| Exp Cell Res. 1986 Feb;162(2):423-35. |
|
Repopulation of a human
alveolar matrix by adult rat type II pneumocytes in vitro. A novel system for type II pneumocyte
culture.
Lwebuga-Mukasa JS, Ingbar DH, Madri JA.
This paper describes the preparation of lung acellular alveolar matrix fragments
and culture of rat type II pneumocytes directly on the alveolar epithelial
basement membrane, thereby permitting study of the effect of lung basement
membrane on the morphology and function of type II cells. Collagen types I,
III, IV and V, laminin and fibronectin were located by immunofluorescence
in the lung matrix with the same patterns as those described for the normal
human lung. Transmission electron microscopy (TEM) of the fragments revealed
intact epithelial and endothelial basement membranes. The matrix maintained
the normal three-dimensional alveolar architecture. Glycosaminoglycans were
still present by Alcian Blue staining. Isolated adult rat type II pneumocytes
cultured on 150 micron thick fragments of acellular human alveolar extracellular
matrix undergo gradual cytoplasmic flattening, with loss of lamellar bodies,
mitochondria, and surface microvilli. These changes are similar to the in
vivo differentiation of type II pneumocytes into type I pneumocytes. The type
II pneumocyte behaviour on the lung epithelial basement membrane contrasted
sharply with that of the same cell type cultured on a human amnionic basement
membrane. On the latter surface the cells retained their cuboidal shape, lamellar
bodies and surface microvilli for up to 8 days. These observations suggest
that the basement membranes from different organ systems exert differing influences
on the morphology and function of type II pneumocytes and that the alveolar
and amnionic basement membranes may have differing three-dimensional organizations.
The technique of direct culture of type II cells on the lung basement membrane
provides a useful tool for studying the modulating effect of the basement
membrane on alveolar epithelial cells.
PMID: 3510880 [PubMed - indexed for MEDLINE]