Physiological properties and differential glycosylation of phosphorylated and nonphosphorylated forms of osteopontin secreted by normal rat kidney cells.

In a previous study we have shown that normal rat kidney (NRK) cells in vitro secrete a 69-kDa osteopontin in both phosphorylated (pp69) and nonphosphorylated (np69) forms. Only pp69 interacts with the cell surface and np69 forms a heat-dissociable complex with plasma fibronectin, suggesting functional modulation of osteopontin by phosphorylation. Using tunicamycin, an inhibitor of N-linked glycosylation, and peptide:N-glycosidase F, which removes N-linked oligosaccharide chains from glycoproteins, we show here that np69, but not pp69, contains N-linked carbohydrates. Our results also demonstrate that tunicamycin treatment does not inhibit the cell surface binding of pp69; however, np69 secreted by the treated cells fails to complex with plasma fibronectin, suggesting importantly, our data show that pp69 forms a heat-stable complex with cell surface fibronectin, suggesting that it is an integral component of the extracellular matrix of NRK cells. Finally, sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of deglycosylated and in vitro translated osteopontin suggests that the acidic nature of osteopontin as well as its post-translational modifications play a role in the anomalous behavior of osteopontin in sodium dodecyl sulfate gels, observed in several laboratories. The data presented here provide evidence for possible functional roles of 69-kDa osteopontin and suggest that its physiological properties are regulated by post-translational modifications.

Normal rat kidney cells secrete both phosphorylated and nonphosphorylated forms of osteopontin showing different physiological properties.

We have reported previously that the 69-kDa major phosphoprotein, secreted by normal rat kidney (NRK) cells, is osteopontin, a glycosylated bone matrix protein. Here we show that this 69-kDa osteopontin is secreted by NRK cells in both phosphorylated (pp69) and nonphosphorylated (np69) forms, with estimated isoelectric points of 3.8 and 4.5, respectively. Electrophoretic analysis of radioiodinated cell surface proteins immunoprecipitated with an anti-69-kDa osteopontin serum, demonstrates that the 69-kDa osteopontin is also present on the cell surface, but only its phosphorylated form (pp69) shows such cell surface association. Because osteopontin mediates cell adhesion and spreading, and contains an Arg-Gly-Asp-Ser cell-binding sequence, our observations strongly suggest that the cell surface localization of pp69 osteopontin is receptor-mediated, and the modification by phosphorylation may be crucial for its receptor binding activity. We also report that antisera directed against either fibronectin or 69-kDa osteopontin co-immunoprecipitate both np69 osteopontin and fibronectin as a heat-dissociable complex. In contrast, pp69 osteopontin does not co-precipitate with fibronectin. These observations demonstrate an interactive relationship between np69 and soluble fibronectin. Furthermore, compared to NRK cells, vanadyl sulfate-treated NRK cells which acquire a reversible transformed phenotype, including anchorage-independent growth, show increased levels of pp69 on the cell surface, concomitant with significantly decreased levels of pp69 and elevated levels of np69 in the conditioned media. The data presented here establish transformation sensitivity of NRK cell-secreted osteopontin with respect to its secretion and cell surface localization, and demonstrate that phosphorylated and nonphosphorylated forms of osteopontin have different physiological properties, which may regulate the functional roles of this extracellular matrix protein.