The three-dimensional aspect of the mammalian lung surfactant myelin figure

Abstract

Rodent and primate lung surfactant was studied at the ultrastructural level utilizing procedures that retained most of the carbohydrates and lipids in thin section. The three-dimensional aspect of tubular myelin surfactant was observed to be four, lipid bilayer membranes oriented at right angles so that in cross-section it was square. In longitudinal section it appeared as two parallel lipid bilayers. Inside the tubular myelin was a homogeneous matrix material that completely filled the tubule except for a small, central area. A single multilamellar body, after it expanded and rearranged lamellae to form tubular myelin surfactant, still retained its basic morphology so that it was possible to determine the number and orientation of bodies that comprised a given surfactant area. This enabled quantification of surfactant by serial sectioning. Each transformed multilamellar body was observed to contain from 2 to 13 groups of tubular myelin, oriented at angles within the transformed body. With three-dimensional understanding, many of the areas previously reported to be homogeneous were determined to actually be oblique cross or longitudinal sections through tubular myelin surfactant. Five distinct layers characterized tubular myelin surfactant: (1) Unexpanded layer—up to 63 recently secreted multilamellar bodies. (2) Formation layerp̄aired lamellae expanding and rearranging to form tubules. (3) Mature layer—tubular myelin surfactant. (4) Air-surfactant interface layer—usually a single lipid bilayer which was the outermost layer of tubular myelin of from 1 to 12 transformed multilamellar bodies. (5) Degraded surfactant layer—lipid bilayer spheres were formed at the interface and degraded in the alveolar space.