The interaction of fibronectin fragments with fibroblastic cells

We have examined the interaction of the purified cell-binding domain of fibronectin with fibroblastic baby hamster kidney cells. When the cell-binding region of fibronectin is part of a large 75,000-dalton fragment, the direct binding of the tritium-labeled fragment to cells in suspension can be observed. There is a single class of 10(5) sites/cell with an apparent dissociation constant of 4 X 10(-7) M. When the cell-binding region is part of a smaller 11,500-dalton fragment, an interaction with cells can only be observed indirectly via inhibition assays. The apparent affinity of this fragment for the cell surface fibronectin receptor is low. This 11,500-dalton fragment competitively inhibits both the direct binding of soluble [3H]fibronectin to cells in suspension and the spreading of cells on fibronectin-coated substrates, suggesting that the fragment binds to the same receptor site as intact fibronectin. Possible models describing the mechanism of the interaction of fibronectin with its receptor are proposed.     

Rat plasma fibronectin contains two distinct chemotactic domains for fibroblastic cells

Mechanism of fibronectin (FN)-induced chemotaxis of fibroblastic cells has not been fully understood. The present study was performed to establish a molecular nature of the chemotactic region of rat plasma FN. The chemotactic dose-response pattern of intact FN for mouse embryo fibroblastic cells, NIH-L13 cells, which was represented as a "bell-shape" curve with a maximum activity at around 50 nM, changed to a "biphasic" mode through a proteolysis with thermolysin. Two distinct chemotactic components were isolated from the thermolytic fragments. One component, a fragment with a molecular mass of 110-150 kDa, was estimated to contain the central cell-binding domain and the carboxyl-terminal heparin-binding domain of the intact FN molecule. Cell migration stimulated by the 110-150-kDa fragment increased successively in a dose-dependent manner, and the capability to promote the migration was much higher than that of the intact FN (over 2-fold). The second chemotactic component, a fragment with a molecular mass of 21 kDa, was shown to reside in the carboxyl-terminal fibrin-binding domain. The 21-kDa fragment produced a bell-shape dose-response pattern, being consistent with the intact FN, whereas a maximum response occurred at a 100-fold lower concentration (0.5 nM) than that of the intact FN molecule. At higher concentrations, this fragment revealed an inhibitory activity for the cell migration in response to the 110-150-kDa fragment. No significant molecular interaction between these two active components was observed by polyacrylamide gel electrophoresis under nondenaturing conditions, suggesting that the 21-kDa fragment may act directly on the cell to inhibit the cell migration. These results suggest that rat plasma FN contains at least two chemotactically active components that regulate cooperatively chemotactic migration of fibroblastic cells.     

Differential interaction of Xenopus embryonic cells with fibronectin in vitro

Two distinct cell types from the amphibian gastrula were compared with regard to their interactions in vitro with fibronectin (FN). Xenopus embryonic endoderm cells attach to FN substrates in a way characteristic of most cell types studied so far; that is, adhesion increases abruptly at a certain threshold concentration of FN, and maximal binding of cells already occurs at low FN concentrations (10 micrograms/ml). In contrast, embryonic ectodermal cells bind maximally to FN substrates only at unusually high concentrations of FN (200 micrograms/ml). This peculiar mode of attachment to FN has been characterized more closely. It is shown that the adhesion of ectodermal cells is modified by their interaction with a heparin-binding domain of the FN molecule. Furthermore, ectodermal cell adhesion increases very slowly with increasing FN concentrations. Despite these characteristic differences, both ectodermal and endodermal cells attach to the normal RGD cell-binding site of FN, as can be shown by competitive inhibition of adhesion by a hexapeptide containing the RGD sequence of amino acids.     

Exogenous gangliosides enhance the interaction of fibronectin with ganglioside-deficient cells

The major cell-surface glycoprotein fibronectin mediates a variety of cellular adhesive interactions that have been reported to be competitively inhibited by gangliosides. These effects suggest a possible function of gangliosides as receptors for fibronectin. To test this hypothesis more directly, we examined the interaction of endogenous fibronectin with a ganglioside-deficient cell line, NCTC 2071. These cells, which grow in serum-free medium, synthesized fibronectin. The fibronectin did not bind to these cells, but instead bound diffusely to the culture substratum. When the cells were cultured in medium containing ganglioside, the fibronectin became bound to the cell surface in fibrillar strands. The order of effectiveness of purified gangliosides was GT1b greater than GD1a greater than GM1 greater than GM2 greater than GM3. The effect with mixed gangliosides was accompanied by a restoration of cellular capacity to bind and to respond to cholera toxin. Treatment of the cells with several phospholipids did not alter fibronectin binding. Our results support the hypothesis that gangliosides can help mediate the binding of fibronectin to fibroblasts.     

Binding of plasma fibronectin to the surfaces of BHK cells in suspension at 4 °C

Plasma fibronectin is shown by several different criteria to bind to suspended BHK cells if the binding incubations are carried out at 4 °C. In indirect immunofluorescence experiments, fibronectin bound to suspended BHK cells at 4 °C in a punctate distribution over the entire cell surfaces. Little binding, however, was detected on cells incubated with fibronectin at 37 °C. The fibronectin bound to the cells at 4 °C was functionally active, since these cells subsequently were able to spread on tissue culture dishes in protein-free medium, unlike cells preincubated with fibronectin at 37 °C or in the absence of fibronectin. Also, the cell surface receptors for soluble fibronectin and fibronectin-coated beads appeared to be similar, since cells preincubated with fibronectin at 4 °C subsequently bound fewer fibronectin-coated beads than control cells. In biochemical studies with radiolabeled fibronectin, binding of fibronectin to the cells was shown to increase with incubation time up to 4 h. In competition experiments with unlabeled fibronectin, 30% of the binding of radiolabeled fibronectin could be inhibited.     

Characterization of fibronectin from fetal human plasma in comparison with adult plasma fibronectin

Peptides containing fewer than 50 amino acids show little ordered structure under physiological conditions. In this paper it is shown that in the receptor environment, secondary structure could be induced in small peptides that involves 87% of all the amino acid residues. The statistical methods of Chou and Fasman are used to predict the conformation of 41 peptide hormones or neuromodulators in the proteinaceous environment of the receptor, and four distinct conformational groupings are elucidated. beta-bend, beta-structure and alpha-helical conformation are possible for distinct groups of linear peptides, and disulfide bridge containing peptides show a common beta-bend beta-structure conformation at the receptor. In the predicted receptor conformation, the peptides show hydrophobic and hydrophilic domains that must reflect the distribution of corresponding regions in the ligand-binding site of the receptor. The predicted ligand conformation should allow a more rational approach to interpreting existing structure activity studies and the design of new analogs of pharmacological interest.     

Actin interaction with the plasma membrane fraction of the cells from a suspension subline of murine L fibroblasts

Effect of plasma membranes of murine fibroblasts cultivated in suspension on actin polymerization was studied. Using low shear viscometry of actin-membrane mixtures together with the number of extractions of membranes with actin depolymerizing buffers it was found that at least two polypeptides 220 and 94 kDa may be involved into the actin filaments-plasma membrane interaction.     

The thermotropic properties of human plasma fibronectin

Thermal denaturation profiles for human plasma fibronectin under a variety of conditions have been determined. Although a single melting curve for this protein, with a thermal transition midpoint of 58.4 +/- 1.0 degree C and a calorimetric enthalpy change (delta Hc) of 1040 +/- 100 kcal/mol, is obtained in dilute neutral salt solutions, it is estimated that a total of seven to eight independent two-state thermal transitions are present in this endotherm. These values are not significantly altered by the presence of Ca2+, up to levels of at least 20 mM. Upon variation of the pH, no distinct thermal transitions are noted at values below pH 5.0 and above pH 10.0. Between pH 7.0 and 10.0, virtually no alterations in the thermotropic properties of fibronectin are observed, indicating that the individual domains of this protein, which contribute to the thermogram, are preserved in this pH range. Upon alteration of the ionic strength of the buffer, from 0.05 to 0.4 M KCl, small changes are observed in the thermal transition profiles of fibronectin, indicative of conformational changes in the protein resulting in a larger number of cooperative units undergoing the temperature-induced unfolding reaction.     

The interaction of human plasma glycoaminoglycans with plasma lipoproteins.

Modifications of existing methods have allowed for the isolation and purification of various species of plasma glycosaminoglycans on the basis of their sulfate content and molecular size. All of the preparations precipitated human plasma low density lipoproteins (LDL); maximal precipitation occurred with amounts of glycans corresponding to 50 mug of hexuronate and 12 mg of LDL. The interaction of glycans with pyrene-labeled lipoproteins was also studied, measuring variations of the fluorescence emitted by the monomer (M) and excimer (E) species of the bound pyrene. The ratio IE/IM is proportional to c/eta, where c is the microscopic concentration of the pyrene confined to the hydrocarbon region of the lipoprotein and eta is the microviscosity of that region. To 0.12 mg of pyrene-labeled LDL, very low density lipoproteins (VLDL) or high density lipoproteins (HDL) were added increasing amounts of the various glycan preparations. The sulfate-rich species decreased the IE/IM ratio of LDL and HDL but not that of VLDL. This finding suggests that the glycan caused a change in lipoprotein conformation associated with either an increased volume or increased microscopic viscosity of the hydrocarbon region. The modification of LDL conformation could be prevented by proteolytic treatment of the sulfate-rich species or by addition to the system of suitable amounts of sulfate-poor species or of chrondroitin-4-sulfate, but could not be prevented by increased ionic concentration. These results suggest that the two main species of plasma glycans are important in maintaining adequate rheological properties of plasma lipoproteins.     

The heparin-dependent accumulation of plasma fibronectin on macrophages

Previous experiments (H?rmann, H. & Jelini?, V. (1980) Hoppe-Seyler's Z. Physiol. Chem. 361, 379-387) had shown that heparin promoted the binding of plasma fibronectin to peritoneal macrophages of guinea pigs. The present data reveal that this effect only takes place at higher fibronectin concentrations indicating cooperative processes, most likely association of fibronectin at the cell surface. An unspecific precipitation of fibronectin by heparin was prevented by calcium in the medium. The accumulation at the cell surface was inhibited by the following fibronectin fragments: N-terminal 30 kDa and 70 kDa containing a potential self-association site and a transamidase-reactive site; central 95 kDa which comprised a negatively charged region possibly involved in self-association as well as the so-called alternative cell-binding site, but was lacking the cell-binding Arg-Gly-Asp sequence; heparin-binding 37-kDa and 60-kDa fragments. All these domains and sites, therefore, were potentially important in the assembly process at the cell surface. A peptide comprising the sequence Arg-Gly-Asp was ineffective pointing against an involvement of this fibronectin cell-binding site in the overall process. Macrophages of older animals were less capable of accumulating fibronectin under the reaction conditions. Their capability was improved after preincubation with activated plasma transglutaminase (coagulation factor XIIIa) suggesting that a cell-attached transamidase might be important for the assembly process.     

Fluid-phase interaction between human plasma fibronectin and gelatin determined by fluorescence polarization assay

Previous studies of the binding properties of fibronectin (Fn) have utilized methods whereby one or the other macromolecule was immobilized on a solid phase. In order to examine the interaction between human plasma Fn and gelatin in solution, the latter was labeled with fluorescein isothiocyanate (FITC) whose fluorescence polarization (P) served as a sensitive indicator of the formation of soluble complexes. Changes in P were detectable at Fn concentrations below 10(-9) M and continued up to concentrations above 10(-6) M at pH 7.3 and 25 degrees C. Fractionation of FITC-gelatin by exclusion chromatography and titration of selected fractions revealed a trend towards higher affinity with increasing size. A high-molecular-weight fraction comprised of beta and gamma components and a low-molecular-weight fraction comprised primarily of alpha chains exhibited sigmoidal increases in P (apparent positive cooperativity) with 50% saturation near 10(-9) and 10(-8) M Fn, respectively. By contrast, a 42-kDa chymotrypsin-generated Fn fragment which retains the ability to adhere to gelatin-Sepharose exhibited normal (noncooperative) binding to both gelatin fractions with Kd = 7 X 10(-7) M. In all cases, the increase in P could be reversed by addition of excess unlabeled gelatin or urea. The interaction of FN with FITC-gelatin provides the basis for a fast and sensitive determination of Fn levels in plasma and other fluids. Interference caused by other proteins such as albumin, which has an affinity for the fluorescein moiety, could be minimized by addition of 1.0 M NaCl which had no effect on the interaction between Fn and gelatin.     

Quantitative study of cell interaction with collagen and fibronectin

The interaction of BHK-fibroblasts with collagen or fibronectin-collagen complex was investigated quantitatively. For that purpose an improved method for production of defined cell substrata was developed. The method permitted reproducible coupling of different ligands to glass via an amino or carboxyl group. BHK-cells grown on collagen required a minimum density of 15-20 ng collagen/cm2 for spreading. When grown on fibronectin adsorbed on collagen the cells were found to remove fibronectin from the substratum at a rate of 0.15 pg/(cell X h).     

Mesothelial cells in suspension expose an enriched integrin repertoire capable of capturing soluble fibronectin and laminin

Pleural cavities are lined by a polarized monolayer of mesothelial cells (MC). During pleuritis, MC are shed into effusions, and pleural obstruction may occur. Integrins are cell surface receptors mediating interactions with extracellular matrix (ECM) proteins. The distribution of beta 1-, beta 3-, beta 4-integrins and fibronectin and laminin in normal and chronically inflamed pleura and in/on MC from pleural effusions was examined by immunomorphology and flow cytometry. Adhesion assays of MC to fibronectin and laminin were performed. In situ, resting MC expressed beta 1-, beta 3-, and beta 4-, and alpha v-subunits. Activated MC were beta 1- and alpha v-positive and also expressed alpha 3 and alpha 6; beta 4 was confined to the basal surface of MC; beta 3 was absent. Floating MC from effusions neoexpressed alpha 5 and reexpressed beta 3. In vitro, MC surface expressed beta 1, beta 3, alpha 3, alpha 5, alpha 6, alpha v, and also alpha 1 and alpha 2. In normal pleura, fibronectin and laminin were components of the basement membrane. In pleuritis, the basement membrane was desintegrated. Instead, newly formed fibronectin/laminin containing fibrils extended into the submesothelial connective tissue. Floating MC freshly isolated from effusions carried fibronectin and laminin on their surface and showed specific binding to these ECM proteins. Binding was blocked by anti-beta 1 or anti-alpha 5 and anti-alpha 6 antibodies, respectively. MC incubated with fibronectin showed a clear shift to the S phase, while laminin had no effect. In conclusion, activated and detached MC progressively enrich their integrin repertoire. By capturing soluble fibronectin and laminin and by matrix-mediated bridging, readhering MC may contribute to pleural obstruction. Further, soluble fibronectin bound to alpha 5 beta 1 might be life-sustaining for floating MC by driving cells into cell cycle.     

Real-time monitoring of hematopoietic cell interaction with fibronectin fragment

Real-time cell analysis (RTCA) system based on measurement of electrical microimpedance has been introduced to monitor adherent cell cultures. We describe its use for real-time analysis of hematopoietic cell adhesion to bone marrow stroma proteins. Cells growing in suspension do not generate any significant change in the microimpedance signal until the surface with embedded microelectrodes is coated with a cell-binding protein. We show that in this case, the microimpedance signal specifically reflects cell binding to the coated surface. The optimized method was used to monitor the effect of two histone deacetylase inhibitors, suberoylanilide hydroxamic acid (SAHA) and tubastatin A, on JURL-MK1 cell adhesion to cell-binding fragment of fibronectin (FNF). Both compounds were used in non-toxic concentrations and induced an increase in the cell adhesivity. The kinetics of this increase was markedly slower for SAHA although tubulin hyperacetylation occurred rapidly for any of the two drugs. The strengthening of cell binding to FNF was paralleled with a decrease of Lyn kinase activity monitored using an anti-phospho-Src family antibody. The inhibition of Src kinase activity with PP2 accordingly enhanced JURL-MK1 cell interaction with FNF. Actin filaments were present at the proximity of the plasma membrane and in numerous membrane protrusions. In some cells, F-actin formed clusters at membrane regions interacting with the coated surface and these clusters colocalized with active Lyn kinase. Our results indicate that the role of Src kinases in the regulation of hematopoetic cell adhesion signaling is similar to that of c-Src in adherent cells.     

Properties of atropine interaction with the plasma membrane of myometrial cells

Atropine binding with some vesicular preparations of pig myometrium cellular plasmatic membranes has been estimated by means of ultracentrifugation in order of membranes precipitation as well as of two-beam spectrofotometry designed for recording UV-spectrum absorption by the residual solutions containing atropin. While utilizing Langmuir probe of sorption isotherm rectilinear sites the affinity of binding centers to atropin (34 kJ/mol) and Kd = 1 mmM was measured. Fresing-defrosting of the membranes vesicular preparations provides for the sorption increase by 28% and the affinity decrease reaching 13 kJ/mol. The hypothesis was made about the prioritative correct orientation of vesicules.     

Heterologous regulation of EGF receptors in fibroblastic cells

Platelet-derived growth factor (PDGF) increases the mitogenic activity of epidermal growth factor (EGF) in several cells lines, including BALB/C-3T3. PDGF-treated BALB/C-3T3 cells manifest a reduced capacity to bind 125I-labeled EGF due to a loss of high affinity EGF receptors. Cholera toxin potentiates the ability of PDGF to both decrease EGF binding and initiate mitogenesis. Whether PDGF increases EGF sensitivity via its effects on EGF receptors is not known and requires a more complete understanding of the mechanism by which PDGF decreases EGF binding. 12-O-tetradecanoylphorbol 13-acetate (TPA) also reduces EGF binding in BALB/C-3T3 and other cells, presumably by activating protein kinase C and, consequently, inducing the phosphorylation of EGF receptors at threonine-654. PDGF indirectly activates protein kinase C, and EGF receptors in PDGF-treated WI-38 cells are phosphorylated at threonine-654. Thus, the effects of PDGF on EGF binding may also be mediated by protein kinase C. We investigated this hypothesis by comparing the actions of PDGF and TPA on EGF binding in density-arrested BALB/C-3T3 cells. Both PDGF and TPA caused a rapid, transient, cycloheximide-independent loss of 125I-EGF binding capacity. The actions of both agents were potentiated by cholera toxin. However, whereas TPA allowed EGF binding to recover, PDGF induced a secondary and cycloheximide-dependent loss of binding capacity. Most importantly, PDGF effectively reduced binding in cells refractory to TPA and devoid of detectable protein kinase C activity. These findings indicate that PDGF decreases EGF binding by a mechanism that involves protein synthesis and is distinct from that of TPA.     

Selective interaction of peripheral and central nervous system cells with two distinct cell-binding domains of fibronectin

Mechanisms of cell interaction with fibronectin have been studied with proteolytic fibronectin fragments that have well-defined ligand binding properties. Results of a previous study (Rogers, S. L., J. B. McCarthy, S. L. Palm, L. T. Furcht, and P. C. Letourneau, 1985, J. Neurosci., 5:369-378) demonstrated that (a) central (CNS) and peripheral (PNS) nervous system neurons adhere to, and extend neurites on a 33-kD carboxyl terminal fibronectin fragment that also binds heparin, and (b) neurons from the PNS, but not the CNS, have stable interactions with a 75-kD cell-binding fragment and with intact fibronectin. In the present study domain-specific reagents were used in inhibition assays to further differentiate cell surface interactions with the two fibronectin domains, and to define the significance of these domains to cell interactions with the intact fibronectin molecule. These reagents are (a) a soluble synthetic tetrapeptide Arg-Gly-Asp-Ser (RGDS; Pierschbacher, M. D., and E. Ruoslahti, 1984, Nature (Lond.), 309:30-33) representing a cell-binding determinant in the 75-kD fragment, and (b) an antibody raised against the 33-kD fragment that binds specifically to that fragment. Initial cell attachment to, and neurite extension upon, fibronectin and the two different fragments was evaluated in the presence and absence of the two reagents. Attachment of both PNS and CNS cells to intact fibronectin was reduced in the presence of RGDS, the former more so than the latter. In contrast, the antibody to the 33-kD fragment did not affect attachment of PNS cells to fibronectin, but significantly decreased attachment of CNS cells to the molecule. RGDS inhibited attachment of CNS cells to the molecule. RGDS inhibited attachment of both cell types to the 75-kD fragment to a greater degree than it did attachment to the intact molecule. Cell interaction with the 33-kD fragment was not affected by RGDS. Reduction of neurite lengths (determined after 24 h of culture) by the domain-specific reagents paralleled the reduction in initial adhesion to each substratum. Therefore, it appears that (a) both PNS and CNS cells have receptors for each cell-binding domain of fibronectin, (b) the receptor(s) for the two domains are distinct, with attachment to the 33-kD fragment being independent of RGDS, and (c) the relative importance of each domain to cell interaction with intact fibronectin is different for CNS and PNS cells.     

Subunit interactions in human plasma fibronectin

The fibronectin molecule was split chemically into its two constituent chains (mol. wt. 220,000) by mild reduction with dithiothreitol. However, physical properties (molecular weight and diffusion coefficient from light scattering, and elution in gel exclusion chromatography) remained those of intact fibronectin, except (reversibly) in the presence of denaturants which also change the conformation of non-reduced fibronectin to a more open form. Similarly, during digestion of fibronectin by plasmin to fragments of molecular weight less than 200,000, the light scattering intensity drops to roughly half in 30% glycerol but not in the absence of glycerol. These results suggest that the compact conformation of native fibronectin is stabilized by specific noncovalent contacts between constituent chains.     

Hydrogen peroxide yields during the incompatible interaction of tobacco suspension cells inoculated with Phytophthora nicotianae

Rates of H(2)O(2) production by tobacco suspension cells inoculated with zoospores from compatible or incompatible races of the pathogen Phytophthora nicotianae were followed by direct measurement of oxygen evolution from culture supernatants following catalase addition. Rates of HO(2)(*)/O(2)(-) production were compared by following the formation of the formazan of sodium, 3'-[1-[phenylamino-carbonyl]-3,4-tetrazolium]-bis(4-methoxy-6-nitro) benzene-sulfonic acid hydrate. In the incompatible interaction only, both reactive oxygen species (ROS) were produced by the cultured host cells in a minor burst between 0 and 2 h and then in a major burst between 8 and 12 h after inoculation. Absolute levels of H(2)O(2) could not be accurately measured due to its metabolism by host cells, but results are consistent with the majority of H(2)O(2) being formed via dismutation of HO(2)(*)/O(2)(-). The effects of inhibitors of endogenous Cu/Zn superoxide dismutase (diethyldithiocarbamate) and catalase (3-amino-1,2,4-triazole and salicylic acid) were also examined. Yields of ROS in the presence of the inhibitors diphenylene iodonium, allopurinol, and salicylhydroxamic acid suggest that ROS were generated in incompatible host responses by more than one mechanism.     

Maintenance of adult hamster pancreas cells on fibroblastic cells

Summary The maintenance of primary cultures of adult hamster pancreatic cells on layers of irradiated C3H/10T1/2 cells was studied. Various types of pancreatic cells, acinar, islet and ductular cells could be identified in the cultures by light and electron microscopy. Morphologically the various pancreatic cells retained many differentiated characteristics of their respective in vivo cell types. Insulin production was maintained at near Day 1 levels for the 16 d in culture for which it was measured. Colonies of epithelial cells continued to grow during a 20 d culture period. It is believed that this procedure for maintaining functional and growing pancreas cells in culture may be a useful in vitro model for studying the initiation of pancreatic carcinogenesis. Supported by Grant R01 CA 20022 and Contract N01 CP33278 from the National Cancer Institute, National Institutes of Health, Bethesda, Maryland.