The role of polyamine depletion and accumulation of decarboxylated S-adenosylmethionine in the inhibition of growth of SV-3T3 cells treated with alpha-difluoromethylornithine.

The effects of alpha-difluoromethylornithine, a specific inhibitor of ornithine decarboxylase, on cell growth rate, polyamine content and the content of decarboxylated S-adenosylmethionine in SV-3T3 transformed mouse fibroblasts were studied. DL-alpha-Difluoromethylornithine at 1 mM or higher concentrations decreased the growth rate by over 90% after 2 or more days of exposure, but the cells remained viable, although quiescent for at least 9 days. Addition of 10 microM-spermidine or -spermine or 50 microM-putrescine at any time throughout this period completely reversed the inhibition of growth. Treatment with alpha-difluoromethylornithine decreased putrescine and spermidine contents by more than 98% and that of spermine by 60%, but cells exposed to exogenous polyamines did not require complete replenishment of the polyamine pools to resume growth. In fact, a virtually normal growth rate was obtained in cells lacking putrescine, having 2% of normal spermidine content and 156% of normal spermine. These results suggest that the well-known increase in putrescine and spermidine in cells stimulated for growth is not essential for this to occur and that mammalian cells can utilize spermine as their only polyamine. A substantial reversal of the growth-inhibitory effect of alpha-difluoromethylornithine was produced by a number of polyamines not normally found in mammalian cells, including the spermidine analogues aminopropylcadaverine and sym-homospermidine, which were partially converted into their respective spermine analogues by addition of an aminopropyl group within the cell. The spermine analogue sym-norspermine was also effective, but the maximal growth rate produced by these unphysiological polyamines was only 60-70% of that produced by the normal polyamines. These results indicate that spermidine and spermine have the optimal length for activation of the cellular processes critically dependent on polyamines and should help in identifying these processes. Exposure to alpha-difluoromethylornithine leads to an enormous rise in the concentration of decarboxylated S-adenosylmethionine, which reached a peak at 530-fold after 3 days of exposure and steadily declined to 140-fold after 11 days. This increase was abolished by addition of exogenous polyamines, which rapidly decreased the activity of S-adenosylmethionine decarboxylase. The increase in decarboxylated S-adenosylmethionine is unlikely to be solely responsible for the decrease to the same extent by spermine, sym-norspermidine and sym-homospermidine, which produce 97%, 16% and 60% of the control growth rate, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Affinity chromatography of hyaluronate on glutaraldehyde-fixed SV-3T3 cells

A simple, rapid colorimetric assay for plasma heparin is presented. The assay employs the metachromasia of azure A when heparin is added. It is useful for 0 to 10 units/ml and does not depend on heparin's anticoagulant activity. Heparin concentrations determined with this assay are not exactly the same as those determined with coagulation assays. This is probably because azure A determines chemical heparin, not anticoagulant active heparin.     

Increase in S-adenosylmethionine decarboxylase in SV-3T3 cells treated with S-methyl-5''-methylthioadenosine.

We previously have shown [Takahashi & Kobayashi (1982) Hepatology 2, 249-254] that the administration of concanavalin A to mice with schistosomiasis caused liver collagen content to be reduced by 50%. Here we report the effects of concanavalin A and aggregated mouse myeloma IgG on liver lysyl oxidase activity and present further evidence concerning the possible mechanism by which the liver collagen content was decreased in infected-treated mice. The lysyl oxidase activity at 8 weeks after infection in both treated mice and untreated infected controls was about 28-fold greater than in the age-matched uninfected controls. The specific radioactivity of intracellular free [14C]proline, the rate of collagen synthesis, the ratio of collagenase-sensitive, protein-bound, hydroxyproline to proline of collagen and the intracellular degradation of newly synthesized collagen were similar in treated animals and in untreated infected controls. In contrast, the extracellular degradation of newly secreted collagen and the specific radioactivity of protein-bound [14C]hydroxyproline in the agent-treated groups were about 2-fold greater than those in the untreated infected controls. These results suggest that the observed 50% decrease in content of liver collagen of mice treated with the agents apparently was due to the increased extracellular degradation of newly secreted collagen.     

Excretion of acetylated and free polyamines by polyamine depleted Chinese hamster ovary cells

1. Cultured Chinese hamster ovary cells (CHO) and their ornithine decarboxylase deficient mutant cells (C55.7) were found to excrete small amounts of N8-acetylspermidine and free polyamines, putrescine and spermidine into the culture medium. 2. The concentration of N8-acetylspermidine in the control cells was 2-3% of that of spermidine. In the medium, however, the amount of N8-acetylspermidine was about 2-fold that of spermidine and 2- to 3-fold higher than the intracellular amount. N1-acetylspermidine or acetylated spermine were never detected in the cells or in the media. 3. Confluent CHO cells treated with 2 mM difluoromethylornithine stopped the excretion when the intracellular spermidine concentration had decreased to 20% of control while there was no decrease in spermine concentration. At low cell density, neither polyamine depleted CHO cells nor the C55.7 cells excreted any polyamines into the culture media.     

Characterization and identification of the hyaluronate binding site from membranes of SV-3T3 cells

Previous research has shown that binding sites for hyaluronate are present on the surfaces of a number of different cell types. To further characterize these binding sites, membranes were prepared from SV-3T3 cells and dissolved in a solution of sodium deoxycholate. Hyaluronate binding activity was detected by mixing the sodium deoxycholate extract with [3H]hyaluronate and then adding an equal volume of saturated (NH4)2SO4, which precipitated the binding protein and any [3H]hyaluronate associated with it, but left free [3H]hyaluronate in solution. Following partial purification by hydroxylapatite chromatography, the binding site was examined by molecular sieve chromatography and by rate-zonal centrifugation, which revealed that it has a Stokes radius of 6.5 nm and a sedimentation coefficient of 4.8 S. From these values, it was possible to calculate that the sodium deoxycholate-solubilized binding site has a frictional coefficient of 1.87 and a molecular weight of 132,000. Since this latter value applies to the complex of both detergent and protein, the binding protein by itself must have a molecular weight lower than 132,000. To determine the molecular weight of the hyaluronate binding site itself, the protein was purified by the sequential application of hydroxylapatite chromatography, molecular sieve chromatography, rate-zonal centrifugation, and finally lectin-affinity chromatography on concanavalin A-agarose. Analysis of the purified material by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed an 85,000 Mr protein which has been identified as the binding site. This protein was also detected on nitrocellulose blots which had been specifically stained for concanavalin A binding material, suggesting that the binding site is a glycoprotein.     

Effect of 1,3,6-triaminohexane and 1,4,7-triaminoheptane on growth and polyamine metabolism in SV-3T3 cells treated with 2-difluoromethylornithine

The possibility that one or both of the synthetic triamines, 1,3,6-triaminohexane and 1,4,7-triaminoheptane, could substitute for the naturally occurring polyamines in the growth of SV-3T3 cells was investigated. It was found that these triamines did lead to a restoration of growth in cells in which spermidine content had been depleted by exposure to the ornithine decarboxylase inhibitor 2-difluoromethylornithine. This resumption of a normal growth rate occurred prior to the reduction in the content of cellular decarboxylated S-adenosylmethionine, suggesting that this nucleoside (which increases in concentration several hundred-fold in cells treated with 2-difluoromethylornithine) does not cause the reduction of cell growth. However, unlike the increase in cell growth brought about by spermidine, which continued indefinitely, the increase produced by 1,3,6-triaminohexane or 1,4,7-triaminoheptane was transient. Cell growth in the presence of 2-difluoromethylornithine and these triamines stopped after about three or four population doublings. This corresponded to the time at which the intracellular spermine content of the cells was reduced to values less than 20% of normal. It is suggested that the increased growth rate of spermidine-depleted cells in response to these triamines is due to their uptake into the cell and ability to displace spermine from intracellular sites, thus making spermine available to fulfill the polyamine function(s) essential for growth. These results indicate that the naturally occurring polyamines spermidine or spermine are essential for continued cell growth and cannot be replaced by analogues containing only primary amino groups.     

Sensitivity of preadipose 3T3 cells to growth hormone

Cultured preadipose 3T3 cells are able to undergo a process of differentiation through which they are converted into adipose cells. Growth hormone induces this conversion in resting cultures but not in growing cultures. It was of interest to determine the period of cell sensitivity to the hormone and the timing of the induction of glycerophosphate dehydrogenase, a key enzyme in lipogenesis. It was found that 3T3-F442A cells became highly sensitive to rat growth hormone at confluence but that high sensitivity remained for only 3 days; thereafter, the responsiveness to the rat growth hormone declined rapidly. Refeeding of the cells with fresh medium did not lead to the recovery of the hormone sensitivity, indicating that the decrease in sensitivity was not due to exhaustion of medium components but that it seemed to be a specific property of F442A cells. As glycerophosphate dehydrogenase activity was detected at nearly the same time as its mRNA was measurable, it is likely that the mRNA is translated immediately after its synthesis.     

Concanavalin A-mediated agglutination of 3T3 cells after exposure to UV-irradiated herpes simplex virus.

Studies were made to determine the effect of UV-irradiation of herpes simplex virus (HSV) on Concanavalin A (Con-A)-mediated agglutination of 3T3 cells. There were three different phases of agglutination by Con-A of cells infected with HSV. The agglutinability began to increase from 3 or 4 hr, or 72 hr after exposure of cells to HSV. The early-appearing agglutinability was further divided into two phases, based on its sensitivity to metabolic inhibitors. These were tentatively called "Early 1 or inhibitor sensitive", "Early 2 or inhibitor insensitive" and "Late" agglutinability. "Early 1" agglutination, detected from 3 hr post infection (pi), was induced by treating cells with HSV, either active or UV-irradiated for less than 5 min and was inhibited when actinomycin D (1 microgram/ml) or cycloheximide (50 microgram/ml) was added to the cultures. "Early 2" agglutination began to increase from 4 hr pi when cells were inoculated with HSV irradiated for 7 to 20 min and was not affected by either inhibitor. HSV irradiated for 6 min failed to induce either agglutinability. "Late" agglutination, observed 72 hr pi, was detected in cultures which had been treated with HSV irradiated for 4 to 15 min. Among those, virus irradiated for 6 to 8 min was most efficient. HSV-transformed cells were also agglutinated without exception by low concentrations of Con-A.     

Protein turnover and proliferation. Failure of SV-3T3 cells to increase lysosomal proteinases, increase protein degradation and cease net protein accumulation

The contrasting control of lysosomal proteinases, protein turnover and proliferation was studied in 3T3 and SV-3T3 (SV-40-virus-transformed 3T3) cells. 1. In 3T3 cells, net protein accumulation proceeded from 5%/h (doubling time, T(d)=14h) in growing cells to 0%/h as cells became quiescent. SV-3T3 cells never ceased to gain protein, but rather decreased their protein accumulation rate from 6-7%/h (T(d)=10-12h) to 2%/h (T(d)=35-40h) just before culture death in unchanged medium. 2. In both cell types the rates of protein synthesis per unit of protein (a) were proportional to the initial serum concentration from 0 to 6%, and (b) declined under progressive depletion of undefined serum growth factors. In depleted growth medium, leucine incorporation per unit of protein in 3T3 and SV-3T3 cells declined to almost equal synthetic rates while the 3T3 cell existed in a steady state of zero net gain, and the SV-3T3 cell continued to gain protein at a rate of 2%/h. 3. Whereas a large fraction of the control of 3T3-cell net protein accumulation can be accounted for by an increase in degradation from 1%/h to 3%/h, the SV-3T3 cell did not exhibit a growth-related increase in degradation appreciably above 1%/h. 4. Thus, by using first-order kinetics, the continued net protein accumulation of the transformed cell can be accounted for by a failure to increase protein degradation, whereas fractional synthesis can be made to decline to a rate similar to that in the quiescent non-transformed cell. 5. Upon acute serum deprivation, both cell types similarly exhibited small rapid increases in proteolysis independent of cell growth state or lysosomal enzyme status. 6. The 3T3 cell increased its lysosomal proteinase activity in conjunction with increase in the growth-state-dependent proteolytic mechanism; however, the SV-3T3 cell failed to increase lysosomal proteinases or the growth-state-dependent proteolytic mechanism.     

Purification of SV-40 messenger RNA by hybridization to SV-40 DNA covalently bound to Sepharose.

SV-40 DNA sheared form was coupled in a stable covalent bond to cyanogen bromide activated Sepharose. Under the conditions used at least 80% of the DNA was bound to Sepharose. The T 1/2 of hybridization of 0.5 mug/ml of SV-40 cRNA to SV-40 DNA-Sepharose was 1 hr. This rate of hybridization is sufficiently rapid to purify SV-40 sequences from solutions containing as little as 0.05-0.1 mug/ml. Nonspecific hybridization of RNA is in the range of 0.1-0.2% of the total input RNA. The DNA-Sepharose is fairly stable and can be reused several times to purify RNA. The SV-40 DNA-Sepharose was used to select large quantities of virus specific RNA from SV-40 infected BS-C-1 cells. The virus specific RNA when added to cell-free extracts from wheat germ was shown to direct the synthesis of the major viral structural protein VP-1.     

N-acetylcysteine reduces transformed 3T3-SV40 fibroblast sensitivity to lysis by natural killer cells

We have shown that 18-20 h cultivation of transformed mouse fibroblasts 3T3-SV40 in the presence of antioxidant, N-acetylcysteine (NAC, 10 mM), did not change their sensitivity to lysis by natural killer (NK) mouse splenocytes. However, in 18-20 h after NAC removal 3T3-SV40 cells demonstrated resistance to NK cell activity. The cytotoxicity index (CI) was reduced up to 4.6 +/- 2.4 % (in comparison with the control value 31.8 +/- 2.4 %) approximating to the value in non-transformed 3T3 mouse fibroblasts. Normal 3T3 cells were resistant to NK action in all experimental conditions (CI varied within 0.7-5.3 %). These results show that NAC can induce partial reversion of transformed phenotype. We suggest that this effect may be due to the NAC-induced modifications of the cell surface and extracellular matrix proteins.     

Reorganization of actin cytoskeleton in 3T3-SV40 cells and their sensitivity to lysis by natural killer cells

The present work was aimed to examine whether the actin reorganization of 3T3-SV40 cells influences their sensitivity to natural killer (NK) cells activity. The effects of N-acetylcystein (NAC) and latrunculin B, actin depolimerizator, on both cellular parameters were studied. Experiments with NAC demonstrated that 3T3-SV40 sensitivity to NK cells activity remained unchanged under the disordered microfilaments but decreased upon the appearance of structured stress-fibres. The data on latrunculin B action resulted in the opposite conclusion: the more microfilaments disorganization in the presence of latrunculin B the lesser 3T3-SV40 sensitivity to lysis by NK cells. These facts suggest that relations between microfilament integrity in 3T3-SV40 cells and their sensitivity to NK cells are rather independent. The latter confirms our previous conclusion (Gamaley et al., 2006). Decrease in 3T3-SV40 sensitivity to NK cells activity accompanied by actin reorganization resulted from both latrunculin B and NAC action suggests changes in cellular surface, which ultimately lead to inactivation (or loss) of the molecules being activating signals to NK cells.     

Ehrlich ascites tumour cells become refractory to alpha-difluoromethylornithine at a certain stage of growth

When Ehrlich ascites tumour cells are induced to proliferate by serum stimulation, the ornithine decarboxylase (ODC) activity increases rapidly and reaches two to three peaks during the first 24 h. Inhibition of the first peak in ODC activity (occurring at 4 h) by adding alpha-difluoromethylornithine (DFMO) within 2 h of serum stimulation, results in maximal growth inhibition. Under these conditions, similar degrees of polyamine depletion are achieved. When DFMO is added 3 h after seeding, however, enough polyamines have already accumulated during the initial burst in ODC activity to reduce the antiproliferative effect of the drug. The antiproliferative effect is further reduced when DFMO is added 6 h after seeding. When DFMO is added 23 h after seeding, i.e. after maximal accumulation of polyamines, there is no inhibition of cell proliferation. These findings are important to consider both when designing experimental as well as clinical regimens for this drug.     

Position specific growth regulation of 3T3 cells in vivo.

In this study we have investigated the mechanism by which spatial growth is regulated by monitoring 3T3 cells, introduced into the developing mouse limb using exo utero surgery. The 3T3 cells were labeled with a human cell surface glycoprotein, CD8, and injected into stage 7-9 mouse limbs. At 24 and 48 hr after injection embryos were labeled with [3H]thymidine and processed for immunohistochemistry and autoradiography. The labeling index of CD8 positive cells was compared to that of neighboring limb bud cells and also to the position of the injection site within the limb. We find that the labeling index of 3T3 cells is in accord with that of the limb cells that immediately surround them; 3T3 cells display a high labeling index in limb regions of high growth and a low labeling index in limb regions of low growth. In addition, we find that both limb bud cells and injected 3T3 cells display a general proximal (low) to distal (high) gradient of growth at the stages analyzed. We conclude from these results that position-specific regulation of growth occurs in a non-cell autonomous manner and is likely to be mediated by mitogenic signals that are localized within the limb environment. In addition, our results demonstrate the usefulness of utilizing established cell lines as in vivo probes to monitor developmental mechanisms.     

Inhibition of epidermal growth factor binding to Swiss 3T3 cells by human platelet release-products

Human platelet ionophore release-products (IRP) inhibit the binding of 125I-labelled epidermal growth factor (125I-EGF) to its receptors on Swiss 3T3 cells. The inhibition appears to be caused by platelet-derived growth factor (PDGF) in the IRP and results from a decrease in the apparent affinity of cellular receptors for 125I-EGF. However, our results indicate that PDGF does not bind directly to EGF receptors, since (1) PDGF does not down-regulate EGF receptors; (2) the PDGF-mediated inhibition of 125I-EGF binding is temperature-dependent; (3) cells which possess EGF receptors but lack PDGF receptors do not exhibit a PDGF-mediated inhibition of 125I-EGF binding.     

Expression of acidic fibroblast growth factor cDNA confers growth advantage and tumorigenesis to Swiss 3T3 cells.

Acidic fibroblast growth factor (aFGF), a polypeptide with a mol. wt of approximately 16,000, is a potent mitogen for a variety of cells and shares 55% amino acid sequence identity with basic FGF. The recent isolation of three new oncogenes which share 35-45% amino acid sequence similarity with the FGFs suggests that the coding sequences for the FGFs themselves may be oncogenic under certain circumstances. To test this hypothesis, we cotransfected 3T3 NR6 cells with factors expressing the aFGF coding sequence and the bacterial neomycin gene. The aFGF produced by cotransfected cells was found only in the cellular homogenate and not in medium conditioned by the cells. Cells expressing aFGF grew to 10 times the density of control cells at saturation and were multilayered and disorganized, similar to transformed cells. The cotransfected cells do not grow in soft agar, but show enhanced soft agar growth relative to controls in the presence of added aFGF and heparin. The aFGF-producing cells formed small, non-progressive tumors when injected subcutaneously into nude mice. Our data suggest that expression of aFGF in NR6 cells results in enhanced growth, and that several traits characteristic of the transformed phenotype are partially expressed.