The deposition of fibronectin into the extracellular matrix is an integrin-dependent, multistep process that is tightly regulated in order to ensure controlled matrix deposition. Reduced fibronectin deposition has been associated with altered embryonic development, tumor cell invasion, and abnormal wound repair. In one of the initial steps of fibronectin matrix assembly, the aminoterminal region of fibronectin binds to cell surface receptors, termed matrix assembly sites. The present study was undertaken to investigate the role of extracellular signals in the regulation of fibronectin deposition. Our data indicate that the interaction of cells with the extracellular glycoprotein, vitronectin, specifically inhibits matrix assembly site expression and fibronectin deposition. The region of vitronectin responsible for the inhibition of fibronectin deposition was localized to the heparin-binding domain. Vitronectin's heparin-binding domain inhibited both  1 and non- 1 integrin-dependent matrix assembly site expression and could be overcome by treatment of cells with lysophosphatidic acid, an agent that promotes actin polymerization. The interaction of cells with the heparin-binding domain of vitronectin resulted in changes in actin microfilament organization and the subcellular distribution of the actin-associated proteins ␣-actinin and talin. These data suggest a mechanism whereby the heparin-binding domain of vitronectin regulates the deposition of fibronectin into the extracellular matrix through alterations in the organization of the actin cytoskeleton.The deposition of fibronectin into the extracellular matrix is a dynamic, multistep process that is normally tightly regulated in order to ensure controlled matrix deposition. In certain disease states, including pulmonary fibrosis and atherosclerosis, loss of this regulation gives rise to either excess or inappropriate fibronectin deposition (1). In addition, reduced fibronectin deposition has been associated with altered embryonic development, tumor cell invasion, and abnormal wound repair (1). The mechanisms that control the rate and extent of fibronectin deposition are only partially understood.Adherent cells polymerize an insoluble fibronectin matrix by assembling cell-or plasma-derived soluble fibronectin into insoluble fibrils (2). In one of the initial steps of matrix assembly, cell surfaces bind the amino-terminal region of fibronectin in a reversible and saturable manner (3, 4). Subsequent homophilic binding interactions are thought to promote the polymerization of the fibronectin molecule into an insoluble matrix (5-9) and allow for the regeneration of the cell surface amino-terminal binding site (2). The binding of the amino terminus of fibronectin to cell surface receptors, termed matrix assembly sites (3), is mediated by the first five type I repeats of fibronectin (4, 10). The molecule(s) that mediates the binding of the amino terminus of fibronectin to cell surfaces has not been definitively identified. It has been proposed that the III 1 module o...
Cell surface plasminogen activators have been proposed to participate in cell migration and invasion by activating both intracellular signaling pathways and extracellular proteolysis. Urokinase-type plasminogen activator (uPA) is secreted from many cell types and localizes to focal contact areas when cells are seeded onto the plasma protein vitronectin. Induction of vitronectin synthesis during migration of neural crest cells and growth of certain tumors suggests that the de novo synthesis and deposition of vitronectin into the tissue matrix may remodel the matrix to provide an environment suitable for cell migration and (or) tumor invasion. To investigate the effects of vitronectin secretion and matrix deposition on the localization and activity of cell-associated uPA, HT-1080 fibrosarcoma cells were transfected with the Rc/CMV expression vector containing a vitronectin cDNA insert and stable cell lines expressing vitronectin were selected. Vitronectin-secreting cells were allowed to attach and spread on collagen- and fibronectin-coated substrates. Within 6 h, vitronectin was detected on the substrate; vitronectin synthesis was accompanied by the clustering of both the alpha v beta 5 vitronectin receptor and uPA into vinculin-containing focal adhesions. Although mock transfected cells formed small focal adhesions on both collagen and fibronectin, no co-localization of uPA or alpha v beta 5 to focal adhesions was evident in these cells. Vitronectin-secreting cells also exhibited decreased levels of plasminogen activation and increased levels of cell adhesion as compared with the mock transfected cells. These data demonstrate that the synthesis of vitronectin and its matrix association by transfected HT-1080 fibrosarcoma cells results in localization of uPA to alpha v beta 5 containing focal adhesions, decreased cell surface uPA activity, and an increase in cell adhesion.
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