Restoration of anchorage regulation in transformed cells by retinoic acid (RA) is independent of the presence of cytoplasmic RA-binding proteins

In an attempt to analyse the cause-effect relationship between anchorage-independent growth (a property which correlates best with in vivo tumorigenicity) and a set of other common transformation-related properties, the effect of retinoic acid (RA) treatment on six unrelated transformed cell lines (including DNA tumor virus, retrovirus, and spontaneously transformed cells) were studied. The data show that the changes in morphology and cellular orientation in culture, loss of cell surface fibronectin, disruption of actin microfilaments, increased hexose uptake, loss of density-dependent growth, and decreased binding of EGF, properties which are often associated with oncogenic transformation of cells, are dissociable from one another and from anchorage-independent growth. RA appears to interfere with anchorage-independent growth of all the retrovirus and spontaneously transformed cell lines (responsive cells) that we examined; however, such treatment failed to inhibit anchorage-independent growth in both of the DNA tumor virus-transformed cell lines (non-responsive cells) that we used in the present study. The presence of RA-binding proteins in both responsive and non-responsive cells suggests that the mechanism of RA action for the inhibition of anchorage-independent growth in transformed cells may be independent of the presence of such cytoplasmic proteins. Finally, the present study clearly indicates that the use of RA treatment, like partial transformation mutants of oncogenic viruses, can be a novel approach in analysing the general mechanism by which transformed cells grow without anchorage.     

Cell surface fibronectin and oncogenic transformation

Fibronectin is a large glycoprotein at the cell surface of many different cell types; a related protein is present in plasma. Fibronectin is a dimer of 230,000-dalton subunits and also occurs in larger aggregates; it forms fibrillar networks at the cell surface, between cells and substrata and between adjacent cells, and it is not a typical membrane protein. Cell surface fibronectin is reduced in amount or absent on transformed cells and in many cases its loss correlates with acquisition of tumorigenicity and, in particular, metastatic ability. Exceptions to the correlations with transformation and tumorigenicity exist. Loss of fibronectin and the resulting reduced adhesion appear to be involved in pleiotrpoic alterations in cell behavior and may be responsible for several aspects of the transformed phenotype in vitro. Fibronectin interacts with other macromolecules (collagen/gelatin, fibrin/fibrinogen, proteoglycans) and is apparently connected to microfilaments inside the cell.     

Sodium butyrate affects expression of fibronectin on CHO cells: Specific increase in antibody-complement-mediated cytotoxicity

Cellular fibronectin is expressed only at very low levels on the surface of the spontaneously transformed Chinese Hamster Ovary (CHO) cell line, as detected by immunofluorescence studies and confirmed by resistance of CHO cells to complement-mediated lysis in the presence of anti-fibronectin antibody. Treatment of CHO cells with sodium butyrate results in a marked susceptibility to anti-fibronectin complement-mediated killing. Using selected complement-containing sera from rabbits, it is possible to demonstrate that killing of butyrate-treated CHO cells is absolutely and specifically dependent on the presence of antibody to fibronectin. The increased susceptibility of butyrate-treated cells to complement-mediated killing correlates with an increase in cell surface fibronectin detected by immunofluorescence studies. This increased antigen expression should allow the isolation of mutants with altered regulation of fibronectin expression in a cell line of proven value for somatic cell genetic studies.     

Concomitant loss of cell surface fibronectin and laminin from transformed rat kidney cells

Both fibronectin and laminin were found by immunofluorescence as a matrix at the surface of normal rat kidney cells. These matrices were absent from the surface of virally transformed rat kidney cells. Soluble fibronectin and laminin were detected in the culture media of the transformed as well as the normal cells. Culture supernates of the transformed cells contained even more fibronectin than the supernates of the transformed cells contained even more fibronectin than the supernates of the normal cells while laminin was present in similar amounts in both culture media. This shows that the loss of fibronectin and laminin from the surface of the transformed cells is caused by failure of the cells to deposit these proteins into an insoluble matrix and not caused by inadequate production. Fibronectins isolated from culture media of the normal and transformed cells were similar in SDS polyacrylamide gel electrophresis. Laminin isolated from culture media by affinity chromatography on heparin-Sepharose followed by immunoprecipitation was composed of three main polypeptides, one with a molecular weight of 400,000 and two with a molecular weight close to 200,000 in both cell types. Fibronectins from both cell types were equally active in promoting cell attachment. Rat fibronectin from transformed cells, like normal cells, when applied to culture dishes coated with fibronectin, readily attached and spread on the substratum, requiring approximately the same amount of fibronectin as the normal cells. On the basis of these results it seem that the failure of the transformed cells to incorporate fibronectin into an insoluble cell surface matix is not a consequence of a demonstrable change in the functional characteristics of the fibronectin molecule or in the ability of the cells to interact with fibronectin. It may depend on as yet unidentified interactions of the cell surface. Similar interactions may be needed for the deposition of laminin into the matrix, because laminin was also absent from the surface of transformed cells, despite its being synthesized by these cells.     

A new recipient cell line for transfection of biologically active oncogenes]

The properties of the new immortalized rat cell line (REF-1) were analyzed. These cells can be used as recipient ones in transfection assays. REF-1 cells never convert spontaneously to transformed phenotype during long-term passages in vitro unlike NIH3T3 cells. This peculiarity allowed to use REF-1 cells for identification of oncogenes, which induce slow-growing tumors. The following oncogenes were used in gene transfection experiments in order to test their effects: activated human EJ-ras; N-ras; v-myc; v-mos; activated tpr-met and c-hu-met. REF-1 cells, transfected with the members of ras family; v-mos and tpr-met were found to be transformed in vitro and induce tumors in nude mice, on the contrary of c-hu-met- and v-myc-transfected cells, which are non-tumorogenic. A number of clonal cell lines carrying different oncogenes were obtained. The detailed analyses of integration and expression of exogenous sequences of different oncogenes has been presented in 18 clonal cell lines.     

Immunological characterization of a major transformation-sensitive fibroblast cell surface glycoprotein. Localization, redistribution, and role in cell shape

The major cell surface glycoprotein of chick embryo fibroblasts, cellular fibronectin (formerly known as CSP or LETS protein), was purified and used to produce monospecific antisera. After affinity purification, the anti-fibronectin was used to investigate fibronectin's localization, its transfer from intracellular to extracellular pools, its antibody-induced redistribution on the cell surface, and its role in cell shape. Anti-fibronectin localizes to extracellular fibrils located under and between sparse cells, and to a dense matrix that surrounds confluent cells. Cellular fibronectin is also present in granular intracytoplasmic structures containing newly synthesized fibronectin before secretion. This intracellular staining disappears 2 h after treatment with cycloheximide or puromycin, and returns after removal of these protein synthesis inhibitors. In pulse-chase experiments using cycloheximide, fibronectin was sequentially transferred from the intracellular to the fibrillar extracellular forms. Transformation of chick fibroblasts results in decreases in both extracellular and intracellular fibronectin, and in altered cell shape. Treatment of untransformed chick fibroblasts with anti-fibronectin results in rapid (30 min) alteration to a rounder cell shape resembling that of many transformed cells. These rapid shape changes are followed by a slow, antibody-induced redistribution of fibronectin to supranuclear caplike structures. This "capping" is inhibited by metabolic inhibitors. Reconstitution of cell surface fibronectin onto transformed cells restores a more normal fibroblastic phenotype. The reconstituted fibronectin on these cells organizes into fibrillar patterns similar to those of untransformed cells. As with untransformed cells, treatment of these reconstituted cells with anti-fibronectin also results in cell rounding and "capping" of fibronectin.     

Cellular fibronectin promotes adrenergic differentiation of quail neural crest cells in vitro

We have investigated the interaction of cellular fibronectin (CFN) with cultured quail neural crest cells and its possible role in crest cell migration and differentiation. In vitro, quail neural crest cells from the trunk region differentiate into at least two morphologically recognizable cell types, melanocytes and adrenergic nerve cells. The latter often aggregate spontaneously into ganglia-like structures. We found that neither melanocytes nor adrenergic nerve cells synthesize CFN. However, both cell types readily interacted with exogenous CFN: Melanocytes removed CFN from the substratum and accumulated it in an aggegated form on their upper cell surface, whereas unpigmented cells migrated on the CFN substratum, often rearranging it into a fibrillar network. The adsorption of CFN by melanocytes was apparently without further consequences. However, catecholamine-positive cells were substantially increased after treatment with exogeneous fibronectin. The stimulation of adrenergic differentiation of neural crest cells is the first evidence for a positive regulatory role of fibronectin in differentiation.     

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.     

A substrate of the cell-attachment sequence of fibronectin (Arg-Gly-Asp-Ser) is sufficient to promote transition of arterial smooth muscle cells from a contractile to a synthetic phenotype

Extracellular matrix components strongly influence the differentiated properties of isolated rat arterial smooth muscle cells during in vitro cultivation. The attachment and spreading of the cells on a substrate of fibronectin or a 105-kDa cell-binding fragment of fibronectin are accompanied by a structural and functional transformation, referred to as a transition or modulation from a contractile to a synthetic phenotype. Here, the ability of the cell-attachment sequence of fibronectin, Arg-Gly-Asp-Ser (RGDS), to promote this process was studied. The results demonstrate that freshly isolated smooth muscle cells attached to a substrate of the synthetic peptide Gly-Arg-Gly-Asp-Ser-Cys (GRGDSC) in a specific manner and as well as to substrates of fibronectin and the 105-kDa fragment. Subsequent spreading of the cells on the peptide substrate followed the same kinetics and was as extensive as on fibronectin, even if protein synthesis was blocked by treatment of the cultures with cycloheximide. Like fibronectin, the peptide substrate induced formation of actin filament bundles, again without ongoing protein synthesis. Moreover, it was as efficient as fibronectin in supporting the transition of the cells from a contractile to a synthetic phenotype as analyzed by electron microscopy. Antibodies against the beta subunit of the fibronectin receptor interfered with the attachment, spreading, and fine structural reorganization of the cells in a similar manner on substrates of fibronectin, the 105-kDa fragment, and GRGDSC. Taken together, the findings indicate that the cell-attachment sequence (RGDS) mimics intact fibronectin in promoting a change in the differentiated properties of arterial smooth muscle cells and does so by interacting with a cell surface receptor for fibronectin.     

Cell surface morphology and adhesive properties of normal and virally transformed cells treated with tunicamycin, an inhibitor of protein glycosylation

Normal and virally transformed mouse (3T3) fibroblasts were treated with tunicamycin, a fungal antibiotic that specifically inhibits the synthesis of peptidyl asparaginyl-linked oligosaccharides. All cell lines exhibited changes in cell surface morphology, surface-associated proteins and adhesion to the culture plate in the presence of tunicamycin. Scanning electron microscopy (SEM) revealed that treated fibroblasts assumed a spherical shape and were partially detached from the substratum. In addition, the 3T3 cells showed numerous cell surface ruffles. Tunicamycin-treated cells exhibited no marked ultrastructural changes when compared with control cells. There were indications, however, that the rough endoplasmic reticulum was dilated and that there were fewer membrane-bound ribosomes in treated 3T3 cells. Surface iodination of pretrypsinized tunicamycin-treated cells, followed by analysis of the labeled proteins on sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis, showed a marked reduction in a cell surface protein, identical or similar to fibronectin. Both tunicamycin-treated 3T3 and transformed 3T3 cells demonstrated a reduction in plating efficiency as shown by attachment assays of viable cells. In addition, treated cells showed a reduction in adhesiveness and a delay in spreading. The latter changes were more pronounced in the virally transformed cell lines. These findings suggest that cell surface glycoproteins, including fibronectin, play a role in determining the surface morphology and adhesive properties of cells.     

Cross-linking of fibronectin to sulfated proteoglycans at the cell surface.

Fibronectin is a major surface protein of normal animal cells but is absent from many transformed cells. Addition of fibronectin to transformed cells causes increased cell substrate adhesion and changes in the morphology and cytoskeleton of the cells. We have coupled fibronectin to photoactivable chemical cross-linkers and have added it to cells to identify those molecules to which it binds. In this way, fibronectin can be cross-linked to sulfated proteoglycans at the cell surface. The cross-linking is specific for fibronectin. The fibronectin-proteoglycan complex is sensitive to chondroitinase ABC and AC and to trypsin. Addition of fibronectin also affects binding of hyaluronic acid to the cells. These results suggest that fibronectin interacts with proteoglycans at the cell surface. The existence of such interactions may have implications for the role of fibronectin and proteoglycans in cell adhesion.     

Similarities and differences between the fibronectins of normal and transformed hamster cells

Fibronectins from normal and virally transformed hamster cells were compared by several criteria. The fibronectin from transformed cells was similar to that from normal cells in being an intact dimeric glycoprotein with the ability to bind to gelatin, activated thiol-Sepharose, and cells. No evidence was found for proteolytic cleavages or abnormalities in disulfide bonding of transformed cell fibronectin. This fibronectin was also shown to be active in promoting cell attachment, elongation, and alignment. Therefore, the fibronectin produced by transformed cells is not defective. However, it was shown that the transformed cells were partially deficient in their capacity to bind fibronectins from either normal or transformed cells. This deficiency has implications for the significance of the loss of fibronectin on oncogenic transformation. Partial proteolysis of the fibronectins from normal and transformed cells gave rise to the same fragments. However, the glycosylated fragments from transformed cell fibronectin appeared somewhat larger than those from normal cell fibronectin. Analysis of fibronectin glycopeptides showed that transformation leads both to more branches per core and to a higher sialylation of the asparagine-linked complex carbohydrate side chains.     

Concurrent modulation of cell surface fibronectin and adhesion to fibronectin in hepatoma cells

Rat hepatoma cells grown in vitro were poorly adhesive to plastic surfaces coated with fibronectin and lacked cell surface fibronectin matrix. They synthesized soluble fibronectin into the medium. The cell surface fibronectin matrix and the ability to attach to fibronectin-coated surface were restored in the 7777 cells upon passage as a tumor in rats and by coculturing these cells with normal liver-derived cells in vitro. Fibronectin matrix and the ability of cells to attach to fibronectin were thus modulated in a coordinated fashion, suggesting that the formation of a cell surface fibronectin matrix is dependent on the cell surface property that enables cells to interact with fibronectin.     

Codistribution of heparan sulfate proteoglycan, laminin, and fibronectin in the extracellular matrix of normal rat kidney cells and their coordinate absence in transformed cells

We used antibodies raised against both a heparan sulfate proteoglycan purified from a mouse sarcoma and a chondroitin sulfate proteoglycan purified from a rat yolk sac carcinoma to study the appearance and distribution of proteoglycans in cultured cells. Normal rat kidney cells displayed a fibrillar network of immunoreactive material at the cell surface when stained with antibodies to heparan sulfate proteoglycan, while virally transformed rat kidney cells lacked such a surface network. Antibodies to chondroitin sulfate proteoglycan revealed a punctate pattern on the surface of both cell types. The distribution of these two proteoglycans was compared to that of fibronectin by double-labeling immunofluorescent staining. The heparan sulfate proteoglycan was found to codistribute with fibronectin, and fibronectin and laminin gave coincidental stainings. The distribution of chondroitin sulfate proteoglycan was not coincidental with that of fibronectin. Distinct fibers containing fibronectin but lacking chondroitin sulfate proteoglycan were observed. When the transformed cells were cultured in the presence of sodium butyrate, their morphology changed, and fibronectin, laminin, and heparan sulfate proteoglycan appeared at the cell surface in a pattern resembling that of normal cells. These results suggest that fibronectin, laminin, and heparan sulfate proteoglycan may be complexed at the cell surface. The proteoglycan may play a central role in assembly of such complexes since heparan sulfate has been shown to interact with both fibronectin and laminin.     

Phenotypic and karyotypic transitions in the spontaneous transformation of a rat cell line

After 20-50 transfers, a rat myofibroblast line, Hmf-n, 'spontaneously' transforms to an established (immortalized) line of smaller, rapidly cycling fibroblastoid cells (tHmf-f). From these 1 degree transformants, colonies of larger, slower growing anchorage-independent (tHmf-e) cells of epithelioid phenotype emerge. Both transformants grow in low serum and low calcium media, but the tHmf-f cells are highly tumorigenic in nude mice, have diminished substrate adhesivity, and limited anchorage independence, whereas tHmf-e are less tumorigenic, firmly substrate adherent, and markedly anchorage independent. Most tHmf-f are trisomic; most tHmf-e transformants are hypodiploid, a third are tetraploid, and all have chromosomal abnormalities, but no trisomy. Hmf-n cells have polar stress fiber arrays terminating in vinculin adhesion plaques, colinear extracellular fibronectin matrices, and linear non-coincident deposits of fodrin. Microtubules (mt) and vimentin-intermediate filaments (IF) parallel the actin cables. Stress fibers of the tHmf-f are moderately reduced, their vinculin adhesion plaques and fibronectin matrices intact; fodrin is diffuse. Mts and IFs are normal and axial. Most epithelioid tHmf-e have no stress fibers, adhesion plaques, or extracellular fibronectin; instead, dense actin microfilament meshworks are attached to plasma membrane, as is fodrin. Mt and IF are radial. Both transformed phenotypes are stable over greater than 300 continuous passages. The differentiation-inducing agents DMSO, cyclic AMP, 5-azacytidine, and mezerein, were ineffective in normalizing shape or cytoskeleton of transformed Hmf, and butyrate was selectively toxic to 50% of tHmf-e. But hydrocortisone induced striking polarization, and increase in number, and alignment of stress fibers of both tHmf-f and tHmf-e. Growth, anchorage, cytoskeletal arrangements, and tumorigenic potential are not closely correlated in these stable, spontaneously transformed lines of distinct pheno- and karyotype originating from the same normal parental cell, suggesting independent acquisition of properties associated with transformation.     

Regulation of fibronectin receptor distribution by transformation, exogenous fibronectin, and synthetic peptides

Recent studies have shown that fibronectin and its 140K membrane receptor complex are spatially associated with microfilaments to form cell surface linkage complexes which are thought to mediate adhesive interactions between fibroblasts and their substrata. We examined the regulation of the organization of these cell surface structures in transformed and fibronectin-reconstituted cells as well as in cells treated with a competitive synthetic peptide inhibitor of fibronectin binding to its receptor. Correlative localization experiments with interference reflection microscopy and double-label or triple-label immunofluorescence revealed a concomitant loss of fibronectin, 140K receptor, and alpha-actinin colocalization at cell substratum extracellular matrix contact sites after transformation of chick fibroblasts by wild-type or temperature-sensitive Rous sarcoma viruses (RSV). Western and dot immunoblot analyses established that although similar total quantities of intact 140K molecules were present in the transformed cell cultures, significantly more was released into the culture medium of transformed cells. The 140K molecules on transformed cells were available for interaction with exogenously added fibronectin, which could reconstitute fibronectin-140K linkage complexes. In such fibronectin reconstitution experiments, many cells expressed both fibronectin-140K-actin linkage complexes and RSV pp60src, indicating that the morphological reversion could occur even in the continued presence of RSV transformation. The synthetic peptide Gly-Arg-Gly-Asp-Ser derived from the sequence of the cell-binding region of fibronectin could also prevent the organization of fibronectin-140K linkage complexes. Our results suggest that fibronectin interaction with cells regulates the organization of fibronectin receptor complexes and cytoskeletal components at the cell surface.     

Defective actin organization in cultured skin fibroblasts from individuals with inherited colon adenocarcinoma is not restored by addition of fibronectin

Cultured skin fibroblasts from patients with hereditary adenomatosis of the colon and rectum (ACR) have a disorganized cytoskeleton. Since fibronectin has been found to restore normal cytoskeletal and cellular morphology to transformed cells, we investigated the fibronectin pattern in ACR cells. We found that although both fibronectin synthesis and binding to the cell surface were apparently normal, addition of fibronectin did not restore a normal distribution of actin cables to ACR cells. The data suggest that coupling of cell surface-bound fibronectin to the cytoskeleton might be constitutively defective in ACR cells.     

Alkaline phosphatase-positive reticular cells of chicken bone marrow--in vivo and in vitro studies

We examined alkaline phosphatase (ALPase)-positive reticular cells from chicken bone marrow in vitro in relation to other varieties of adherent cells. ALPase activity was found in both reticular and adipose cells which formed epithelioid cell colonies and were negative for fibronectin. We observed transition between two cell types. ALPase-negative macrophages as small round cells in culture revealed positive fibronectin and transformed into ALPase-negative spindle cells in long-term culture. Thus, we suggest two cell lineages, each with distinct cell characteristics.     

db—cAMP对转化细胞钙调素基因表达与细胞骨架的影响

We have demonstrated that the distribution of microtubules (MT), microfilaments (MF) and fibronectin (FN) were diminished, while the gene expression of the calmodulin and c-fos enhanced in the transformed C3 H10 T1/2 cells. After treatment with 1 mM db-cAMP for 1 hr. and 2 hrs., there was an early and rapidly reduced in gene expression of calmodulin and c-fos respectively. After db-cAMP treatment for 4-5 days, the number of Capping cells of ConA binding decreased significantly and the cell surface microvilli decreased also. The growth of treated cells was inhibited markedly. By using 4F1 cDNA probe, which is preferentially expressed in G1 phase, we have found that the db-cAMP treated cells were accumulated at G1 phase. Of particular interest is the fact that the distribution of microtubules, microfilaments and fibronectin were recovered after treatment with 1 mM db-cAMP for 6 days. It is suggested that the inhibition of proliferation, alteration of phenotype and recovery of cytoskeleton in transformed cells after treatment with db-cAMP are related to the inhibition of gene expression of calmodulin.