Structural alterations in fibronectin correlated with morphological changes in smooth muscle cells

Nontransformed cultures of vascular smooth muscle cells proliferate until they form a confluent sheet of cells. Subsequently, the cells become reorganized to form multicellular nodules that are loosely attached to the substrate. The formation of nodules is facilitated by the addition of medium conditioned by nodular cultures. Nodulation is inhibited by the addition of fibronectin. Fibronectins derived from monolayer culture conditioned medium or from plasma are maximally effective while fibronectin isolated from nodular cell conditioned medium is inactive. Analysis by NaDodSO4-polyacrylamide gel electrophoresis reveals that the nodular cell fibronectin has a molecular weight that is about 20-30 kd less than that of monolayer cell fibronectin. Further, nodular cell conditioned medium contains an activity that can convert both plasma fibronectin and monolayer cell fibronectin to the lower molecular weight correlated with the loss of biological activity.     

Isolation of clonal strains of chicken embryo fibroblasts

A method for cloning of chicken embryo fibroblasts (CEF) was developed, yielding a cloning efficiency of up to 50% without use of feeder cells or conditioned medium. An analysis of the growth potential of over 200 randomly selected clones showed that only approx. 4% of the clones were capable of doubling more than 35 times before undergoing cellular senescence. A positive correlation between initial growth rate and in vitro lifespan was observed. This served as a basis for a simple selection procedure for fibroblast strains suitable for long-term culturing. None of over 200 clones thus isolated could be established into a line. Subclones from clonal CEF strains were more homogeneous than uncloned CEF cultures with respect to morphology and growth behaviour, but still heterogeneous in their in vitro life span. All fibroblast strains tested could be effectively infected and transformed by a variety of avian sarcoma and leukosis viruses.     

Inhibitory effects of nitric oxide and gamma interferon on in vitro and in vivo replication of Marek's disease virus

The replication of Marek's disease herpesvirus (MDV) and herpesvirus of turkeys (HVT) in chicken embryo fibroblast (CEF) cultures was inhibited by the addition of S-nitroso-N-acetylpenicillamine, a nitric oxide (NO)-generating compound, in a dose-dependent manner. Treatment of CEF culture, prepared from 11-day-old embryos, with recombinant chicken gamma interferon (rChIFN-gamma) and lipopolysaccharide (LPS) resulted in production of NO which was suppressed by the addition of N(G)-monomethyl L-arginine (NMMA), an inhibitor of inducible NO synthase (iNOS). Incubation of CEF cultures for 72 h prior to treatment with rChIFN-gamma plus LPS was required for optimal NO production. Significant differences in NO production were observed in CEF derived from MDV-resistant N2a (major histocompatibility complex [MHC], B(21)B(21)) and MDV-susceptible S(13) (MHC, B(13)B(13)) and P2a (MHC, B(19)B(19)) chickens. N2a-derived CEF produced NO earlier and at higher levels than CEF from the other two lines. The lowest production of NO was detected in P2a-derived CEF. NO production in chicken splenocyte cultures followed a similar pattern, with the highest levels of NO produced in cultures from N2a chickens and the lowest levels produced in cultures from P2a chickens. Replication of MDV and HVT was significantly inhibited in CEF cultures treated with rChIFN-gamma plus LPS and producing NO. The addition of NMMA to CEF treated with rChIFN-gamma plus LPS reduced the inhibition. MDV infection of chickens treated with S-methylisothiourea, an inhibitor of iNOS, resulted in increased virus load compared to nontreated chickens. These results suggest that NO may play an important role in control of MDV replication in vivo.     

Isolation and characterization of a 70-kDa metalloprotease (gelatinase) that is elevated in Rous sarcoma virus-transformed chicken embryo fibroblasts.

Chicken embryo fibroblasts (CEF) transformed by Rous sarcoma virus (RSVCEF) secrete a 70-kDa metallo-gelatinase at elevated levels over that of normal CEF. The 70-kDa enzyme has been purified from RSVCEF conditioned medium and represents 1-3% of the total protein in the RSVCEF conditioned medium. A 22-kDa protein, which appears to be the avian form of the tissue inhibitor of metalloproteases (TIMP), is co-isolated in association with the 70-kDa enzyme and can be separated from the enzyme by gel filtration carried out under denaturing conditions. The isolated 70-kDa species is in the zymogen form. It can be activated by treatment with the organomercurial, p-aminophenylmercuric acetate (APMA), yielding a 62-kDa active species derived by an apparent autoproteolytic cleavage from the 70-kDa proenzyme as determined by both substrate gel analysis and immunoblots using a monospecific antibody to the 70-kDa proenzyme. The proenzyme is poorly activated by trypsin and not activated by plasmin. The APMA-activated enzyme rapidly degrades denatured collagens but under identical conditions is unable to degrade native collagens, including basement membrane type IV collagen. Only at very high enzyme to substrate ratios (1:2) will native type IV collagen be hydrolyzed. Partial N-terminal amino acid sequencing of both the 70-kDa proenzyme and the 62-kDa active enzyme indicates that the avian enzyme is a member of the matrix metalloprotease family (MMP-2). When CEF cultures, infected with a temperature sensitive mutant of RSV, conditional for the expression of the transforming src oncogene, were incubated at the permissive and nonpermissive temperatures, differential levels of the 70-kDa enzyme were produced in direct proportion to the functioning of the src oncogene.     

Evaluation of extracellular matrix proteins and tissue inhibitor of matrix metalloproteinases-2 on bovine inner cell mass outgrowth in vitro

Effects of extracellular matrix proteins and tissue inhibitor of matrix metalloproteinases-2 (TIMP-2) on bovine inner cell mass (ICM) outgrowth and proteinase production in vitro were determined. Inner cell masses were isolated immunosurgically from day 7 embryos (day 0 = onset of estrus) and cultured for 96 h. In experiment 1, cellular outgrowth and gelatinase production were evaluated for ICM cultured on collagen IV, fibronectin, or laminin. More (P < 0.05) ICM generated cellular outgrowth on fibronectin (71%). compared with collagen IV (0%) or laminin (15%). Inner cell mass and outgrowth areas were greatest (P < 0.05) on fibronectin after 96 h of culture, compared with laminin. Although the incidence of cellular outgrowth on laminin was limited, numbers of cells in outgrowths supported by laminin were similar (P > 0.10) to fibronectin except at 72 h of culture, where more (P < 0.05) cells were in laminin than in fibronectin outgrowths. Gelatinase activity was not detected in conditioned medium. In experiment 2, cellular outgrowth and plasminogen activator production by ICM cultured on fibronectin in medium containing 0 or 10 microg/ml TIMP-2 were evaluated. Inner cell mass and outgrowth areas, and numbers of cells in outgrowths were greater (P < 0.05) in 10 compared with 0 microg/ml TIMP-2 at 96 h of culture. Mean plasminogen activator activity in conditioned medium from ICM cultured in 10 microg/ml TIMP-2 was greater (P < 0.05) compared with 0 microg/ml TIMP-2 (16.2 +/- 4.8 versus 6.7 +/- 1.4 x 10(-3) IU/ml, respectively). These results demonstrate that cellular outgrowth from bovine ICM is supported by fibronectin and is stimulated by TIMP-2.     

Cell spreading on laminin substrate involves Con A-binding proteins

Concanavalin A (Con A), a tetravalent lectin, was shown to impair 8 chick embryo fibroblast (8 d CEF) spreading on a laminin (LM) substrate but not on a fibronectin substrate (FN), suggesting that cell surface Con A binding proteins could be involved in 8 d CEF spreading on a LM substrate. The interaction of Con A-binding proteins with Con A is dependent upon the carbohydrate moieties of the isolated glycoproteins; since they interact strongly with Con A-Sepharose and are eluted with 0.3 Mol/l alpha-methylmannopyranoside, the isolated Con A binding-proteins inhibit 8 d CEF adhesion to a Con A substrate to the same extent as alpha-methylmannopyranoside. Furthermore, the isolated Con A binding proteins specifically inhibit in a dose-dependent manner 8 d CEF spreading on LM but not on FN.     

Integrity of the pericellular fibronectin matrix of fibroblasts is independent of sulfated glycosaminoglycans.

The pericellular matrix fibers of cultured human fibroblasts contain fibronectin, other glycoproteins, and heparan and chondroitin sulfate proteoglycans. In the present study, cell-free pericellular matrices were isolated from metabolically labeled fibroblast cultures. The isolated matrices were digested with heparinase from Flavobacterium heparinum, and then analyzed for sulfated glycosaminoglycans (GAGs). Nitrous acid degradation was used to distinguish the N-sulfated GAGs (heparan sulfate) from chondroitin sulfate. Fibronectin and the other major matrix polypeptides were studied using gel electrophoresis, enzyme immunoassay and immunofluorescence. Upon heparinase digestion, greater than 95% of sulfated GAGs were degraded in the matrix without detectable release of fibronectin or other matrix polypeptides or alteration of the fibrillar matrix structure. We conclude that in fibroblast cultures the integrity of the fibrillar matrix is independent of sulfated GAGs. Together with earlier observations, this suggests that filamentous polymerization of fibronectin forms the backbone of early connective tissue matrix.     

Alterations of fibroblast interactions with fibronectin and laminin during chick embryo development

Eight day (8-d CEF) and 16 day old chick embryo fibroblasts (16-d CEF) obtained after a mild trypsin treatment (50 micrograms/ml in Ca2+ and Mg2+-free PBS, plus 10 mM EDTA) for 10 min at 37 degrees C present the same number of fibronectin (FN) binding sites at their surface (approximately 550,000 sites per cell) with a Kd approximately equal to 1.40 microM in both cases. Furthermore, FN interacted with high molecular weight plasma membrane proteins (150,000 and 125,000) insensitive to trypsin treatment. Both 8-d and 16-d CEF adhered and spread to the same extent on a fibronectin coated substratum (80% of the CEF adhered in 60 min). In contrast, 8-d and 16-d CEF behaved differently towards laminin (LM). 8-d CEF exhibited approximately 5500 binding sites per cell with a Kd of 1.5 nM (Codogno P., Doyennette, M.-A. and Aubery M., 1987, Experimental Cell Research, 169, 478-489.) and were highly sensitive to trypsin treatment, whereas 16-d CEF do not express cell surface binding sites for laminin. Differences were also observed in the adhesive capacities of 8-d and 16-d CEF on LM substrata: 8-d CEF adhered and spread on LM in a very specific manner (60% of the cells adhere in 60 min) and 16-d CEF did not adhere to LM even after long periods of incubation exceeding 360 min.     

Intracellular events are responsible for the differential expression of fibronectin on the fibroblast surface during chick embryo development

We previously showed that differences in the adhesive behaviour of fibroblasts obtained from 8-day-old (8-day CEF) and 16-day-old chick embryos (16-day CEF) were not due to alterations of cell surface fibronectin receptors. Herein we show that fibronectin (FN) was expressed more rapidly on the 8-day CEF surface (30 min) than on the 16-day CEF surface (60 min). In order to elucidate the mechanism responsible for these differences in the expression of cell surface FN we investigated the biosynthesis and the post-translational modifications of FN in 8- and 16-day CEF. Pulse-chase experiments revealed that FN was processed more slowly to an endo-beta-N-acetylglucosaminidase H (endo H)-resistant form in 16-day CEF than in 8-day CEF, whereas the kinetic of FN biosynthesis was similar in both cell populations. This difference was not related to a differential retention of FN in endoplasmic reticulum (ER) as determined after saponin-permeabilization. These results suggested that the rate-limiting step in the transport of FN to the cell surface in 16-day cells occurred between the ER and the medial part of the Golgi apparatus. It seems that the delay in the processing of endo H-resistant N-glycans was sufficient to account for differences between 8- and 16-day CEF in the rate of surface expression of FN and CEF adhesion to a plastic substratum.     

Modulation by the src oncogene of the effect of inhibitory diffusible factor IDF45

Density-dependent inhibition of growth has been assumed to be under the control of inhibitory molecules diffusing from dense cell cultures. Growth inhibitory factors have been fractionated or purified from medium conditioned by different cell types. In the present work, it was shown that IDF45 (inhibitory factor diffusing from 3T3 cells) decreased DNA synthesis in chick embryo fibroblasts (CEF) and was an inhibitor of CEF growth; this inhibition was reversible. Since similitudes between oncogene products and growth factors have been observed, it was of interest to compare the inhibitory effect of IDF45 upon the stimulation of DNA synthesis induced either by serum or by pp60-src. CEF infected by Ny68 virus (a mutant of Rous sarcoma virus ts for the expression of transformation) were density-inhibited at 41 degrees C, but were stimulated at this temperature by addition of 1% serum. This stimulation was 94% inhibited by IDF45. The same Ny68-infected cells could also be stimulated by transfer to 37 degrees C, the permissive temperature (in the absence of serum). The stimulation of DNA synthesis by src expression was poorly inhibited by IDF45. From our results, it appears that oncogene expression in CEF induces a loss in their sensitivity to IDF45. This would explain why transformed cells escape DDI of growth.     

Altered processing of fibronectin in mice lacking heparin. a role for heparin-dependent mast cell chymase in fibronectin degradation

We have previously generated a mouse strain with a defect in its heparin biosynthesis by targeting the gene for N-deacetylase/N-sulfotransferase-2 (NDST-2). The NDST-2(-/-) mice show reduced levels of various mast cell mediators such as histamine and various heparin-binding mast cell proteases, including chymases, tryptases, and carboxypeptidase A. In this work we have addressed the possible functional consequences of the lack of sulfated heparin. Peritoneal cells were harvested from normal and NDST-2(-/-) mice. After culturing the cells, conditioned media were collected and were subjected to SDS-polyacrylamide gel electrophoresis under reducing conditions. Several differences in the protein patterns were observed, including the presence of large amounts of a approximately 250-kDa protein in medium from NDST-2(-/-) mice that was absent in normal controls. Peptide microsequencing revealed identity of this protein with fibronectin. Western blot analysis showed the presence of fibronectin degradation products in cell cultures from normal mice, which were absent in cultures from NDST-2(-/-) animals. Further experiments showed that the degradation of fibronectin observed in cell cultures from NDST-2(+/+) mice was catalyzed by mast cell chymase in a strongly heparin-dependent manner. This report thus indicates a biological function for chymase/heparin proteoglycan complexes in fibronectin turnover.     

Fibronectin associated with the glial component of embryonic brain cell cultures

In a basic approach to investigations of neuronal–glial interactions during both normal brain development and its pathogenesis, embryonic brain cell populations were fractionated into purified neuronal and glial components. Using separation procedures based on differential adhesion and cytotoxicity, the isolated neuronal and glial phenotypes could be identified by distinct morphological and biochemical characteristics, including the visualization of glial fibrillary acid protein (GFA) within glial cells in immunohistochemical assays with monospecific anti-GFA serum. When unfractionated cerebrum cells dissociated from 10-day chick or 14-day mouse embryos were plated as monolayers and cultured for 1-14 days, monospecific antiserum against fibronectin (LETS glycoprotein) was found to react with many, but not all, of the cells as revealed by indirect immunofluorescence microscopy. The isolated neuronal and glial components of these populations were used to determine whether the appearance of membrane-associated fibronectin was characteristic of one cell type or the other, or both, and if neuronal–glial cell interaction was required for its expression. It was found that the surfaces of glial cells, completely isolated from neurons, showed an intense fluorescent reaction to the anti-fibronectin serum. In contrast, the purified neuronal cultures showed no fluorescence with either the anti-GFA or anti-fibronectin sera. These results demonstrate fibronectin as a cell surface protein associated primarily with glial cells and independent of neuronal–glial cell interaction for its expression. Furthermore, the results indicate that the fibronectin observed on glial cell surfaces in these cultures is produced endogenously and is not due to the preferential binding of fibronectin present in the culture medium. The role of fibronectin as an adhesive molecule in neuronal–glial interactions is discussed.     

Molecular cloning and nucleotide sequence of a cDNA clone coding for the cell attachment domain in human fibronectin

A cDNA clone coding for the cell attachment domain in human fibronectin has been isolated using synthetic oligonucleotides. Three sets of mixed tetradecamer oligonucleotides were synthesized based on amino acid sequences in the 108-amino acid cell attachment domain (Pierschbacher, M. D., Ruoslahti, E., Sundelin, J., Lind, P., and Peterson, P. A. (1982) J. Biol. Chem. 257, 9593-9597). One of these sets was made complementary to amino acids located near the COOH terminus of the cell attachment domain and synthesized as a mixture of 24 sequences. This oligonucleotide mixture was used to prime cDNA synthesis with mRNA prepared from a human fibrosarcoma as a template. A cDNA library was constructed with the oligonucleotide-primed sequences in the vector pBR322. Colonies that hybridized with the primer were isolated from the library and further identified by hybridization with oligonucleotides deduced from an amino acid sequence located 45 amino acid residues NH2-terminal of the primer sequence. One clone which hybridized to both probes was characterized in detail. The insert was 380 base pairs long and its nucleotide sequence agreed completely with the corresponding amino acid sequence of human plasma fibronectin, showing that the sequences for this region are identical in plasma fibronectin and fibronectin from a cell line. This clone should be useful for studies on the expression of fibronectins and may also allow for the production of the biologically active cell attachment domain of fibronectin in bacteria.     

Polyclonal and monoclonal antibodies against chicken gizzard 5′-nucleotidase inhibit the spreading process of chicken embryonic fibroblasts on laminin substratum

Polyclonal and monoclonal antibodies raised against chicken gizzard 5'-nucleotidase were tested in adhesion assays of embryonic chicken fibroblasts (CEF) for their ability to interfere with the adhesion process of these cells on either laminin or fibronectin substrata. The initial attachment process of CEF on fibronectin and laminin substrata was not influenced by preincubating these cells with antibodies against chicken gizzard 5'-nucleotidase. However, the subsequent spreading process of these cells was found to be inhibited for at least 2 h on a laminin substratum. This effect was obtained with a polyclonal antibody as well as with one from 12 monoclonal antibodies raised against the native enzyme purified from chicken gizzard. In vitro assays demonstrated a competition of laminin and this monoclonal antibody for the binding site on purified 5'-nucleotidase. Spreading-arrested and rounded CEF do not develop prominent intracellular stress-fibers like control cells, instead they seem to concentrate their available actin in areas of presumptive initial contact with the laminin substratum.     

Fibronectin phosphorylation by ecto-protein kinase

The presence of membrane-associated, extracellular protein kinase (ecto-protein kinase) and its substrate proteins was examined with serum-free cultures of Swiss 3T3 fibroblast. When cells were incubated with [gamma-32]ATP for 10 min at 37 degrees C, four proteins with apparent molecular weights between 150 and 220 kDa were prominently phosphorylated. These proteins were also radiolabeled by lactoperoxidase catalyzed iodination and were sensitive to mild tryptic digestion, suggesting that they localized on the cell surface or in the extracellular matrix. Phosphorylation of extracellular proteins with [gamma-32P]ATP in intact cell culture is consistent with the existence of ecto-protein kinase. Anti-fibronectin antibody immunoprecipitated one of the phosphoproteins which comigrated with a monomer and a dimer form of fibronectin under reducing and nonreducing conditions of electrophoresis, respectively. The protein had affinity for gelatin as demonstrated by retention with gelatin-conjugated agarose. This protein substrate of ecto-protein kinase was thus concluded to be fibronectin. The sites of phosphorylation by ecto-protein kinase were compared with those of intracellularly phosphorylated fibronectin by the analysis of radiolabeled amino acids and peptides. Ecto-protein kinase phosphorylated fibronectin at serine and threonine residues which were distinct from the sites of intracellular fibronectin phosphorylation.     

Functional differences in the interactions of glycosylation-deficient cell lines with fibronectin, laminin, and type IV collagen

Fibronectin isolated from the conditioned medium of monolayer cultures of baby hamster kidney (BHK) cells and several ricin-resistant (Ric) mutants derived from them express differences in N-glycosylation. The asparagine-linked oligosaccharides of BHK cell-derived fibronectin consist largely of complex chains, whereas hybrid and/or high-mannose chains are present in the fibronectins of mutant cell lines. The fibronectins exhibiting different glycosylation patterns are incorporated to similar extents into the cell-layer of human skin fibroblasts. In contrast, mutant cells retain significantly less endogenously produced fibronectin than BHK cells and also incorporate less human cellular fibronectin into a pericellular matrix. In vitro adhesion assays show that mutant cells attach to and spread relatively poorly on fibronectin-or type IV collagen-coated substrata but interact as well as do BHK cells with a laminin substratum. These results indicate that asparagine-linked oligosaccharides of fibronectin are not required for the binding and incorporation of the molecule into cell layers, but, as constituents of other cellular glycoproteins, they do modulate the ability of BHK cells to interact with some matrix components.     

Purification and properties of phosphorylated isocitrate dehydrogenase of Escherichia coli.

Phosphorylated NADP+-isocitrate dehydrogenase (EC 1.1.1.42) has been purified to electrophoretic homogeneity from in vivo 32P-labeled Escherichia coli. The cells used as the source of phosphorylated enzyme were harvested 1 h after the addition of 5 mCi of [32P]orthophosphoric acid and 25 mM sodium acetate to cultures grown to early stationary phase on a low phosphate medium with limiting glucose. Double immunodiffusion and autoradiography demonstrated immunological identity between the 32P-labeled NADP+-isocitrate dehydrogenase and the enzyme isolated from glucose-grown E. coli. The phosphoenzyme had an apparent subunit molecular weight of 51,000 as determined by denaturing acrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, and the radioactivity co-electrophoresed with NADP+-isocitrate dehydrogenase activity when purified enzyme was subjected to nondenaturing gel electrophoresis. [32P]Phosphoserine was identified following partial acid hydrolysis of the purified phosphoenzyme.     

Comparative Studies on Large- and Small-Plaque-Forming Clones of Newcastle Disease Virus (Miyadera Strain)

The Miyadera strain of Newcastle disease virus (NDV) consisted predominantly of virus particles forming small plaques on monolayers of chick embryo fibroblasts (CEF), and contained small amounts of virus particles forming large plaques. These large- and small-plaque-forming clones of this virus (NDV-L and NDV-S) were isolated. The small size of the NDV-S plaques did not appear to be due to an agar inhibitor. NDV-L produced a much higher yield of infective virus particles in CEF and they were released more completely from the infected cells than were those produced by NDV-S. The yield of infective virus of NDV-L per cell from cultures of CEF was comparable to the yield from the allantoic cells. The infectivity/hemagglutinin ratio for NDV-L from CEF was as high as the ratio for virus from the allantoic cells, but the ratio for NDV-S from CEF was lower. NDV-S demonstrated an autointerference phenomenon in CEF when infected at high multiplicities, but NDV-L did not. Contrary to virus multiplication, NDV-S exhibited a more rapid and marked cytopathic effect on monolayers of CEF than NDV-L. In the allantoic cavity of eggs NDV-S produced slightly higher virus yields than NDV-L. No correlation existed between plaque size of the two viruses and the capacity to induce interferon synthesis or the susceptibility to the action of interferon. The properties of both distinctive plaque isolates were stable on egg passage.