Laminin-like glycoproteins in extracellular matrix of endodermal cells

Abstract

Extracellular matrix from a mouse endodermal cell line consisted mainly of two polypeptides with molecular weights of about 200,000 (200K) and 400,000 (400K). Both poly-peptides incorporated radioactivity from [ 3H]proline and [ 3H]glucosamine and were solubilized from the matrix by treatment with bacterial collagenase or 0.5 m sodium chloride. These polypeptides appeared similar to those of laminin ( R. Timpl, H. Rohde, P. G. Robey, S. I. Rennard, J.-M. Foidart, and G. R. Martin, 1979, J. Biol. Chem., 254, 9933–9937) in polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate but the laminin polypeptides seemed slightly larger than the 200K and 400K polypeptides, respectively. The amino acid compositions of the isolated 200K and 400K polypeptides resembled one another and the previously published amino acid composition of laminin. Antibodies prepared against the solubilized extracellular matrix protein (mixture of 200K and 400K components) as well as those against the isolated 400K component precipitated both the 400K component and the 200K component from culture media. These antisera and antisera to laminin showed identical reactivities in immunodiffusion and in immunofluorescence of tissue sections where they stained basement membranes. The immunofluorescent staining pattern was similar to that obtained with antifibronectin except in the liver where antifibronectin stained the biliary ducts and the liver sinusoids, while laminin-like immunoreactivity was not present in the sinusoidal areas. Such differences in distribution of matrix components could be involved in generation of signals for differentiation and growth of the adjacent cells.