Lamellar body formation in normal and surfactant protein B-deficient fetal mice.

Surfactant protein B (SP-B) -/- mice die of lethal respiratory distress syndrome shortly after birth. Alveolar type II epithelial cells in SP-B-deficient mice are characterized by a complete absence of lamellar bodies, the intracellular storage form of pulmonary surfactant, and the presence of inclusions containing numerous small vesicles and electron-dense masses. The present study was undertaken to characterize the formation of these inclusions during fetal lung development and clarify their relationship to lamellar bodies. In wild-type and SP-B +/- mice, small lamellar bodies with loosely organized lamellae and distinct limiting membranes were first detected on day 16 to 16.5 of gestation. SP-B -/- mice were readily identified on day 16 by the absence of immature lamellar bodies, the appearance of vesicular inclusions similar to those previously described in late gestation SP-B -/- mice, and the accumulation of misprocessed SP-C protein. Vesicular inclusions were rarely detected in SP-B +/- mice and were never detected in wild-type littermates. Classical multivesicular bodies were observed fusing with lamellar bodies in wild-type mice, and with the vesicular inclusions in SP-B -/- mice that occasionally contained a few membrane lamellae. On day 18, the airways of SP-B -/- mice lacked tubular myelin and were filled with vesicles and electron-dense masses, suggesting that the contents of the vesicular inclusions were secreted. Taken together, these observations suggest that vesicular inclusions in SP-B -/- mice are disorganized lamellar bodies in which the absence of SP-B leads to failure to package surfactant phospholipids into concentric lamellae.

A modification of an affinity procedure for purification of human C1- inhibitor that provides a homogeneous stable preparation.

Human C1- inhibitor can be rapidly purified by the affinity chromatography procedure described by Pilatte and his associates (1989), but the inhibitor so purified breaks down during storage or is in a cleaved form when initially purified. By adding an ion-exchange chromatography procedure after the affinity chromatography, a stable, single species of C1- inhibitor molecules is obtained. It is likely that serine proteinases in trace amounts, which may be complexed with some of the C1- inhibitor, are removed during the ion-exchange procedure. This procedure provides a highly purified and useful preparation of C1- inhibitor.