Edward G. Hayman

Location of the cell-attachment site in fibronectin with monoclonal antibodies and proteolytic fragments of the molecule

Proteolytic fragments of human plasma fibronectin were used to identify monoclonal antibodies reacting with the various domains of fibronectin. One of these antibodies, which reacts with cell-attachment-promoting fragments of fibronectin, inhibits attachment of cells to fibronectin-coated surfaces. A cell-attachment-promoting, chymotryptic, 120 kilodalton fragment was cleaved further with pepsin into three main fragments. The smallest, 15 kilodalton fragment was purified by affinity chromatography on the cell-attachment-inhibiting antibody insolubilized on Sepharose. This fragment is active in promoting cell attachment but lacks the other known binding activities of fibronectin. It can be localized between the collagen-binding and heparin-binding domains, about 127 to 197 kilodaltons from the NH2 terminus of the polypeptide. These results show that the interaction of fibronectin with cells is restricted to a defined portion of the molecule and is independent of the direct involvement of the known affinities toward other macromolecules.

Vitronectin—A major cell attachment-promoting protein in fetal bovine serum☆

Bovine serum is a constituent of most media used for the culture of animal cells. The adhesion-promoting properties of serum are generally attributed to fibronectin, yet there have been frequent reports of other adhesion-promoting molecules in bovine serum. Using a technique in which adhesive proteins are visualized after separation by SDS-PAGE, we graphically confirm the presence of a second cell attachment protein in bovine serum and present the evidence that this molecule is the bovine equivalent of vitronectin. The molecular size of this protein is in the same range as the size of the adhesive human plasma protein, vitronectin. The bovine protein also shared with human vitronectin an affinity for glass, and it could be purified by a combination of glass bead and ion exchange chromatography. The isolated bovine protein had varying proportions of an 80 and a 65 kD polypeptide. It showed immunological cross-reactivity with anti-human vitronectin and with anti-human somatomedin B. Somatomedin B is a serum peptide which has a NH2-terminal sequence identical to that of human vitronectin. The identity of the bovine protein as vitronectin was established by showing that its NH2-terminal amino acid sequence is strongly homologous with those of human vitronectin and somatomedin B. Quantitation of the adhesive activities of fibronectin and vitronectin in bovine plasma and fresh serum showed that more activity is associated with vitronectin than with fibronectin. The preponderance of vitronectin was particularly clear in fetal bovine serum intended for cell culture. In various batches, cell attachment activity attributable to vitronectin was 8-16-fold greater than that of fibronectin, making vitronectin the main adhesive protein in routine cell culture media.

Neurite-promoting factors and extracellular matrix components accumulating in vivo within nerve regeneration chambers

The outgrowth of neurites from cultured neurons can be induced by the extracellular matrix glycoproteins, fibronectin and laminin, and by polyornithine-binding neurite-promoting factors (NPFs) derived from culture media conditioned by Schwann, or other cultured cells. We have examined the occurrence of fibronectin, laminin and NPFs during peripheral nerve regeneration in vivo. A previously established model of peripheral nerve regeneration was used in which a transected rat sciatic nerve regenerates through a silicone chamber bridging a 10 mm interstump gap. The distribution of fibronectin and laminin during regeneration was assessed by indirect immunofluorescence. Seven days after nerve transection the regenerating structure within the chamber consisted primarily of a fibrous matrix which stained with anti-fibronectin but not anti-laminin. At 14 days, cellular outgrowths from the proximal and distal stumps (along which neurites grow) had entered the fibronectin-containing matrix, consistent with a role of fibronectin in promoting cell migration. Within these outgrowths non-vascular as well as vascular cells stained with anti-fibronectin and anti-laminin. Within the degenerated distal nerve segment, cell characteristic of Bungner bands (rows of Schwann cells along which regenerating neurites extend) stained with anti-fibronectin and laminin. The fluid surrounding the regenerating nerve was found to contain NPF activity for cultured ciliary ganglia neurons which markedly increased during the period of neurite growth into the chamber. In previous studies using this particular neurite-promoting assay, laminin but to a much lesser extent fibronectin also promoted neurite outgrowth.(ABSTRACT TRUNCATED AT 250 WORDS)

Butyrate restores fibronectin at cell surface of transformed cells

Abstract Transformed rat kidney cells were found to produce soluble fibronectin in amounts higher than those produced by normal rat kidney cells. In spite of this, they lacked the fibrillar fibronectin network present at the surface of the normal cells. Treatment of the transformed cells with butyrate converted them into extremely flat cells with abundant fibronectin at the cell-substratum interphase. Such cells subsequently grew into monolayers with normal morphology. This was accompanied by a restoration of fibrillar fibronectin network at the cell surface.

Fibronectin: a molecule with remarkable structural and functional diversity

Fibronectin is a large, extracellular glycoprotein that binds to a variety of macromolecules including fibrin, collagen, cell surfaces, and glycosaminoglycans. Proteases cleave fibronectin into fragments which have one or more of these binding activities contained in molecular domains. The proteolytic fragments and monoclonal antibodies reacting with different domains have revealed the sequential ordering of the active sites in the molecule.