Growth control in cultured 3T3 fibroblasts. Assays of cell proliferation and demonstration of a growth inhibitory activity

Treatment of sparse, proliferating cultures of 3T3 cells (target cells) with medium conditioned by exposure to density-inhibited 3T3 cultures resulted in an inhibition of growth and division in the target cells when compared to similar treatment with unconditioned medium (UCM). This differential effect of conditioned medium (CM) and UCM on target cells was demonstrated using three assay systems: (a) assessment of total cell number; (b) measurement of [3H]thymidine incorporated into acid-precipitable DNA; and (c) determination of the percentage of radioactively labeled nuclei in individual cells after incorporation of [3H]thymidine. The difference in the total incorporation of [3H]thymidine in CM-treated and UCM-treated cells was reflected by a difference in the percent of labeled cells. There was no differences in the average number of grains per labeled cell in the two cultures. Moreover, the inhibitory effect of the CM on target cell proliferation was reversible. Finally, this growth inhibitory activity can be collected in serum-free medium, precipitated by ammonium sulfate, and fractionated by gel filtration. In these purification procedures, the inhibitory activity was consistently found to be associated with the protein-containing fractions of the CM. No activity was found upon similar treatment with UCM. These results suggest that a system has been developed for the purification and molecular analysis of growth inhibitory factors that may mediate growth control in culture fibroblasts.     

Regulation of cell proliferation inhibitory and stimulatory factors diffused by 3T3 cultured cells

The growth rate of normal cells multiplied in vitro decreases as the cell density of the culture increases. Previous results suggested that this density-dependent inhibition of growth in nontransformed cells was due to the diffusion of growth inhibitory substances in the medium of dense cultures. In this paper, we demonstrate that dense cultures of 3T3 cells secrete inhibitory and stimulatory factors. Macromolecules of conditioned medium were fractionated on Biogel P150 and the different fractions were tested on quiescent cultures of 3T3 cells stimulated or not to proliferate by addition of alpha globulin. When target cells were not stimulated to proliferate by addition of exocrine growth factors, we observed the inhibitory activity of a large molecular weight inhibitor (IDF45) and the stimulatory activity of autocrine growth factors (fraction about 35 and 10 K molecular weight), on the incorporation of 14C inosine into nucleotide pool and RNA. However, DNA synthesis was significantly stimulated with fraction 10 K only. This discrepancy between the stimulation of RNA and DNA synthesis may be explained by the presence, simultaneously, of inhibitory and stimulatory factors in fraction 35 and 10 K molecular weight. The presence of inhibitory factor was demonstrated when the fractions were tested on target cells stimulated to proliferate by alpha globulin addition and labeled with 14C thymidine. In these conditions, the stimulatory activity of autocrine growth factors was not observable, and only the inhibitory activity on DNA synthesis of fractions 35 and 10 K appeared. It is tempting to assume that the regulation of in vitro cell proliferation is determined by the balance between these antagonist stimulatory and inhibitory autocrine growth factors.     

Loss of epidermal growth factor receptors and release of transforming growth factors do not correlate with sarcoma virus-transformation in clonally-related NIH/3T3-derived cell lines.

Transformation of NIH/3T3 cells by Kirsten murine sarcoma virus (MSV) caused a dramatic reduction in the number of cell-surface receptors for epidermal growth factor (EGF). However, the number of EGF receptors remained at a very low level in a non-tumourigenic revertant cell line isolated from the virus-transformed cells, indicating that an increase in EGF receptors is not a requirement for the phenotypic reversion of Kirsten MSV-transformed 3T3 cells. Serum-free conditioned medium from normal and virus-transformed cell lines contained similar amounts of cell growth-promoting activity as assayed by the ability to stimulate DNA synthesis in quiescent Swiss 3T3 cell cultures. However, the concentrated conditioned medium from these cell lines showed no evidence of beta-transforming growth factor (TGF) activity as assayed by promotion of anchorage-independent growth of untransformed normal rat kidney (NRK) fibroblasts in agarose. The cellular release of alpha-TGF activity was assayed by measuring the ability of concentrated conditioned medium to inhibit the binding of 125I-EGF to Swiss 3T3 cells. Conditioned medium protein from the virus-transformed cell line inhibited 125I-EGF binding but only to the same extent as conditioned medium protein prepared from the untransformed cell line. The alpha-TGF secretion by these cell lines was estimated to be 30-45-fold lower than the level of alpha-TGF released by a well-characterized alpha-TGF-producing cell line (3B11). These results suggest that the induction of TGF release is not a necessary event in the transformation of NIH/3T3 cells by Kirsten MSV.     

Anchorage-independent colony formation of SV40 transformed BALB/c-3T3 cells in serum-free medium: role of cell- and serum-derived factors

The colony-forming response of SV40 transformed BALB/c-3T3 cells in agarose suspension culture was studied in a serum-free medium (with insulin, transferrin and serum albumin as the only macromolecular supplements) that was optimized for colony formation of fibronectin-attached monolayer cultures. In this serum-free medium, the SV3T3 cells fail to form colonies in agarose suspension. However, they can be induced to anchorage-independent colony formation by the growth factors that are additionally required by their untransformed counterparts for proliferation in monolayer culture. The SV3T3 cells are also rendered anchorage-independent for colony formation in serum-free medium by conditioned medium from dense monolayer serum-free SV3T3 cultures. These experiments suggest that it is the cell-substrate interaction that is responsible for the growth factor autonomy of fibronectin-attached transformed cells.     

Density-dependent inhibition of growth: Inhibitorydiffusible factors from 3T3- and rous sarcoma virus (RSV)-transformed 3T3 cells

We recently fractionated, from the culture medium of 3T3 cells, a thermolabile inhibitory diffusible factor (IDF_N) with a molecular weight of about 40,000 daltons, which decreased nucleic acids synthesis of stimulated target 3T3 cells. In the present publication the inhibitory activities of IDF_N (produced by 3T3 cells) and IDF_T (produced by RSV-transformed 3T3 [3T3 SRA/H] cells) on 3T3 and 3T3 SRA/H cells have been compared. The inhibitory activity of IDF_N decreased (by a mean of 57%) when it was tested on transformed instead of 3T3 cells. On the other hand IDF_T was able to decrease ¹⁴C-inosine incorporation in target 3T3 cells. However, the inhibitory activity of IDF_T decreased (by mean 50%) when tested on 3T3 SRA/H instead of 3T3 cells. Therefore, transformed cells produced an inhibitory factor but were less sensitive than 3T3 cells to its inhibitory activity. The inhibitory activity of IDF_T on 3T3 SRA/H cells was only 20% of the inhibitory activity of IDF_N on 3T3 cells. This appreciable difference is of particular interest, since it could explain the release of density-dependent inhibition of growth (DDI) in transformed 3T3 SRA/H cells. Furthermore, it provides more evidence for the hypothesis that, in 3T3 cells, DDI of growth is due to the release of an inhibitory molecule into the medium, and that IDF_N is in fact, the inhibitory molecule involved in this phenomenon.     

Tumor cell-derived secretory factor downregulates Semaphorin-3a in osteoblasts by activating mammalian target of rapamycin pathway

We found that conditioned medium derived from Lewis Lung Carcinoma cells down-regulated Semaphorin3a (Sema3a) mRNA expression and increased the activity of mammalian target of rapamycin complex 1 (mTORC1) in osteoblast-like MC3T3-E1 cells. Furthermore, mTORC1 inhibition with rapamycin counteracted the effect of conditioned media on Sema3a mRNA expression. These results suggest that tumor cells decrease Sema3a mRNA expression in osteoblast in an mTORC1-dependent manner.     

Growth control in cultured 3T3 fibroblasts. V. Purification of an Mr 13,000 polypeptide responsible for growth inhibitory activity

A growth regulatory factor, which reversibly inhibits DNA synthesis and proliferation of fibroblasts, has been isolated from medium conditioned by exposure to density-inhibited mouse 3T3 cells. This factor, termed FGR-s (13K), yielded a single polypeptide (Mr 13,000) when analyzed by SDS PAGE under both reducing and nonreducing conditions. The dose-response curve of growth inhibition by FGR-s (13K) showed that 50% inhibition of 3T3 cell proliferation was achieved at a concentration of approximately 3 ng/ml, corresponding to approximately 0.23 nM. The activity of FGR-s (13K) was depleted by passing the material over an affinity column containing the monoclonal antibody 2A4; this monoclonal antibody had been previously characterized to bind to the Mr 13,000 polypeptide. These results indicate that we have purified a growth regulatory factor that acts to inhibit the proliferation of cells in an autocrine pathway.     

Diffusible factor(s) controlling density inhibition of 3T3 cell growth: a new approach

In 3T3 Swiss mouse fibroblasts, incorporation of phosphate into cells and phosphorylation of small organic compounds were increased by shaking dense cultures. This response was not obtained with SV40 transformed Swiss 3T3 cells (SV-3T3). It appeared likely that these results could be accounted for by an inhibitor released from 3T3 cells but not from SV-3T3 cells. Our new method of co-incubation of sparse and dense cultures allowed us to demonstrate inhibition of growth and phosphate metabolism in sparse 3T3 cultures which were shaken in the presence of dense cultures. The inhibition was much less when the cultures were co-cultivated but not shaken. The inhibition of phosphate incorporation in acid-soluble and acid-insoluble fractions of sparse cultures was observed as early as 20 minutes of co-incubation in the presence of dense cultures, so this inhibition is not the result of depletion of growth factors in the medium. Our experiments suggest that an inhibitor(s) was released from dense cultures of 3T3 cells.     

Suppression of lipoprotein lipase in 3T3-L1 cells by a mediator produced by SEKI melanoma, a cachexia-inducing human melanoma cell line

Production of a cachexia-inducing factor(s) by the SEKI melanoma cell line, established from a human melanoma, has been well documented. Conditioned medium from cultures of this melanoma cell line contains a factor(s) that inhibits the activity of lipoprotein lipase (LPL) in fully differentiated 3T3-L1 adipocytes. The mode of inhibition of this enzyme by the factor, i.e. its dose-dependency and time course, is very similar to that of LPL-inhibition by a macrophage-derived cachexia-inducing factor, cachectin/tumor necrosis factor (cachectin/TNF). However, the conditioned medium of SEKI melanoma cells does not contain any immuno-reactive substances reactive in enzyme-linked immunosorbent assay (ELISA) with anti-cachectin/TNF antibody, or with anti-interleukin 1 alpha or beta antibodies. This LPL-suppression factor present in the conditioned medium seems to be a peptide because of its heat-lability and apparent molecular weight of more than 25,000. The conditioned media from cultures of four other different cell lines were found to show no significant suppression of LPL activity. These results imply that SEKI melanoma cells produce a cachexia-inducing factor(s) similar to cachectin/TNF but that the molecule involved is different.     

Regulation of the cell cycle of 3T3 cells in culture by a surface membrane-enriched cell fraction

Addition of a suspension of a surface membrane enriched fraction prepared from confluent 3T3 cells to sparse 3T3 cells in culture results in a concentration dependent and saturable decrease in the rate of DNA synthesis. The inhibition of cell growth by membranes resembles the inhibition of cell growth observed at confluent cell densities by a number of criteria: (1) In both cases the cells are arrested in the G₁ protion of the cell cycle; (2) the inhibition by membranes or by high local cell density can to a large extent be compensated for by raising the serum concentration or by addition of fibroblast growth factor plus dexamethasone. Membranes prepared from sparse cultures inhibit less well than membranes from confluent cultures in a manner which suggests that binding of membranes to cells is not by itself sufficient to cause inhibition of cell growth. The inhibitory activity has a subcellular distribution similar to phosphodiesterase (a plasma membrane marker) and appears to reside in one or more intrinsic membrane components. Maximally, membranes can arrest about 40% of the cell population in each cell cycle. Plasma membranes obtained from sparse 3T3 cells are less inhibitory than membranes obtained from confluent cells. This suggests either that the inhibitory component(s) in the plasma membrane responsible for growth inhibition may be in part induced by high cell density, or that this component(s) may be lost from these membranes during purification.     

Mouse mammary epithelium produces a soluble heat-sensitive macromolecule that inhibits differentiation of 3T3-L1 preadipocytes.

Coculture of normal mouse mammary gland (NMMG) epithelial cells with 3T3-L1 preadipocytes resulted in inhibition of triglyceride accumulation. This inhibition was also observed when the NMMG cells were grown in inserts and placed within a 100-mm dish containing confluent 3T3-L1 cells. As the number of NMMG-containing inserts was increased, there was a progressive decline in triglyceride content of the 3T3-L1 cells. Conditioned medium from NMMG cells also resulted in a dose-dependent inhibition of adipocyte formation, and when concentrated 10-fold by passage through a filter with a cutoff of 30 kDa, all of the inhibitory activity was recovered. Heating the concentrated conditioned medium at 98 degrees C for 30 min resulted in complete loss of activity. Of several peptides tested, transforming growth factor-beta, platelet-derived growth factor, tumor necrosis factor, interleukin 6, and basic fibroblast growth factor showed inhibitory activity, whereas epidermal growth factor, insulin-like growth factor I, and transforming growth factor-alpha did not.     

UDP-galactose inhibition of BALB/3T12-3 cell growth : Requirement for medium galactosyltransferase activity

Incubation of BALB/3T12-3 cells with uridine diphosphate galactose (UDP-gal) resulted in a concentration-dependent inhibition of cell growth when cells were cultured in calf serum-supplemented Dulbecco's modified Eagle medium (CS-DMEM). Cell growth was completely inhibited by 5 mM UDP-gal with an ID₅₀ of 0.75 mM. This inhibitory effect was reversible. Other nucleotide-sugars, as well as galactose, glucose, and galactose-1-phosphate had no effect on cell growth. UDP-gal had no effect on cell growth when cells were cultured in heat-inactivated calf serum containing DMEM (HICS-DMEM) suggesting that a serum enzyme activity was responsible for the inhibition observed in CS-DMEM. No significant difference could be detected by descending chromatography in the degradation of UDP-gal during 96 h of incubation in CS-DMEM and in HICS-DMEM. Furthermore, the potential breakdown products of UDP-gal had no effect on cell growth when added directly to 3T12 cultures. When cells were incubated with 5 mM UDP-gal+5 mM CDP-choline (a potent inhibitor of pyrophosphatase activity), complete inhibition of cell growth was still observed. However, if cells were incubated with 5 mM UDP-gal+UDP (which inhibited calf serum galactosyltransferase activity), no inhibition of cell growth was observed over that found for UDP alone, suggesting that galactosyltransferase and not pyrophosphatase activity mediated the effect of UDP-gal on cell growth. A direct effect of UDP-gal on cells was suggested by (a) normal growth of cells in UDP-gal-conditioned medium (preincubated with UDP-gal for 24 h followed by dialysis to remove UDP-gal); (b) 3-fold greater incorporation of [³H]galactose from UDP-[³H]gal into cells grown in CS-DMEM than in HICS-DMEM. These studies suggest that the inhibition of 3T12 cell growth by exogenous UDP-gal may be due to alteration of cell surface glycoconjugates by extracellular galactosyltransferase activity.     

Ethanolamine base exchange enzymatic activities in spontaneous transformed glial cell lines. Effect of dibutyryl cyclic AMP treatment

Cultured astrocytes derived from neonatal rats (normal cells) displayed maximal ethanolamine base exchange enzymatic activity (EBEE) when cultures reached confluency and cells almost ceased to divide. At this stage, ethanolamine phosphotransferase (EPT) and choline base exchange enzyme (CBEE) activities reached a plateau. In spontaneously transformed glial cells, no differential activity variation either between EPT and CBEE, or between EPT and EBEE was observed. The EBEE activity was mainly localized in the microsomal fraction and was completely absent from plasma membranes. Dibutyryl cyclic AMP (db-cAMP) treatment of the transformed cells reversed the pattern of these activities to that of normal cells. Moreover, treatment of the transformed cells with medium conditioned by normal astroblasts markedly increased EBEE activity. This study demonstrates that (i) variation of EBEE activity during cell growth differs in normal and in transformed cultured glial cells. (ii) EBEE activity may be modulated via both db-cAMP and normal cell conditioned medium. Our findings suggest a possible implication of EBEE in the maturation and contact inhibition of cell growth.     

Inhibitor of ribosomal RNA synthesis in Xenopus laevis embryos. IV. The release of inhibitor from cultured cells.

Previous reports from our laboratory have shown that a culture medium, conditioned by the growth of isolated cells of Xenopus laevis blastulae, contains a low-molecular-weight substance which selectively inhibits 18 and 28S ribosomal RNA (rRNA) synthesis. Although the occurrence of an inhibitor in an acid-soluble fraction of blastulae has recently been demonstrated, our observation of an inhibitor in a conditioned medium has not been confirmed by other laboratories. To resolve this discrepancy, we have reexamined the effects of conditioned media and acid-soluble extracts on rRNA synthesis by neurula cells. (1) The inhibitory activity for rRNA synthesis can consistently be observed in blastula-conditioned media, provided some of the cells have been broken down during conditioning. If cell rupture is avoided, an inactive conditioned medium is obtained. (2) A homogenate of blastulae inhibits total RNA synthesis and shows no selective inhibition of rRNA synthesis. (3) Charcoal treatment of the conditioned medium and homogenate enhances their specificity for rRNA synthesis. It is then likely that cell breakdown may be involved in the release of the inhibitor into the medium and that some differences in the methods of preparation of conditioned medium may account for the above discrepancy.     

On the reinitiation of cell growth in culture

The reinitiation of growth by rat C₆ glioma cultures following dissociation, dilution, and replating arises from the disruption of cooperative cell interactions rather than from the effects of the dissociating agent upon the cell surface or an anchorage dependent event. The cell interaction mechanism responsible for this effect does not involve the extracellular matrix or a conditioned medium factor, and is therefore probably contact in nature. Three distinct components of C₆ growth regulation can now be recognized: (1) an endogenous growth program which specifies the time base of growth events and causes growth inhibition; (2) a density dependent mechanism that regulates the amplitude of the growth rate; and (3) a second density dependent mechanism which ‘locks’ cells into a state of growth inhibition, thereby preventing growth reinitiation. Both of the density dependent mechanisms appear to involve contact mediation.     

INHIBITION OF MALIGNANT CELL PROLIFERATION BY CULTURE MEDIA CONDITIONED BY CARDIAC OR SKELETAL MUSCLE

The present work is an attempt to explain the high resistance of muscles to cancer development. We used primary cultures of rat skeletal and cardiac muscle, and examined the effect of the supernatant of these cultures (conditioned medium; CM) on proliferation of cancer cells. The results demonstrated that CM inhibited the proliferation of several types of malignant cells by more than 50%, without a significant inhibition on normal cells. Cell cycle analysis revealed that CM increased the number of cells in S and G2 phases, suggesting a cytostatic effect of CM. For defining the biological properties of the factor(s) which are present in the CM, skeletal muscle cultures were grown in chemically defined medium (serum free medium). The concentrated sample was applied to a Sephadex G-50 column and three fractions were obtained. Only one fraction showed inhibitory activity. Four protein bands were observed in this fraction, as revealed by SDS-PAGE. We suggest that some, or all of these proteins are responsible for inhibition of tumor cell replication.     

An association between glutamine synthetase activity and adipocyte differentiation in cultured 3T3-L1 cells

Confluent 3T3-L1 Swiss mouse fibroblasts acquired morphological and biochemical characteristics of adipocytes when maintained in medium containing 10% calf serum and added insulin. Identical cultures maintained in the absence of added insulin did not differentiate into adipocytes. Incubation of confluent cultures for 48 h with 0.25 μm dexamethasone and 0.5 mm 1-methyl-3-isobutylxanthine yielded subsequent adipocyte differentiation when the culture medium contained 10% fetal calf serum. In contrast, differentiation did not occur when similarly treated cultures were maintained in medium containing 10% calf serum. The increase in glutamine synthetase which occurred during adipocyte differentiation was closely associated with an increased rate of triglyceride synthesis from acetate, with increased protein, and with increases in the activities of glycerol-3-P dehydrogenase and glucose-6-P dehydrogenase. Glutamine synthetase activity remained undetectable in insulin-treated confluent 3T3-C2 cells maintained under conditions which yielded high glutamine synthetase activity in 3T3-L1 cells. (3T3-C2 cells did not differentiate into adipocytes.) Glutamine accumulated in the culture medium of 3T3-L1 adipocytes, but it did not accumulate in the medium from identically treated 3T3-C2 cells. A half-maximal increase in glutamine synthetase specific activity occurred at a culture medium insulin concentration of 10 ng/ml. Neither adipocyte differentiation nor the rise in glutamine synthetase activity were substantially altered by maintaining confluent cultures in medium lacking added glutamine. Incubation of confluent 3T3-L1 cultures with 3 mml-methionine sulfone, a reversible inhibitor of glutamine synthetase, increased by two-fold both the activity and the cellular content of glutamine synthetase. Incubation of confluent 3T3-L1 cultures with 4 mml-glutamine and l-methionine-dl-sulfoximine, an irreversible inhibitor of glutamine synthetase activity, decreased glutamine synthetase activity to less than 5% of the activity in control cultures; however, neither cellular content of the enzyme nor synthesis rate of the enzyme were substantially altered. In the presence of added glutamine, neither methionine sulfone nor methionine sulfoximine had a significant effect on phenotypic adipocyte conversion. By contrast, when confluent cultures were incubated with methionine sulfoximine and no added glutamine, glutamine synthetase remained absent and there was no evidence of adipocyte conversion. Our data indicate (1) that added insulin is required for adipocyte differentiation of 3T3-L1 cells maintained in medium containing calf serum, (2) that glutamine synthetase activity increases during adipocyte conversion regardless of the culture conditions employed to achieve differentiation, and (3) that glutamine synthetase activity may be required for adipocyte differentiation when cultures are maintained in medium lacking added glutamine.     

Human fibroblast conditioned media contains growth-promoting activities for low density cells

Normal diploid human fibroblasts, cultured at high density (1–2 × 10⁵ cells per cm²) release two growth promoting activities into the culture medium. The fibroblast proliferation activity-conditioned medium facilitates the attachment of low density cells to the substrate. That activity resides in a non-dialyzable material that is sensitive to proteolytic inactivation. A second activity is dialyzable and can be recovered in the dialysate. In the presence of serum it stimulates cell growth. After 168 hours of incubation conditioned medium cultures contain five times more cells than are present in comparable cultures without conditioned medium. A reproducible biological assay for each activity is described.     

The effect of factors released from the tumor-transformed cells on DNA synthesis, mitosis, and cellular enlargement in 3T3 fibroblasts

Quiescent serum-starved 3T3 cells can be stimulated to initiate DNA synthesis after addition of conditioned media from spontaneously tumor-transformed 3T3 cells (3T6-cells) or from SV-40-transformed 3T3 cells (SV-3T3 cells). The conditioned media were found to stimulate both the chromosome cycle (i.e., DNA synthesis and cell division) and the growth cycle (i.e., cellular enlargement). Furthermore, addition of conditioned media to quiescent 3T3 cells increased the activity of HMG CoA reductase--an enzyme previously proposed to exercise some control on cell proliferation in 3T3 cells (Larsson and Zetterberg: J. Cell. Physiol. 129:99-102, 1986. The increased activity of HMG CoA reductase after treatment with tumor cell conditioned media was correlated to the stimulatory effects on DNA synthesis. By treating 3T3 cells stimulated to resume proliferation by addition of conditioned media with mevinolin (a competitive inhibitor of HMG CoA reductase) the activity of HMG CoA reductase as well as the DNA synthesis and cell division were efficiently inhibited. In contrast, HMG CoA activity was not coupled to the cellular enlargement. Therefore, it is proposed that one set of factors present in tumor cell conditioned media preferentially stimulates the chromosome cycle by increasing the HMG-CoA reductase activity, whereas another set of factors is responsible for growth in cell size. Both types of factors are required for balanced growth.