Quiescent SV40 virus transformed 3T3 cells in culture

Serum counteracts low nutrient concentrations in the culture medium in SV40 virus transformed 3T3 (SV3T3) cells. The transport of [³H]-leucine into TCA soluble material in SV3T3 cells is stimulated by serum and inhibited by But₂-cAMP. When SV3T3 cells are cultured in low leucine concentrations (? 8 × 10^?6 M), the cell's morphology is similar to the one of cells incubated in complete medium in the presence of But₂-cAMP and cells become quiescent. Cells become arrested throughout the cell cycle. The results suggest that the mechanism by which But₂-cAMP inhibits growth of SV3T3 cells is by inhibiting the transport of leucine in SV3T3 cells.     

Pyruvate secreted by human lymphoid cell lines protects cells from hydrogen peroxide mediated cell death

Reactive oxygen species (ROS) released from polymorphonuclear leukocytes and macrophages could cause DNA damage, but also induce cell death. Therefore inhibition of cell death must be an important issue for accumulation of genetic changes in lymphoid cells in inflammatory foci. Scavengers in the post culture medium of four lymphoid cell lines, lymphoblastoid cell lines (LCL), Raji, BJAB and Jurkat cells, were examined. Over 80% of cultured cells showed cell death 24 h after xanthine (X)/xanthine oxidase (XOD) treatment, which was suppressed by addition of post culture medium from four cell lines in a dose-dependent manner. H₂O₂ but not O^·-₂ produced by the X/XOD reaction was responsible for the cytotoxity, thus we used H₂O₂ as ROS stress thereafter. The H₂O₂-scavenging activity of post culture media from four cell lines increased rapidly at the first day and continued to increase in the following 2–3 days for LCL, Raji and BJAB cells. The scavenging substance was shown to be pyruvate, with various concentrations in the cultured medium among cell lines. Over 99% of total pyruvate was present in the extracellular media and less than 1% in cells. α-Cyano-4-hydroxycinnamate, a specific inhibitor of the H⁺-monocarbohydrate transporter, increased the H₂O₂-scavenging activity in the media from all four cell lines via inhibition of pyruvate re-uptake by cultured cells from the media. These findings suggest that lymphoid cells in inflammatory foci could survive even under ROS by producing pyruvate, so that accumulation of lymphoid cells with DNA damage is possible.     

Effect of Nitrogen Source on End Products of Naphthalene Degradation

Soil cultures, enrichment cultures, and pure culture isolates produced substantial quantities of salicylic acid from naphthalene in a mineral salts medium containing NH₄Cl as the nitrogen source. However, when KNO₃ was substituted for NH₄Cl, these same cultures failed to accumulate detectable quantities of salicylic acid but did turn the medium yellow. When an isolate identified as a Pseudomonas species was used, viable cell numbers were much greater in the medium containing KNO₃, but up to 94% of the naphthalene was utilized in both media. After 48 h of incubation in a 0.1% naphthalene-mineral salts medium, the cultures containing NH₄Cl showed irregular clumped cells, a pH of 4.7, 42 μg of salicylic acid per ml, and the production of 4.4 ml of CO₂. Under the same conditions, the cultures in the medium containing KNO₃ showed uniform cellular morphology, a pH of 7.3, no salicylic acid, the production of 29.7 ml of CO₂, and a distinct yellow coloration of the medium. The differences between nitrogen sources could not be accounted for by pH alone since results obtained using buffered media were similar. Growth with NH₄NO₃ displayed a pattern similar to that obtained when NH₄Cl was used. The yellow coloration in the medium containing KNO₃ was apparently due to more than one compound, none of which were 1,2-naphthoquinone or acidic in nature, as suggested by other investigators. Further attempts to identify the yellow compounds by high-pressure liquid chromatography, infrared analysis, and gas chromatography-mass spectrometry have been unsuccessful thus far.     

Effect of NH3 on the cell growth of a hybridoma cell line

Ammonia often has been reported to inhibit cell growth. The aqueous ammonia equilibrium between the un-ionized form (NH₃) and the ammonium ion (NH₄ ⁺) depends on the pH of the solution. Extensive studies in batch and continuous cultivation by varying pH and total ammonia concentration were carried out to investigate whether a kinetic model describing growth inhibition by ammonia has to be based on the total ammonia concentration, or the concentration of NH₃. A significant relationship between the specific growth rate and death rate, respectively, and the NH₃ concentration but not the total ammonia concentration, was detected. An adaptation of the cells to high ammonia levels was not observed. Based on these results a new kinetic model for ammonia mediated growth inhibition is suggested. For high density cultivation it is recommended to control the pH at the lower limit of the growth optimum to keep the NH₃ level low.     

Exogenous glycosphingolipids suppress growth rate of transformed and untransformed 3T3 mouse cells

Gangliosides added to culture media reduced both the growth rate and saturation density of SV40-virus transformed and untransformed 3T3 cells. Monosialogangliosides were much more effective than disialogangliosides in inhibiting growth rate. These gangliosides caused little or no cell damage or significant morphological alteration of the individual cells. Trisialoganglioside markedly reduced growth rate but in some experiments also caused cell damage and lysis. The isolated carbohydrate moiety of the ganglioside G_Gtet1, the sialo-oligosaccharide galactopyranosyl-N-acetyl-galactosaminyl-(N-acetylneuraminyl)-galactosyl-glucose, did not inhibit growth of SV40 3T3 cells in culture. Ceramide alone was also ineffective as a growth inhibitor. However, the tetrahexosyl ceramide derived from the above ganglioside was equally as effective as the parent compound in retarding growth of SV40 3T3 cells. Similarly, mono-, di- and trihexosyl ceramides were also effective in inhibiting growth of these cells. Gangliosides added to the culture media were rapidly accumulated by cells, apparently at the plasma membrane. The accumulated ganglioside was not degraded by the cells. However, the accumulated ganglioside could be distinguished from gangliosides synthesized in vivo by the lability of the former to neuraminidase.     

Hormone-defined cell system for studying G-protein coupled receptor agonist-activated growth modulation: δ-Opioid and serotonin-5HT2C receptor activation show opposite mitogenic effects

G-protein-coupled receptor (GPCR) agonist-activated transformation of NIH/3T3 fibroblast cells has been documented by many workers. Our present interest is in the growth control exerted by these agonists. The mechanisms involved in GPCR agonist-activated growth regulation are not known and investigations using existing cell lines are complicated by the endogenous expression of numerous different GPCRs as well as by the fact that these cell lines are cultured in serum that contains naturally occurring agonists for these receptors. To study the agonist induced growth response of cells transfected with either δ-opioid or serotonin-5HT_2C neurotransmitter receptor genes, we have developed new clonal cell lines derived from NIH/3T3 mouse fibroblast cells. These new cell lines, designated with the suffix 3T3DA, can be cultured stably in serum-free, hormone-defined medium: insulin is the only exogenous growth factor added to the culture medium of proliferating 3T3DA cell lines, and their proliferation can be stopped and started by the respective removal or addition of insulin. Micromolar concentrations of agonists were used to activate the corresponding opioid and serotonin receptors over periods extending to 6 days. We observed distinct patterns of GPCR-specific, agonist-activated growth regulation in serum-free cultures, but not in serum-supplemented cultures. At concentrations > 10 μM, morphine inhibits growth of δ-opioid receptor-expressing cells by 40% with respect to normal 3T3DA cells. Opioid agonist induced inhibition of cyclic AMP (cAMP) production as well as growth down-regulation are pertussis toxin sensitive indicating that the exogenously expressed δ-opioid receptors demonstrate classical opioid receptor signaling. The presence of 1 μM serotonin stimulates growth of serotonin-5HT_2C receptor-expressing cells by approximately 100% with respect to normal 3T3DA cells. Neither the untreated nor the agonist-treated cells form colonies in soft agar, indicating that they retain anchorage-dependent growth control. These cell lines provide a simple system that could be used as a tool for probing the complex molecular mechanisms associated with GPCR agonist-activated growth control. J. Cell. Physiol. 171:61–74, 1997. © 1997 Wiley-Liss, Inc.     

Thyroid hormone stimulates adipocyte differentiation of 3T3 cells

Triiodothyronine added at 0.1 nM to 3T3-F442A cells cultured in adipogenic medium having endogenous hormone concentrations similar to those of hypothyroid serum stimulated adipose conversion; activities of both lipogenic enzymes, glycerophosphate dehydrogenase and malic enzyme, increased with hormone treatment. The number of adipocytes was also augmented by L-T3 addition but the number of fat cell clusters remained the same as compared to non-treated cultures, suggesting that thyroid hormone increased the number of adipocytes probably through stimulating selective multiplication of precursor adipose cells. Hormone addition to cells cultured with non-adipogenic medium did not promote conversion showing that L-T3 is not an adipogenic factor by itself. Triiodothyronine added at concentrations similar to those found in hyperthyroidism, from 10 nM up to 10 µM, also increased the proportion of adipocytes without changing the number of fat cell clusters, but they decreased the activity of both lipogenic enzymes and lipid accumulation in mature adipocytes. It can be concluded that during 3T3-F442A differentiation into adipocytes L-T3 increases the number of differentiated adipocytes and, at low concentrations, also enhances lipogenic enzyme activities, whereas at the hyperthyroid hormone levels these enzyme activities are significantly reduced, remaining at levels similar to those of cells cultured with hypothyroid medium. This cloned cell line seems to be a useful model to study thyroid hormone action at both molecular and cellular level.     

Effects of nitrogen source on crude oil biodegradation

Summary The effects of NH₄Cl and KNO₃ on biodegradation of light Arabian crude oil by an oil-degrading enrichment culture were studied in respirometers. In poorly buffered sea salts medium, the pH decreased dramatically in cultures that contained NH₄Cl, but not in those supplied with KNO₃. The ammonia-associated pH decline was severe enough to completely stop oil biodegradation as measured by oxygen uptake. Regular adjustment of the culture pH allowed oil biodegradation to proceed normally. A small amount of nitrate accumulated in all cultures that contained ammonia, but nitrification accounted for less than 5% of the acid that was observed. The nitrification inhibitor, nitrapyrin, had no effect on the production of nitrate or acid in ammonia-containing cultures. When the culture pH was controlled, either by regular adjustment of the culture pH or by supplying adequate buffering capacity in the growth medium, the rate and extent of oil biodegradation were similar in NH₄Cl- and KNO₃-containing cultures. the lag time was shorter in pH-controlled cultures supplied with ammonia than in nitrate-containing cultures.     

Optimization of BY‐2 cell suspension culture medium for the production of a human antibody using a combination of fractional factorial designs and the response surface method

We have developed a strategy for the optimization of plant cell suspension culture media using a combination of fractional factorial designs (FFDs) and response surface methodology (RSM). This sequential approach was applied to transformed tobacco BY‐2 cells secreting a human antibody (M12) into the culture medium, in an effort to maximize yields. We found that the nutrients KNO₃, NH₄NO₃ and CaCl₂ and the hormones 2,4‐dichlorophenoxyacetic acid (2,4–D) and 6‐benzylaminopurine (BAP) had the most significant impact on antibody accumulation. The factorial screening revealed strong interactions within the nutrients group (KNO₃, NH₄NO₃ and CaCl₂) and also individually between 2,4‐D and three other components (KNO₃, NH₄NO₃ and BAP). The RSM design resulted in a fivefold increase in the antibody concentration after 5 days and a twofold reduction in the packed cell volume (PCV). Longer cultivation in the optimized medium led to the further accumulation of antibody M12 in the culture medium (up to 107 μg/mL, day 10). Because the packed cell volume was reduced in the optimized medium, this enhanced the overall yield by 20‐fold (day 7) and 31‐fold (day 10) compared to the conventional MS medium.     

A Simplified Medium for the Growth of Maize (Zea mays) Endosperm Tissue in Suspension Culture

In vitro cultures of maize (Zea mays L.) endosperm derived from the dent inbred A636 have been maintained in liquid culture using Straus' medium for over six years. We have studied the growth of this tissue in four basic media and various modifications of the organic constituents of these media. Auxins and kinetin did not improve growth rate or degree of cell dispersion and thiamine (0.4 mg/l) was the only vitamin required by this tissue. Growth equal to that in the standard Straus medium and improved cell separation was obtained in a medium containing only inorganic salts, sucrose, and thiamine. Although asparagine was not required when high quantities of NH₄NO₃ and KNO₃ were included, more rapid growth was obtained when 2 g/l of asparagine was added. The simplified medium reported in this paper should facilitate the use of maize endosperm tissue in various studies of metabolism, hormone biosynthesis, etc.     

Lys-tRNA4 levels and cell division in mouse 3T3 cells

tRNA₄^lys is an isoaccepting tRNA^lys which has been proposed as a necessary requirement for cell division in mammalian cells. We have measured the levels of this tRNA^lys during the growth cycle of mouse 3T3 fibroblasts. High levels of tRNA₄^lys were seen throughout exponential growth. However, a marked decrease in tRNA₄^lys occurred 24 h before the cells became confluent. This decrease was observed in three different 3T3 cell lines, but was not seen in a transformed 3T3 cell line. Trypsinization and replating of contact-inhibited cells returned tRNA₄^lys to the levels characteristic of exponential cells. Data from these and other cell lines show a direct relationship between the levels of tRNA₄^lys and the growth rate of cells in culture.     

Effect of ammonium ions and cytokinins on hyperhydricity and multiplication rate of in vitro regenerated shoots of <Emphasis Type="Italic">Aloe polyphylla</Emphasis>

In search for the optimal culture conditions resulting in a high production of healthy plants and low occurrence of hyperhydricity in tissue cultured regenerants of Aloe polyphylla, we investigated the relationship between ammonium ions in the medium, applied cytokinins (CKs) and CK concentrations in the induction of hyperhydricity. Shoots were grown on media with different NH₄ ⁺ concentrations (10.3, 20.6 and 61.8 mM) and supplemented with N⁶-benzyladenine (BA), zeatin or thidiazuron (TDZ) at 0, 5 or 15 μM. Elevating the levels of NH₄ ⁺, in the absence of CKs, could not induce hyperhydricity. Similarly, very low hyperhydricity was observed when CKs were added to media containing low NH₄ ⁺ (10.3 mM). However, in the presence of higher NH₄ ⁺ concentrations, CKs increased hyperhydricity in a concentration-dependant manner, suggesting that they were capable of inducing this syndrome only when other factors in the culture system were not optimised. High numbers of healthy looking shoots were produced on media with low NH₄ ⁺ and low BA or zeatin (5 μM). The use of TDZ resulted in the formation of buds, which did not develop into shoots. Identifying the factors responsible for hyperhydricity is an important step in the successful use of the micropropagation technique for the conservation of this species.     

Lack of effect of NH4Cl on protein synthesis in cultured fibroblasts

In experiments with isolated hepatocytes, Seglen [1] has shown that in the combined presence of NH₄Cl and high concentrations of valine, incorporation of this amino acid into cell protein is inhibited. He has proposed that NH₄Cl, in addition to inhibiting protein degradation in lysosomes, inhibits protein synthesis in these cells as part of a general toxic effect. To determine if NH₄Cl inhibits protein synthesis in cultured cells we incubated rat embryo fibroblasts, prelabeled with [¹⁴C]leucine, in the presence of 10 mM NH₄Cl and 15 mM leucine in both growth and serum-free media. We did not detect any effect of NH₄⁺ on protein synthesis or cell growth over a 3-day period. A partial inhibition of protein degradation was observed, particularly during the first 24 h of the experiment. In pulse-labeling experiments, NH₄Cl had no effect on the incorporation of [³H]leucine in the media. High concentrations of leucine, however, reduced re-utilization of endogenously derived leucine and inhibited the transport of valine into the cellular acid-soluble pool.These experiments show that at least in cultured fibroblasts 10 mM NH₄Cl shows no significant toxicity beyond an inhibition of lysosomal function. In addition these data suggest the possibility that high chase concentrations of one amino acid in the medium may be saturating a common transport mechanism, in effect reducing the transport of other amino acids utilizing this mechanism. A combined blockade by both NH₄Cl and a high concentration of a single amino acid may in certain sensitive cells result in a significant reduction in protein synthesis.     

Influence of media selection on NMR based metabolic profiling of human cell lines

Introduction

Comparative metabolic profiling of different human cancer cell lines can reveal metabolic pathways up-regulated or down-regulated in each cell line, potentially providing insight into distinct metabolism taking place in different types of cancer cells. It is noteworthy, however, that human cell lines available from public repositories are deposited with recommended media for optimal growth, and if cell lines to be compared are cultured on different growth media, this introduces a potentially serious confounding variable in metabolic profiling studies designed to identify intrinsic metabolic pathways active in each cell line.

Objectives

The goal of this study was to determine if the culture media used to grow human cell lines had a significant impact on the measured metabolic profiles.

Methods

NMR-based metabolic profiles of hydrophilic extracts of three human pancreatic cancer cell lines, AsPC-1, MiaPaCa-2 and Panc-1, were compared after culture on Dulbecco’s Modified Eagle Medium (DMEM) or Roswell Park Memorial Institute (RPMI-1640) medium.

Results

Comparisons of the same cell lines cultured on different media revealed that the concentrations of many metabolites depended strongly on the choice of culture media. Analyses of different cell lines grown on the same media revealed insight into their metabolic differences.

Conclusion

The choice of culture media can significantly impact metabolic profiles of human cell lines and should be considered an important variable when designing metabolic profiling studies. Also, the metabolic differences of cells cultured on media recommended for optimal growth in comparison to a second growth medium can reveal critical insight into metabolic pathways active in each cell line.

     

Inhibition of cell growth by bafilomycin A1, a selective inhibitor of vacuolar H+-ATPase

Summary Bafilomycin A₁, a potent selective inhibitor of vacuolar H⁺-ATPase, inhibited the growth of a variety of cultured cells dose-dependently, including golden hamster embryo and NIH-3T3 fibroblasts, whether or not they were transformed, and PC12 and HeLa cells. The concentration of bafilomycin A₁ for 50% inhibition of cell growth ranged from 10 to 50 nM. The dose response was nearly parallel with that of the bafilomycin A₁-induced lysosomal pH increase. The degree of pH increase for growth inhibition produced by bafilomycin A₁ was similar to that produced by NH₄Cl in which little difference was recognized in effect among cell types.     

Changes in the uptake of 2-deoxy-D-glucose in BALB-3T3 cells chemically transformed in culture

Balb/3T3 cells transformed in culture by chemical carcinogens were shown to multiply in a medium supplemented with 2% calf serum or with 10% agamma new-born calf serum. The cell lines that multiply well in medium supplemented with 10% agamma serum produced a higher incidence of tumors in X-irradiated weanling mice than the lines that multiply poorly. The difference in 2-deoxy-D-glucose uptake into exponentially growing transformed and un-transformed cells was 50–100%. In crowded cultures untransformed Balb/3T3 cells ceased taking up the sugar, while chemically transformed cells continued at the same rate even at high cell densities; thus, the difference became greater in crowded cultures. When the serum concentration in the media was reduced from 10% to 2%, untransformed Balb/3T3 cells took up the sugar at a reduced rate, while chemically transformed cells were only slightly affected; agamma new born calf serum supplemented medium had no effect on sugar uptake in any of the cells. When the serum concentration was changed from 2% to 10%, untransformed cells increased sugar uptake followed by cell division. The immediacy (within 15 min) of the response in the sugar uptake to 10% serum concentration suggested that the increased uptake rate and the consequent higher concentration of the sugar (D-glucose in normal situation) within Balb/3T3 cells triggered the cell cycle. Chemical carcinogens appear to alter permanently the uptake mechanism for a key nutrient.     

Differential effect of αdifluoromethyl-ornithine on the proliferation of balb 3T3 and chemically transformed 3T3 cells

In order to study the effect of polyamine depletion on growth and proliferation of untransformed and chemically transformed cells, α-difluoromethyl-ornithine (DFMO) was added to cultures of 3T3 cells and their benzo[a]pyrene derivative BP-3T3. Both types of cells stopped their proliferation after 72 hr of treatment with the inhibitor. When DFMO was removed and cells were cultivated afterwards in fresh medium without the drug, untransformed cells resumed growth after a lag period, whereas transformed cells were unable to proliferate unless exogenous polyamine was added. These alterations showed a strict correlation with intracellular polyamine pools, since after removal of DFMO from the culture medium, polyamine concentrations increased to almost normal values in 3T3 cells, but remained at low levels or decreased even more in the transformed cells BP-3T3. The analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of labeled proteins of both cell extracts has indicated that the described control of cell proliferation by intracellular polyamine levels might be related to the synthesis of at least two proteins with molecular weights of about 36,000 and 55,000 daltons.     

Metabolic responses of Taxus media transformed cell cultures to the addition of methyl jasmonate

Dedifferentiated Taxus media cell cultures presenting the same genetic characteristics as the parent culture were established from transformed roots. Two transformed cell lines were studied: Rol C, carrying the T‐DNA of A. rhizogenes 9,402 and TXS, carrying both the T‐DNA of A. rhizogenes and the txs transgene of T. baccata under the control of the 35S CaMV promoter. In the second part of a previously optimized two‐stage system, the transformed cell lines were cultured in a production medium supplemented with the elicitor methyl jasmonate. Taxane production in the transformed cultures was compared with an untransformed T. media cell line cultured in the same conditions. The highest taxane production was observed in the TXS cell line when cultured in the optimized production medium with methyl jasmonate, being 265% greater than in the untransformed control and 170% greater than in the Rol C cell line. However, txs expression and the activity of the enzyme taxadiene synthase in the TXS cells were lower than in the line carrying only the rol genes (Rol C). It is also noteworthy that the taxane production as well as the txs gene expression and TXS activity in all the cell lines, both transformed and untransformed, were clearly dependent on the elicitor action. © 2010 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Incorporation of [15N]Ammonia by the Cellulolytic Ruminal Bacteria Fibrobacter succinogenes BL2, Ruminococcus albus SY3, and Ruminococcus flavefaciens 17

The origin of cell nitrogen and amino acid nitrogen during growth of ruminal cellulolytic bacteria in different growth media was investigated by using ¹⁵NH₃. At high concentrations of peptides (Trypticase, 10 g/liter) and amino acids (15.5 g/liter), significant amounts of cell nitrogen of Fibrobacter succinogenes BL2 (51%), Ruminococcus flavefaciens 17 (43%), and Ruminococcus albus SY3 (46%) were derived from non-NH₃-N. With peptides at 1 g/liter, a mean of 80% of cell nitrogen was from NH₃. More cell nitrogen was formed from NH₃ during growth on cellobiose compared with growth on cellulose in all media. Phenylalanine was essential for F. succinogenes, and its ¹⁵N enrichment declined more than that of other amino acids in all species when amino acids were added to the medium.     

Vitamin K3 (menadione) inhibits the growth of mammalian tumor cells in culture

The effects of vitamin K on the morphology and the growth of mouse neuroblastoma (P₂), mouse melanoma (B-16) and rat glioma (C-6) cells in culture were studied. Vitamin K₃ inhibited the growth (due to cell death and partial or complete inhibition of cell division) of all three cell types without causing any morphological differentiation. Vitamin K₃ was more effective than vitamin K₁. Neuroblastoma cells were more sensitive to vitamin K₃ than were melanoma or glioma cells. Glioma cells did not grow in hormone-supplemented serum-free medium; however, both neuroblastoma and melanoma cells grew to a level 70–80% of that found in serum-supplemented medium. Neuroblastoma cells and melanoma cells cultured in serum-free medium exhibited a 2–3 fold higher sensitivity to vitamin K₃ than those cultured in serum-supplemented medium. This suggests that serum factors attenuate the growth inhibitory effect of vitamin K₃ on tumor cells in culture, probably by reducing the availability of this vitamin to the cells. Neuroblastoma cells were more sensitive to vitamin K₃ than were melanoma cells even when they were treated in serum-free medium. The fact that micromolar concentrations of vitamin K₃ inhibit the growth of tumor cells in culture suggests that this vitamin may be a potentially useful anticancer agent.