Control of entry of Swiss 3T3 cells into S phase by fibroblast growth factor under serum-free conditions

Swiss 3T3 cells can be made quiescent at low density by plating in medium MCDB 402 supplemented with dexamethasone (DEX), insulin (INS) and bovine plasma fibronectin (BPFn) for 3 days. One hour after stimulation of these cells by fibroblast growth factor (FGF), an increase in the rate of protein synthesis can be measured. Nine hours after stimulation by FGF, the rate at which the cells enter S phase increases abruptly. This increased rate of entry into S phase is delayed when methylamine is added to the medium before FGF treatment and later removed. The delay is only for the amount of time that the cells are exposed to methylamine, with no subsequent effect on the rate at which the cells enter S. The early increase in rate of protein synthesis caused by FGF is not blocked by concentrations of methylamine that stop the progression of FGF-treated cells toward S phase. The assay system that has been developed provides a means for detailed analysis of the prereplicative phase of Swiss 3T3 cells in a serum-free medium and in the absence of density-dependent inhibition.     

Optimized medium for clonal growth of human microvascular endothelial cells with minimal serum

Summary An optimized basal nutrient medium, MCBD 131, has been developed that supports clonal growth of human microvascular endothelial cells (HMVEC) with as little as 0.7% dialyzed fetal bovine serum (dFBS) when also supplemented with 10 ng/ml epidermal growth factor (EGF) and 1 μg/ml hydrocortisone. An extensive initial survey of available media showed that MCDB 402, a medium optimized for low-serum growth of Swiss 3T3 cells, supported the best clonal growth of HMVEC with 10% dFBS. Quantitative adjustment of the composition of MCDB 402 for improved clonal growth of HMVEC with reduced amounts of dFBS resulted in development of MCDB 131. Although many different adjustments contributed to the optimal properties of MCDB 131 for growth of HMVEC, the most unusual feature of this medium is its high magnesium concentration. A major benefit was achieved by increasing Mg²⁺ from 0.8 mM in MCDB 402 to 10.0 mM in MCDB 131. In the absence of defined supplements, MCDB 131 supports good clonal growth of HMVEC with 2% dFBS. This can be reduced to 0.7% by adding EGF and hydrocortisone, which act synergistically to improve growth with low levels of dFBS. This research was supported by grant CA 15305 from the National Cancer Institute, Bethesda, MD.     

Defined medium for normal adult human prostatic stromal cells

Summary Stromal-epithelial interactions are pivotal in many aspects of prostatic biology. A defined culture system is critical for the investigation of factors that regulate the growth and differentiation of human prostatic stromal cells. We have identified conditions which promote stromal cell attachment and proliferation in serum-free medium. MCDB 201, originally developed for the clonal growth of chick embryo fibroblasts, proved to be a superior basal medium of those that we tested. Supplementation of MCDB 201 with basic fibroblast growth factor (FGF), insulin-like growth factor (IGF), and platelet-derived growth factor (PDGF) permitted attachment and exponential growth of cells throughout a 7-d period with an initial inoculum as low as 10³ cells per well of a 96-well microtiter dish. Using these assay conditions, we subsequently verified that basic FGF and IGF, but not PDGF, were required for optimal growth. No activity was found for heparin, transferrin, or the androgen R1881. Epidermal growth factor (EGF) didn’t stimulate growth when added to medium containing basic FGF and IGF, but was moderately stimulatory when added to basal medium alone. Cholera toxin inhibited growth. This simple and efficient culture medium provides a suitable assay system for more extensive studies of growth regulation and differentiation of human prostatic stromal cells, and will provide the basis for future development of a defined medium that supports clonal growth. Characterization of stromal-epithelial interactions will be facilitated by the use of this defined culture system for stromal cells in conjunction with the serum-free culture systems previously developed for human prostatic epithelial cells.     

Mitogen response and cell cycle kinetics of Swiss 3T3 cells in defined medium: differences from human fibroblasts and effects of cell density

The mitogen requirement and proliferative response of Swiss 3T3 cells in serum-free, chemically defined culture medium were compared with those of early-passage human diploid fibroblasts. The effects of platelet-derived growth factor (PDGF), epidermal growth factor (EGF), insulin, transferrin, and dexamethasone on cell-cycle parameters were measured using 5'-bromo-deoxyuridine-Hoechst flow cytometry. Swiss 3T3 cells differ from human fibroblasts in several ways: (1) Swiss 3T3 cells showed a much higher dependence on PDGF than human fibroblasts; the growth of the latter, but not of the former, could be stimulated by the combination of EGF, insulin, and dexamethasone to the full extent of that when PDGF was present; (2) in the absence of PDGF, insulin was an absolute requirement for Swiss 3T3 cells to initiate DNA synthesis, while a substantial proportion of human fibroblasts could enter DNA synthesis without exogenous insulin or IGF-I; and (3) in the absence of PDGF, increasing insulin concentration increased the cycling fraction of Swiss 3T3 cells without an appreciable effect on the rate of cell exit from G0/G1, while under similar culture conditions, insulin showed its major effect on regulation of the G1 exit rate of human fibroblasts, without much effect on the cycling fraction. In addition, the proliferative response of high-density versus low-density, arrested Swiss 3T3 cells showed that the interaction of mitogens varied with cell density. At high cell density, the PDGF requirement was consistent with the "competence/progression" cell-cycle model. This growth response was not seen, however, when cells were plated at low density.     

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.     

The stimulation of the initiation of DNA synthesis by fibroblast growth factor in swiss 3T3 cells: Interactions with hormones during the pre-replicative phase

Fibroblast Growth Factor (FGF) stimulates quiescent Swiss 3T3 cells to initiate DNA synthesis and divide. Cells begin to enter the S-phase after a lag of 13–15 hr, and the rate of initiation of DNA synthesis in the population can be quantified by a first order rate constant, k. A subsaturating concentration of FGF may establish the lag phase, while the value of k is dependent on the FGF concentration present during the second half of the lag phase. Insulin and hydrocortisone enhance the effect of FGF by increasing k without changing the lag phase, and they can act when added at any time after FGF. Prostaglandin E₁ (PGE₁) causes a decrease in k and a lengthening of the lag phase, and acts only when added during the first 8 hr. None of these agents stimulate DNA synthesis in the absence of FGF. These results show that the stimulation of growth by FGF follows the same basic pattern as was previously shown with Prostaglandin F_2α (PGF_2α). However, since hydrocortisone inhibits stimulation by PGF_2α when added during the first 4 hr of the lag phase, there are clearly differences in some events stimulated by the two growth factors.     

Enhancement of growth factor-induced DNA synthesis by colon tumor-promoting bile acids in Swiss 3T3 cells. Their different mode of action from that of phorbol esters

In Swiss 3T3 cells, colon tumor-promoting deoxycholate (DOC) enhanced DNA synthesis which was induced by fibroblast growth factor (FGF) in the presence of insulin. This effect was observed only when DOC was added within 10 h after the addition of FGF. DOC by itself did not induce DNA synthesis irrespective of the presence or absence of insulin. Similar results were obtained with other colon tumor-promoting bile acids such as cholate, chenodeoxycholate and taurocholate. In contrast to these bile acids, 12-O-tetradecanoylphorbol-13-acetate (TPA) induced DNA synthesis fully without FGF in the presence of insulin. DOC did not affect TPA-induced DNA synthesis. Prolonged treatment of the cells with phorbol-12,13-dibutyrate caused the down-regulation of the phorbol ester receptor and rendered the cells unresponsive to TPA. In these cells, FGF still induced DNA synthesis in the presence of insulin, but the maximal level was reduced to about one third of that in the control cells. DOC did not enhance this DNA synthesis any more. DOC did not alter the binding of FGF to the cells. These results indicate that colon tumor-promoting bile acids enhance the mitogenic action of FGF and thereby stimulate DNA synthesis, although the phorbol ester substitutes for the mitogenic action of FGF.     

Cellular interactions between 3T3 cells and interleukin-3-dependent multipotent haemopoietic cells: a model system for stromal-cell-mediated haemopoiesis

With the aid of a multipotent stem cell line (FDCP-mix cells) co-cultured with either normal or irradiated Swiss 3T3, cellular interactions between stromal cells and haemopoietic stem cells were studied by electron microscopy and time-lapse video microscopy. When cultured in the presence of interleukin 3 (IL-3) but in the absence of stromal cells, the FDCP-mix cells have a characteristic blast morphology. In the absence of IL-3, the cells die unless they are co-cultured with marrow stromal cells or 3T3 cells. In the latter case, they attach, proliferate, and differentiate on both normal and irradiated Swiss 3T3 cell layers without the addition of extrinsic growth factor (IL-3). At the initial attachment sites of these two cell lines, cellular recognition seemed to be mediated by the formation of microvillus cytoplasmic projections and extracellular matrix. These areas may well be the sites of plasma-membrane-bound signalling/adhesional molecules between the interacting cells.     

Identification of the fibroblast growth factor receptor of Swiss 3T3 cells and mouse skeletal muscle myoblasts

Two distinct fibroblast growth factors (FGF) were purified to homogeneity from bovine brain on the basis of their ability to stimulate skeletal muscle myoblast proliferation. These growth factors are also mitogenic for Swiss 3T3 cells and appear to be closely related to or identical with previously isolated anionic and cationic fibroblast growth factors. The half-maximum concentrations (EC50) for stimulation of myoblast DNA synthesis by the anionic and cationic growth factors were 30pM and 1pM, respectively. In contrast, an EC50 of 45 pM was observed for stimulation of 3T3 cell DNA synthesis by both growth factors. Binding of 125I-labeled anionic FGF was saturable with apparent Kd values of 45 pM and 11 pM and approximately 60 000 and 2000 receptor sites per cell for 3T3 cells and MM14 murine myoblasts, respectively. Unlabeled anionic and cationic FGF equally displaced 125I-labeled anionic FGF from 3T3 cells while cationic FGF was more potent than anionic FGF for displacement from skeletal muscle myoblasts, demonstrating that a single receptor binds the two distinct growth factors. Binding was specific for these factors since platelet-derived growth factor, insulin, insulin-like growth factor 1, epidermal growth factor, and nerve growth factor were unable to displace bound 125I-labeled anionic FGF from Swiss 3T3 cells. Chemical cross-linking of specifically bound 125I-labeled anionic FGF to 3T3 cells and MM14 myoblasts identified a single detergent-soluble FGF receptor with an apparent molecular weight of 165 000.     

Multiplication of human diploid fibroblasts in a synthetic medium supplemented with EGF, insulin, and dexamethasone

Substantial multiplication of human diploid fibroblasts (HDF) has been obtained in medium MCDB 108 supplemented with epidermal growth factor (EGF), insulin, and dexamethasone (DEX). Growth rate is somewhat slower than in serum-supplemented medium. However, large wellformed colonies can be obtained in 14 days, and sequential monolayer subculture is possible up to a total of about ten population doublings. A basal medium that has been optimized specifically for HDF is essential for such multiplication. In addition, polylysine-coated culture surfaces, low temperature trypsinization, and careful removal or neutralization of residual trypsin are also needed. The culture system contains no deliberately-added undefined components, and is chemically defined except for possible roles of contaminants in the materials that are used for its preparation.     

Mastoparan, a novel mitogen for Swiss 3T3 cells, stimulates pertussis toxin-sensitive arachidonic acid release without inositol phosphate accumulation

Mastoparan, a basic tetradecapeptide isolated from wasp venom, is a novel mitogen for Swiss 3T3 cells. This peptide induced DNA synthesis in synergy with insulin in a concentration-dependent manner; half-maximum and maximum responses were achieved at 14 and 17 microM, respectively. Mastoparan also stimulated DNA synthesis in the presence of other growth promoting factors including bombesin, insulin-like growth factor-1, and platelet-derived growth factor. The synergistic mitogenic stimulation by mastoparan can be dissociated from activation of phospholipase C. Mastoparan did not stimulate phosphoinositide breakdown, Ca2+ mobilization or protein kinase C-mediated phosphorylation of a major cellular substrate or transmodulation of the epidermal growth factor receptor. In contrast, mastoparan stimulated arachidonic acid release, prostaglandin E2 production, and enhanced cAMP accumulation in the presence of forskolin. These responses were inhibited by prior treatment with pertussis toxin. Hence, mastoparan stimulates arachidonic acid release via a pertussis toxin-sensitive G protein in Swiss 3T3 cells. Arachidonic acid, like mastoparan, stimulated DNA synthesis in the presence of insulin. The ability of mastoparan to stimulate mitogenesis was reduced by pertussis toxin treatment. These results demonstrate, for the first time, that mastoparan stimulates reinitiation of DNA synthesis in Swiss 3T3 cells and indicate that this peptide may be a useful probe to elucidate signal transduction mechanisms in mitogenesis.     

Growth factor- and dexamethasone-induced proteins in Swiss 3T3 cells. Relationship to DNA synthesis

Dexamethasone synergistically enhances the stimulation of DNA synthesis in quiescent Swiss 3T3 cells by cartilage-derived growth factor (CDGF) while having no consistent effect when added with platelet-derived growth factor (PDGF) or serum. We examined the hypothesis that this difference might be attributed to selective synthesis of individual proteins early in the G1 phase of the cell cycle. Swiss 3T3 cells were treated with CDGF, PDGF, and fetal bovine serum for 3 h, with or without dexamethasone, and [35S]methionine-labeled proteins were separated by two-dimensional electrophoresis on giant gels. Over 3300 proteins could be distinguished; 34 of these were consistently induced more than 3-fold by all three factors, while an additional 30 inductions were variably present. Dexamethasone by itself induced 8 other proteins, and at least 9 growth factor inductions were synergistically enhanced by addition of the hormone. To identify proteins intimately associated with growth control, we looked for inductions that reflected the dexamethasone synergy with CDGF on DNA synthesis and lack of such an effect with PDGF. The induction of only one group of proteins, the Band 1 isoforms (44-46 kDa, pI 6.1-5.9) displayed such selective synergy. The majority of the other growth factor inductions were inhibited by dexamethasone, even in the context of maximal DNA synthesis, implying that their increased synthesis is not required for growth. When 3T3 cells were treated with increasing doses of CDGF with and without dexamethasone, autoradiographic densities of induced proteins varied in a dose-responsive fashion. However, only levels of the Band 1 proteins bore a constant linear relationship to DNA synthesis, suggesting that they play an important role in early control of the cell cycle.     

Attachment of rat hepatocytes in vitro to substrata of serum protein, collagen, or concanavalin A.

Isolated rat hepatocytes attach to, and spread on, the surface of polystyrene tissue culture dishes in the presence of serum. The attachment is essentially complete in 30 min at 37 °C, whereas no attachment occurs at 0 °C. Dead (trypan blue-stainable) cells do not attach; hence the plating efficiency (percentage of cells attaching) is close to the percentage of intact cells in the hepatocyte suspension. Attachment in the presence of serum is relatively independent of pH, but requires divalent cations. Mg²⁺ stimulates attachment more effectively than Ca²⁺, and a combination of both cations gives maximal attachment. Cells do not attach readily to untreated dishes in the absence of serum, but attach to and spread on dishes precoated with adsorbed serum protein, concanavalin A (ConA), or a film of collagen. The attachment-promoting activity in serum is destroyed by acid treatment, by heating to 70 °C, and by protease treatment. It is therefore most probably a protein, which, like collagen and ConA, can bind to receptors on the hepatocyte surface.     

Improved medium and culture conditions for clonal growth with minimal serum protein and for enhanced serum-free survival of Swiss 3T3 cells

Summary Improved culture conditions have been developed that will support clonal growth of Swiss mouse embryo 3T3 cells at concentrations of serum protein as low as 125μg/ml. Survival of the cells under completely protein-free conditions also is enhanced greatly. The improvements that made these results possible include: (a) use of medium MCDB 402, which was developed specifically for Swiss 3T3 cells by adjusting the concentrations of all components of Dulbecco's modified Eagle's medium to optimum values for clonal growth with minimal serum protein and by adding other nutrients such as trace elements and “nonessential” amino acids that were not in the original formula; (b) use of culture surfaces that are coated with a positively charged polymer, poly-d-lysine; and (c) use of gentle low temperature trypsinization technique that minimizes cellular damage and the need to neutralize residual trypsin. Portions of this work were reported at the Thirtieth Annual Meeting of the Tissue Culture Association in Seattle, Washington. This work was supported by Grant CA-15305 from the National Cancer Institute     

Low molecular weight mitogenic factor produced by BRL-3A cultured rat liver cells

A new mitogenic factor has been isolated from medium conditioned by BRL-3A rat liver cells. The factor has been partially purified by a two step procedure involving ion exchange chromatography on Dowex 50 followed by gel filtration chromatography on Sephadex G-75 in 1 M acetic acid. The factor is eluted from the Sephadex G-75 column in the low molecular weight region, behin three peaks of multiplication stimulating activity. The factor is inactivated by treatment with trypsin and dithiothreitol, suggesting that it is a peptide that contains a disulfide linkage. Unlike multiplication stimulating activity, the new factor only weakly stimulates DNA synthesis in quiescent chick fibroblasts, whereas it strongly stimulates DNA synthesis in quiescent NIL8 hamster cells, $\text{BALB}\text{c}$ 3T3 cells, and IMR-90 human fibroblasts.     

Synergistic stimulation of DNA synthesis by bradykinin and vasopressin in swiss 3T3 cells

Vasopressin and bradykinin bind to receptors coupled to GTP-binding proteins and rapidly induce polyphosphoinositide breakdown leading to Ca²⁺ mobilization and activation of protein kinase C. Both peptides are known to induce mitogenesis in the presence of growth factors that act through receptors with intrinsic tyrosine kinase activity. Surprisingly, addition of a combination of vaso-pressin and bradykinin to Swiss 3T3 cells synergistically stimulates DNA synthesis in the absence of any other growth factors. This effect is induced at nanomolar concentrations of the peptides and could be inhibited by addition of specific receptor antagonists or broad spectrum neuropeptide antagonists. Bradykinin, which stimulates transient activation of protein kinase C, induces DNA synthesis in synergy with substances that cause long-term activation of protein kinase C, like vasopression or phorbol 12, 13-dibutyrate. Down-regulation of protein kinase C inhibited the induction of mitogenesis by the combination of vasopressin and bradykinin, thus demonstrating the importance of long-term activation of this enzyme for DNA synthesis. Analysis of tyrosine phosphorylated proteins of M_r = 110,000–130,000 and M_r = 70,000–80,000 revealed a biphasic response after stimulation with bradykinin, whereas the response induced by vasopressin declined after the initial maximum. The combination of bradykinin with vasopressin caused an enhanced and prolonged increase in tyrosine phosphorylation of these proteins as compared with the individual peptides. Inhibition of tyrosine phosphorylation by tyrphostin was paralleled by inhibition of DNA synthesis. Together, these results demonstrate synergistic stimulation of DNA synthesis by bradykinin and vasopressin via prolonged stimulation of multiple signaling pathways and imply that the interactive effects of Ca²⁺ -mobilizing peptides on mitogenesis may be more general than previously thought. © 1994 Wiley-Liss, Inc.     

Arrest of 3T3 cells in G1 phase in suspension culture

3T3 cells do not grow in Methocel suspension culture, while other permanent cell lines do. The viability of 3T3 cells in suspension remains unchanged for at least three days with respect to plating efficiency, vital staining and resumption of normal growth when transferred into monolayer culture. When monolayer 3T3 cells in G1 phase are suspended they remain in G1 phase. Cells already in S phase which are suspended complete ongoing DNA synthesis and mitosis and then are arrested in the G1 phase. Progress through the cell cycle is reinitiated after suspended cells attach to a surface. When monolayer cells in late G1 phase (just before entering S phase) are put in suspension cultures they do not initiate DNA synthesis.     

Arrest of 3T3 cells in G1 phase in suspension culture.

3T3 cells do not grow in Methocel suspension culture, while other permanent cell lines do. The viability of 3T3 cells in suspension remains unchanged for at least three days with respect to plating efficiency, vital staining and resumption of normal growth when transferred into monolayer culture. When monolayer 3T3 cells in G1 phase are suspended they remain in G1 phase. Cells already in S phase which are suspended complete ongoing DNA synthesis and mitosis and then are arrested in the G1 phase. Progress through the cell cycle is reinitiated after suspended cells attach to a surface. When monolayer cells in late G1 phase (just before entering S phase) are put in suspension cultures they do not initiate DNA synthesis.     

Glucocorticoids inhibit the stimulatory effect of epidermal growth factor on the initiation of DNA synthesis

Confluent, quiescent Swiss 3T3 cells in culture can be stimulated to initiate DNA synthesis and divide by addition of growth factors to the culture medium. Here we show that hydrocortisone and other steroids which have glucocorticoid activity inhibit the stimulation of these cells by epidermal growth factor (EGF) in contrast to their reported enhancement of stimulation by fibroblast growth factor (FGF). Binding studies using [³H]-triamcinolone acetonide show that Swiss 3T3 cells contain a single class of glucocortioid receptor of uniform affinity (K_D = 2.0 nM), and about 34,000 receptor sites per cell. Those steroids which displace bound [³H]-triamcinolone acetonide are also effective in inhibiting the stimulation of DNA synthesis by EGF in the presence or absence of insulin, and the concentration of triamcinolone acetonide required for one-half maximal biological effect is in the same range as the K_D. A similar concentration is required for one-half maximal enhancement of the effect of FGF. These results suggest that both the inhibitory and stimulatory effects of glucocorticoids may be mediated via these receptors, the different effects thus being due to differences in the intracellular events triggered by each growth factor.     

Clonal growth of primary cultures of rabbit ear chondrocytes in a lipid-supplemented defined medium

Clonal growth of primary cultures of rabbit ear chondrocytes in a defined medium without serum or other undefined additives has been achieved. The clonal inoculum is a suspension of fully differentiated chondrocytes prepared by collagenase digestion of rabbit ear cartilage and used with no prior adaptation or selection in culture. When inoculated into medium MCDB 104 supplemented with 100 ng/ml fibroblast growth factor (FGF), 1 microgram/ml insulin, and 5 micrograms/ml of a lipid supplement previously developed for human fibroblasts, the isolated chondrocytes undergo clonal multiplication to form large colonies of epithelial-like cells. Colonies grown in the defined medium for 14 days accumulate at their centers refractile cartilage-like matrix that is stained by acidified Alcian green, although the amount is significantly less than with undefined additives. This system opens the way for detailed studies, in a defined background medium, of factors that regulate phenotypic expression of cartilage-like differentiated properties.