Behavior of myc and ras oncogenes in transformation of rat embryo fibroblasts.

The requirements for transformation of rat embryo fibroblasts (REFs) by transfected ras and myc oncogenes were explored. Under conditions of dense monolayer culture, neither oncogene was able to transform REFs on its own. However, the introduction of a ras oncogene together with a selectable neomycin resistance marker into REFs allowed killing of the normal nontransfected cells and the outgrowth of colonies of ras transformants, 10% of which survived crisis and became tumorigenic. These cells expressed greater than 10-fold-higher levels of ras p21 than tumorigenic cells cotransfected with ras and myc oncogenes. The myc oncogene similarly was unable to induce tumorigenic conversion of REFs unless especially refractile colonies of oncogene-bearing cells, produced by use of a cotransfected selectable marker, were picked and subcultured. Tumorigenic conversion of REFs by single transfected oncogenes appears to require special culture conditions and high levels of gene expression.     

Isolation of variants of BALB/c 3T3 cells defective in complex ganglioside biosynthesis

In an attempt to clarify the relationship between altered glycosphingolipid metabolism and other aspects of the transformed phenotype, we have isolated variants of BALB/c 3T3 cells (clone A31) which are defective in synthesis of the more complex gangliosides (GM2, GM1 and GD1a). The selection protocol was based on the specificity of cholera toxin for ganglioside GM1, and the ability to lyse cells which bound toxin using anti-toxin and complement. Following treatment of cells with ethane methane sulfonate (EMS), populations resistant to lysis were obtained after 5-6 rounds of selection, despite a low and rather variable killing efficiency (75-95%). Five out of six clones isolated from such populations showed reduced toxin-binding capacity and loss of gangliosides more complex than GM3, as determined by metabolic labelling with [1-14C] palmitate. An identical phenotype was displayed by a variant isolated from a non-mutagenized population of cells. The phenotype remained stable for several months in culture and for over at least 40 cell doublings. Ganglioside nomenclature is according to Svennerholm [24].     

Growth effects of lithium chloride in BALB/c 3T3 fibroblasts and madin-darby canine kidney epithelial cells

The ability of LiCl to initiate DNA synthesis was studied in Madin-Darby canine kidney (MDCK) cells, and mouse BALB/c 3T3 fibroblasts. In a defined culture medium lacking serum, LiCl increased DNA synthesis in BALB/c 3T3 cells 100–200% over control values. Maximum DNA synthesis was observed with concentrations of LiCl between 10 and 25 mM and increases from 40–50% over control were observed with concentrations as low as 1 mM. Exposure of BALB/c 3T3 cultures to LiCl resulted in an increase in the percentage of cells initiating DNA synthesis, total DNA content and cell number. Lithium chloride, in combination with insulin or epidermal growth factor (EGF), had either an additive or synergistic effect upon the growth of BALB/c 3T3 fibroblasts. MDCK cells proved refractory to the growth actions of LiCl, although they responded to EGF and insulin with increased DNA synthesis. Lithium chloride appears to have a direct effect on cell proliferation in some but not all cell types.     

Multistage carcinogenesis induced by ras and myc oncogenes in a reconstituted organ

ras and myc oncogenes were able to induce distinct phenotypic alterations, resembling different types of premalignant lesions, when introduced into approximately 0.1% of the cells used to reconstitute the mouse prostate gland. While ras induced dysplasia in combination with angiogenesis, myc induced a hyperplasia of the otherwise normally developed organ. ras and myc together induced primarily carcinomas. However, tumor progression was also associated with additional genetic alterations involving gene amplification. Our data indicate that specific types of benign premalignant lesions may reflect the activation of different single oncogenes, and that the consecutive activation of multiple oncogenes could be a causal event in the step-like progression of tumorigenesis.     

Elevated cAMP is required for stimulation of eicosanoid synthesis by interleukin 1 and bradykinin in BALB/c 3T3 fibroblasts.

In Swiss 3T3 murine fibroblasts, interleukin 1 (IL-1) and bradykinin stimulate prostaglandin E2 (PGE2) synthesis. However, in the present study, we found that neither agonist stimulated PGE2 synthesis in BALB/c 3T3 murine fibroblasts, this in spite of expression of similar numbers of receptors for each agonist compared to Swiss 3T3 cells. When BALB/c 3T3 cells were preincubated with cAMP analogs, both IL-1 and bradykinin stimulated PGE2 synthesis to levels similar to those observed in Swiss 3T3 cells. Similarly, when the cells were preincubated with forskolin, which activates the catalytic subunit of adenylate cyclase directly, or NECA, which stimulates cellular cAMP accumulation by activating adenosine receptors, IL-1 and bradykinin stimulated PGE2 synthesis. Rp-cAMPS, an inhibitor of cAMP-dependent protein kinase, blocked the ability of cAMP or NECA to render cells responsive to IL-1 and bradykinin. In basal BALB/c 3T3 cells, bradykinin and IL-1 stimulated arachidonate release in the absence of cAMP, but little conversion of released arachidonate to PGE2 occurred. cAMP, forskolin, and NECA all increased cyclooxygenase activity in the cells. SV-T2 is a clonal line originating from BALB/c 3T3 transformed with SV-40. In these cells, IL-1 and bradykinin stimulated PGE2 synthesis despite basal intracellular cAMP concentrations similar to BALB/c, and cAMP only modestly potentiated the response. In summary, cyclooxygenase expression appears to be regulated by cAMP in BALB/c 3T3 cells, and SV-40 transformation results in increased cyclooxygenase expression, apparently independent of cAMP.     

Optimal conditions for the study of growth control in BALB/c 3T3 fibroblasts

The effect of a Fibroblast Growth Factor (FGF) on the initiation of DNA synthesis in sparse populations of BALB/c 3T3 cells maintained quiescent in the presence of various serum concentrations has been investigated. The initiation of DNA synthesis, as measured by ³H-thymidine incorporation, is greatest in cultures maintained quiescent in the presence of 0.8% serum. Under these conditions, the cells are on the border between quiescence and growth. The minimal effective dose of FGF needed to increase DNA synthesis is 0.01 ng/ml and plateau values are obtained between 2.5 and 5 ng/ml. At plateau concentrations, FGF is 65% as effective as saturating concentrations of serum in the stimulation of DNA synthesis. When dexamethasone and insulin are present, FGF was 82% as effective. In contrast, cultures maintained in the presence of lower serum concentrations (0.2% and 0.4%) are much less responsive to the FGF. This can be attributed to the lack of supplemental factors which make the cells maximally responsive to growth stimulation and to degenerative changes that take place in the cells. Insulin and the glucocorticoid, dexamethasone, potentiated the response to FGF and delayed the degeneration of cells maintained in low serum.     

Internalization of transforming growth factor-beta and its receptor in BALB/c 3T3 fibroblasts

The fate of 125I-labeled transforming growth factor-beta (125I-TGF beta) after binding to its cells surface receptor has been investigated in BALB/c 3T3 mouse fibroblasts. Binding of 125I-TGF beta to cellular receptors at 4 degrees C is pH-sensitive, being markedly decreased at pH less than 6. Most (approximately 90%) of the 125I-TGF beta bound to cells at 4 degrees C can be removed by a brief treatment with acidic medium but is converted into an acid-resistant state rapidly after shifting the cells to 37 degrees C. Cell-bound 125I-TGF beta is degraded at 37 degrees C and the degradation products are released into the medium. The lysosomotropic bases chloroquine, methylamine, and ammonium and the carboxylic ionophore monensin inhibit the degradation and release of 125I-TGF beta from the cells. Cells allowed to accumulate 125I-TGF beta intracellularly by the action of chloroquine or monensin were treated with the bifunctional agent disuccinimidyl suberate in the presence of detergent Triton X-100; this treatment caused the cross-linking of internalized 125I-TGF beta with the 280-kilodalton TGF beta receptor component. Under conditions in which sustained binding and degradation of saturating 125I-TGF beta concentrations occurs, there is no marked decrease in the binding capacity of the cells even when protein synthesis is blocked with cycloheximide. These results indicate that after TGF beta binding the TGF beta:receptor complex becomes rapidly internalized and that TGF beta is directed towards lysosomes where it is degraded and released. However, the cell surface is replenished with TGF beta receptors recycled after internalization or supplied by a large intracellular pool.     

Differences in targeting and secretion of cathepsins B and L by BALB/3T3 fibroblasts and Moloney murine sarcoma virus-transformed BALB/3T3 fibroblasts

BALB/3T3 fibroblasts (3T3) were observed to secrete latent, pepsin-activatable forms of cathepsin B and cathepsin L as well as an active form of beta-glucuronidase when cultured in the absence of serum. The secretion of these proteins was stimulated by the cation ionophore monensin: cathepsin B, 4.3-fold; cathepsin L, 7.2-fold; and beta-glucuronidase, 3.1-fold. These increases were accompanied by a 50% decline in cellular levels of the active forms of these enzymes and by the cellular accumulation of latent forms of cathepsin B and cathepsin L. Latent forms of beta-glucuronidase were not detected. In contrast, Moloney murine sarcoma virus-transformed BALB/3T3 fibroblasts (MMSV) secreted greatly increased amounts of latent cathepsin B (17-fold) and latent cathepsin L (27-fold), and moderately increased amounts of active beta-glucuronidase (2-fold) in a manner which was not further increased by monensin. The increased monensin-insensitive secretion of these lysosomal enzymes by MMSV cells may be due to a transformation-induced decrease in mannose 6-phosphate receptors. Thus, 3T3 cells bound the neoglycoconjugate pentamannosyl 6-phosphate-bovine serum albumin at 4 degrees C in a pentamannosyl 6 phosphate and mannose 6-phosphate-inhibitable manner, whereas MMSV cells showed no measurable cell surface mannose 6-phosphate receptor binding activity.     

Tumor rejection antigens on BALB3T3 cells transformed by activated oncogenes

The clonal expression of tumor rejection Ag (TRA) was analyzed on nine different clones derived from parental BALB3T3 cells that were transfected with activated H-ras, polyoma middle T (PyMT), c-myc, and v-src oncogenes. It was shown that Bras-h clone, which is an activated H-ras oncogene-induced transformant, expressed TRA as assessed in the transplantation study using syngeneic BALB/c mice. This TRA was not detected on parental BALB3T3 nontransformed cells, suggesting that TRA could be expressed in the BALB3T3 cell transformation. Furthermore, the cross-protection experiments indicated that this TRA was also conferred on other BALB3T3 transformants with high anchorage-independent growth potential such as an activated H-ras transformant Bras-d, and PyMT transformants BMT-f, BnMT-11, BnMT-20, except in the case of one H-ras transformant Bnr-12. In contrast, this TRA was not expressed on the transfectants with little or no anchorage independent growth potential such as a PyMT transfectant BnMT-4, a c-myc transfectant Bmyc-7, and a v-src transfectant Bsrc-7. We developed the mAb BRH19 that could react with TRA+ clones but not with TRA- clones. This mAb makes an immunoprecipitate, which is composed of a 50-kDa single polypeptide chain from Bras-h cell lysate. An injection to mice with this antigen could confer the protection against Bras-h challenge. These data indicate that the 50-kDa putative TRA molecule could be expressed in close association with the cell transformation, irrespective of the introduced oncogenes, and there may exist some regulatory mechanisms rather than individually distinct manners for the expression of TRA.     

Differential regulation of the p72-74 RAF-1 kinase in 3T3 fibroblasts expressing ras or src oncogenes

The c-raf-1 protooncogene encodes a p72-74 serine/threonine-specific kinase that has been implicated in growth factor-mediated signal transduction and malignant transformation. Here, we compared the effects of Ha-c-ras and v-src oncogenes on the regulation of p72-74 RAF-1 kinase in NIH3T3 cells. In both serum-starved and platelet-derived growth factor-treated v-src-transformed cells, the RAF-1 kinase was constitutively activated, displaying characteristic retarded mobility in electrophoretic gels and elevated activity in in vitro kinase assays. In contrast, the RAF-1 protein from quiescent ras-transformed cells did not exhibit constitutively shifted gel mobility or elevated kinase activity but did respond normally with regard to platelet-derived growth factor- and phorbol myristate acetate-induced changes in p72-74 RAF-1 phosphorylation and kinase activity. 3T3 cells transformed by ras, however, contained elevated levels of p72-74 RAF-1 protein (as determined by immunoblotting), suggesting an indirect influence on this kinase. Quantitative differences in the levels and subcellular distribution of immunodetectable protein kinase C enzymes did not account for the differences between src- and ras-transformed 3T3 cells with regard to regulation of the RAF kinase. These findings in serum-deprived 3T3 cells demonstrate that expression of a ras oncogene can be insufficient for full activation of the p72-74 RAF-1 kinase, implying necessity for an additional growth factor-mediated stimulus.     

Possible requirement of serum progression factors for transformation of BALB/c 3T3 fibroblasts by v-ras p21.

To form colonies in soft agar, ras-transformed 3T3 fibroblasts require serum. We examined what growth factors in serum were essential for ras-induced transformation. Temperature-sensitive (ts) v-Ki-ras-transfected BALB/c 3T3 cells were used to strictly control both the activity of the ras protein and the cell cycle. When G0-arrested ts cells were cultured with 10% serum at a permissive temperature, greater than 50% of cells formed colonies. A similar colony-forming activity was observed in the presence of 10% platelet-poor plasma, but not in the presence of 10% plasma isolated from hypophysectomized rats. Inhibitors of IGF signals attenuated colony formation in the presence of serum. These data suggest that progression factors, probably IGFs, are essential components in serum for ras-induced transformation of 3T3 fibroblasts.     

Studies on the regulation of insulin receptors in cultured BALB/3T3 fibroblasts

The level of [¹²⁵I]insulin binding to BALB/ 3T3 fibroblasts was low in growing cells and high in stationary cells. Since frequent changes of medium (every 2 h) did not modify the hormone binding of the stationary cells, it is unlikely that serum factors directly regulate the number of insulin receptors. Cells were grown to different densities by plating them in different concentrations of serum. Insulin binding was low in dense cultures maintained actively growing by high serum concentration, while binding was high in sparse cultures which were growth-arrested due to serum depletion. Thus, cell density does not directly regulate the insulin receptors. The growth status of the cells is the only factor that explains consistently the variations of insulin binding in these and previous [1, 2] experiments. Synchronization of the cells by two different methods did not show a reproducible cellcycle dependence for the insulin receptors.     

Idiopathic myelofibrosis serum induces increased DNA synthesis in BALB/c 3T3 cells.

The effect of heated serum at a concentration of 10% in culture on the in vitro growth of confluent Balb/c 3T3 cells was studied in nine patients with Idiopathic Myelofibrosis and ten normal subjects. Patients showed significant increase in the mitogenic activity in comparison with normals. The growth factors conceivably implied for the observed effect are discussed. Particular attention is paid to Platelet-Derived Growth Factor from which serum mitogenic activity is primarily derived and is thought to take part in the genesis of bone marrow fibrosis.     

Repression of p27kip1 synthesis by platelet-derived growth factor in BALB/c 3T3 cells.

We have investigated the regulation of p27kip1, a cyclin-dependent kinase inhibitor, in BALB/c 3T3 cells during growth factor-stimulated transition from quiescence (G0) to a proliferative (G1) state. The level of p27kip1 protein falls dramatically after mitogenic stimulation and is accompanied by a decrease in cyclin E associated p27kip1, as well as a transient increase in cyclin D1-associated p27kip1 that later declines concomitantly with the loss of total p27kip1. Analysis of metabolically labelled cells revealed that cyclin D2, cyclin D3, and cdk4 were also partnered with p27kip1 in quiescent BALB/c 3T3 cells and that this association decreased after platelet-derived growth factor (PDGF) treatment. Furthermore, the decline in p27kip1 and reduced association with cyclin D3, initiated by the addition of PDGF but not plasma-derived factors, suggested that these changes are involved in competence, the first step in the exit from G0. Synthesis of p27kip1 as determined by incorporation of [35S]methionine was repressed upon mitogenic stimulation, and PDGF was sufficient to elicit this repression within 2 to 3 h. Pulse-chase experiments demonstrated the reduced rate of synthesis was not the result of an increased rate of degradation. Full repression of p27kip1 synthesis required the continued presence of PDGF and failed to occur in the presence of the RNA polymerase inhibitor 5,6-dichlorobenzimidazole riboside. These characteristics demonstrate that repression was a late effect of PDGF and was consistent with our finding that conditional expression of activated H-ras did not affect synthesis of p27kip1. Northern (RNA) analysis of p27kip1 mRNA revealed that the repression was not accompanied by a corresponding decrease in p27kip1 mRNA, suggesting that the PDGF-regulated decrease in p27kip1 expression occurred through a translational mechanism.     

Insulin-like growth factor I and insulin rapidly increase casein kinase II activity in BALB/c 3T3 fibroblasts

We have tested whether growth factors added to serum-deprived BALB/c 3T3 fibroblasts alter the casein kinase II activity measured in cell extracts. A rapid phosphocellulose chromatography method was developed that provides a 40-fold partial purification of casein kinase II activity assayed with the specific substrate peptide Arg-Arg-Glu-Glu-Glu-Thr-Glu-Glu-Glu. Using this technique, kinase activity is stimulated 1.6-2.5-fold when isolated from fibroblasts treated with insulin or insulin-like growth factor I (IGF-I). The activated kinase activity exhibits the specific properties of casein kinase II such as the ability to utilize [gamma-32P]GTP as phosphate donor and marked inhibition by low concentrations of heparin. Activation of casein kinase II appears specific for these hormones because epidermal growth factor and platelet-derived growth factor have no effect on the kinase activity when added to fibroblasts under conditions where they markedly stimulate [3H]thymidine incorporation into DNA. Increases of casein kinase II activity by insulin and IGF-I were detected within 1 min of their addition to cell cultures. IGF-I is more potent in stimulating casein kinase II than insulin in mouse fibroblasts. These results demonstrate that casein kinase II is a selective target for insulin and IGF-I action in BALB/c fibroblasts, consistent with the hypothesis that this kinase plays a role in cellular signaling by these hormones.     

Cytosolic free calcium and DNA synthesis in BALB/c 3T3 cells: aequorin luminescence studies

In order to investigate how growth factors stimulate DNA synthesis, we studied the relationship between early increases in the intracellular concentration of free calcium (Cai) and early mitogenic events (competence) in quiescent BALB/c 3T3 cells. Cai was measured by aequorin luminescence, and DNA synthesis was quantitated by autoradiography. While both serum (2%) and platelet-derived growth factor (2 U/ml) stimulated large increases in Cai without inducing competence, fibroblast growth factor (100-400 ng/ml) produced a large number of competent cells without causing a detectable increase in Cai. Thus, there was no correlation between the magnitude of Cai increase and subsequent competence for DNA synthesis.     

Transformation of chicken embryo fibroblasts by direct DNA transfection of single oncogenes: comparative analyses of src, erbB, myc, and ras.

Chicken embryo fibroblasts (CEF) have been used extensively to study the transformation parameters of a number of avian sarcoma-leukemia viruses. Previously, oncogene transformation of CEF has been conducted almost exclusively with replicating viruses, because of perceived difficulties with direct DNA transfection. Here, we show that CEF can be efficiently and stably transfected by selection for the neomycin resistance gene (neo). Cotransfection of neo with various oncogenes resulted in CEF transformation in vitro and, in several instances, sarcoma formation in vivo. Transfection of src, myc, erbB, and ras, either singly or in combination, resulted in soft-agar colonies with unique morphologies. Transfection of a family of v-src, c-src, and v/c-src chimeric constructs demonstrated the ability of the assay to discriminate between transforming and nontransforming genes. Transfection of a number of erbB variants showed that internal mutations, primarily in the kinase domain, contribute significantly to the ability to transform fibroblasts. The tumorigenic potential detected by transfection of oncogenes faithfully reproduced those previously reported by using viral infections. Our studies establish the utility of CEF transformation by direct DNA transfection. This method should prove useful in analyzing oncogenes, (e.g., myc) that do not readily transform rodent cell lines and in studying host-range mutants of oncogenes, such as those recently identified for src and erbB.     

Fibroblast growth regulatory factor inhibits DNA synthesis in BALB/c 3T3 cells by arresting in G1

A cell surface macromolecular component from quiescent BALB/c 3T3 mouse cells (designated fibroblast growth regulatory factor, FGRF) inhibits DNA synthesis and cell division in growing 3T3 cells. Addition of FGRF to synchronized populations of growing 3T3 cells in the late G1 or early S phase did not inhibit DNA synthesis in the immediate S phase. However, a significant inhibition was observed in the S phase of the next round of cell cycle. Cells exposed to the regulatory factor in late S/early G2 or early G1 showed reduced DNA synthesis in the upcoming S phase; the late S/early G2 cells were more sensitive to inhibition than the cells in the G1. Further, the regulatory factor delayed the progression of G0/G1-arrested cells into the next S phase. These results suggest that the physiological effect of FGRF is to arrest cells in early G1, thus preventing their entry into a new round of cell cycle. In contrast to untransformed 3T3 cells, mouse cells transformed by SV40 were not subjected to growth-arrest by the regulatory factor, although the transformed cells contain active FGRF that inhibits DNA synthesis in growing 3T3 cells.