones (control cultures), (2) with thyroxine (1 · 10 −7 M), (3) with cortisol (1 · 10 −7 M) and (4) with thyroxine plus cortisol (1 · 10 −7 M each). The hormonal response was evaluated by measuring the quantity of lamellar body material isolated from the tissue pieces after the 7-day culture period. Compared to control cultures, more lamellar body material was recovered from cultures treated with cortisol (180% of control) and with thyroxine plus cortisol (250% of control). Cultures treated with thyroxine alone yielded the same amount of lamellar body material as the controls. Hormone treatment produced only minor changes in the glycerophospholipid profile of the lamellar body material. A small but significant increase in the percentage of phosphatidylglycerol and a small but significant decrease in phosphatidylinositol were found in lamellar body material from cultures treated with thyroxine and thyroxine plus cortisol. The disaturated phosphatidylcholine content of the lamellar body material from culture was 28% of the total lamellar body phospholipid and was not affected by hormone treatment. This disaturated phosphatidylcholine content was low compared to the disaturated phosphatidylcholine of lamellar body material from adult lung (46%). The low proportion of disaturated phosphatidylcholine was due to the unusual presence of palmitoleic acid (16 : 1( cis-9)), which was more than one-fourth of the total fatty acid of the lamellar body phosphatidylcholine. It is possible that an abnormal Δ 9 fatty acid desaturation activity was expressed in the lung tissue in vitro, which resulted in the high incorporation of the 16:1 fatty acid into lamellar body phosphatidylcholine.