Galectin-3 and polarized growth within collagen gels of wild-type and ricin-resistant MDCK renal epithelial cells.
Previous studies (Q. Bao and R. C. Hughes (1995) J. Cell Sci., 108, 2791-2800) showed that the beta-galactoside-binding protein, galectin-3, is secreted onto the basolateral surface domains of Madin-Darby canine kidney MDCK cells growing as polarized cysts within a collagen gel. The growth and enlargement of such cysts were shown to be increased significantly when cultured in the presence of antibodies directed against the lectin and were slowed down by addition of exogenous galectin-3. These results suggested a role for galectin-3, interacting with appropriately glycosylated surface receptors, as a negative growth regulator in the development of MDCK cysts, a well-known model for renal epithelial morphogenesis. In the present report we have tested this proposal by use of a ricin-resistant mutant of MDCK cells that is unable to transfer galactose residues during biosynthesis of cellular glycoconjugates and hence lacks extracellular receptors for galectin-3. We find that when grown within collagen gels, the mutant cell cysts grow significantly faster than wild-type cell cysts. Furthermore, they form nonspherical and tubular cysts that are induced in wild-type cell cysts only under the influence of the morphogen, hepatocyte growth factor (HGF).
|