AJP - Lung Cellular and Molecular Physiology, Vol 267, Issue 6 753-L760, Copyright © 1994 by American Physiological Society
Surfactant protein A regulates uptake of pulmonary surfactant by lung type II cells on microporous membranes
S. R. Bates, C. Dodia and A. B. Fisher
Institute for Environmental Medicine, University of Pennsylvania School of Medicine, Philadelphia 19104.
We have investigated the internalization of surfactant by type II cells in
primary culture. Previously, we demonstrated that type II cells cultured on
microporous membranes [Transwell membranes (TM)] maintained the
morphological characteristics of lung pneumocytes and took up surfactant
protein and phospholipid in a fashion similar to that described for the
uptake of surfactant by whole lung. In the present study, cells cultured on
TM and exposed to equivalent amounts of phospholipid (PL) as either natural
surfactant or liposomes incorporated fivefold greater amounts of natural
surfactant PL. The evidence supported an important role for surfactant
protein A (SP-A), as the incorporation of surfactant into type II cells on
TM was reduced by anti-SP-A antisera and by pretreatment of the surfactant
with beta-mercaptoethanol. In addition, the uptake of liposomes into type
II cells on TM was augmented by SP-A. With the use of iodinated bovine SP-A
reconstituted in rat surfactant, cells cultured on TM showed a 2.6-fold
increase in binding and a 3.2-fold stimulation in uptake of SP-A over that
seen with cells cultured on plastic. The change in the slope of the total
binding curve of 125I-labeled bovine SP-A reconstituted with bovine
surfactant to type II cells on the two substrates occurred at the same
concentration of SP-A (17 micrograms/mg), but maximal binding was
approximately eight times higher for cells on TM than for cells on plastic
dishes. Thus, in a more physiological environment, i.e., SP-A in surfactant
and cells on microporous membranes, SP-A plays an important role in the
uptake of phospholipids by alveolar pneumocytes.
