Differential sugar uptake by cell suspension cultures of <Emphasis Type="Italic">Rudgea jasminoides</Emphasis>, a tropical woody Rubiaceae

The primary utilization of carbohydrates by cell suspension cultures of Rudgea jasminoides, a native woody Rubiaceae from tropical forests, was investigated. Sucrose, glucose + fructose, glucose, or fructose were supplied as carbon sources. The growth curves of R. jasminoides cultured in glucose + fructose, glucose, or fructose showed similar patterns to that observed when sucrose was supplied to the cells, except that an increase in dry mass was observed at the beginning of the stationary growth phase in the media containing only one monosaccharide. The increase in hexose levels in the media during the early stages of the cultures indicated extracellular hydrolysis of sucrose, which was further supported by the increase in the activity of acid invertase bound to the cell wall. Glucose was preferentially taken up, whereas uptake of fructose was delayed until glucose was nearly depleted from the medium. Measurements of intracellular sucrose content and cytoplasmatic and vacuolar invertases indicate that the enzymatic activity seems to be correlated with a decrease in the hexose flux into the cells of R. jasminoides. Our results indicate that the behavior of cell suspension cultures of R. jasminoides regarding sugar utilization seems to be similar to other dicotyledonous undifferentiated cell suspension cultures.     

Comparative use of fructose and glucose in human liver and fibroblastic cell cultures

Summary The effect of fructose as a substitute for glucose in cell culture media was investigated in human skin fibroblast and liver cell cultures. Cells were grown for between 2 and 10 days in identical flasks in four different media, containing 5.5, mmol·1⁻¹ and 27.5 mmol·I⁻¹ glucose and fructose, respectively. In the presence of fructose, cell growth was stimulated, but less in liver cells than fibroblasts. At Day 6, increases were observed in [³H]thymidine incorporation, protein levels, and amino acid consumption, and a reduction was noted in ATP levels. In media containing 5.5, mmol·1⁻¹ glucose or fructose, consumption of fructose was four times lower than that of glucose at Day 3 and did not rise until Day 6. In fructose media, the lactate production was very low (four to five times less than that of glucose) and the pH values were always higher. Some findings were different for the fibroblasts and liver cells, owing to the specific characteristics of these two cell types in culture; this applied especially to the effects of glucose and fructose concentrations of 27.5 mmol·1⁻¹. Several possible explanation for the stimulation of cell growth in fructose medium were discussed. This work was supported by grants for the Institut National de la Santé et de la Recherche Médicale (ATP 82-79-114) and the Unité d'Enseignement et de Recherche, Le Kremlin-Bicêtre, Université Paris-Sud (C. R. 848).     

Extracellular Carbohydrates and Polysaccharides of the Alga Chlorella pyrenoidosa Chick S-39

In the growing culture of the thermophilic alga Chlorella pyrenoidosa Chick S-39, the amount of extracellular carbohydrates in the medium reached 5–17% of their content in the cells and 20–40% of the total content of extracellular organic matter. Experiments with the enrichment and synchronous algal cultures showed that the accumulation of extracellular carbohydrates and polysaccharides in the media occurred due to their release from the cells, rather than to cell lysis, and depended on cell photosynthetic activity and reproduction. Chromatographic determination of free sugars revealed the presence of saccharose, glucose, and fructose in the culture medium. Extracellular carbohydrates in C. pyrenoidosa cultures were represented mainly by water-soluble polysaccharides containing galactose, mannose, arabinose, xylose, ribose, fucose, and rhamnose.     

The Growth of Acer pseudoplatanus Cells in a Synthetic Liquid Medium: Response to the Carbohydrate, Nitrogenous and Growth Hormone Constituents

A synthetic culture medium which supports a high level of growth of a scrially propagated cell suspension culture of Acer pseudoplatanus is described. The sucrose of this medium can be effectively replaced by glucose or fructose or a mixture of glucose and fructose or galactose or maltose or soluble starch. When the carbohydrate is glucose or fructose no other sugars appear in the culture medium in significant amounts. Glucose is absorbed in greater quantity than fructose from an equimolar mixture of these sugars. When sucrose is supplied both glucose and fructose appear in the medium. Glucose appears in maltose medium, and maltose and glucose in soluble starch medium. Under the standard conditions of culture, media containing 2 % sucrose or 2 % glucose become depleted of sugar before the 25th day of incubation. Enhanced yield of the cultures can be obtained by raising the initial sucrose concentration to 6 %. – A supply of nitrate is essential for maximum yield and healthy growth. Growth, in the presence of nitrate, is significantly enhanced by a supply of urea. Addition of casein hydrolysate or of a mixture of amino acids enhances growth in the presence of nitrate and urea and particularly when nitrate is omitted. – When kinetin is omitted or incorporated at the standard level (0.25 mg/I), 2,4-dichlorophenoxyacetic acid (2,4-D) at 1.0 mg/l is essential for continuation of growth at a high level. It cannot be replaced by indol-3yl-acetic acid (IAA). 1-naphthaleneacetic acid (NAA) at 10 mg/l permits of a low level of growth with abnormal aggregation. When the level of kinetin is raised to 10 mg/l a high level of growth occurs in the absence of added auxin but the cultures become brown and tend to show increasing aggregation on subculture.     

Comparative effects of glucose and fructose on growth and morphological aspects of cultured skin fibroblasts

The growth rate of human skin fibroblasts was evaluated when glucose was replaced by fructose in the culture medium. Four mediums containing respectively 5.5 mmol/l glucose (G1), 27.5 mmol/l glucose (G5), 5.5 mmol/l fructose (F1), and 27.5 mmol/fructose (F5) were used. Skin fibroblasts from fourteen subjects were continuously cultured for 20 days and the number of cells was counted at days 1, 3, 7, 10, 15 and 20 after plating. The morphological patterns were observed and compared, the pH values of the medium were calculated, as were hexose consumption and lactate production. The results established clear differences in cell growth, pH and morphology: up to day 7, the growth rate was lower in fructose than in glucose medium, and the pH values were higher. In addition, marked steatosis appeared, with increased pyruvate dehydrogenase (PDH) activity. After day 10, the mean values gave a significant increase in the number of cells grown in fructose mediums, even if variations occurred between different cell strains. This increase was accompanied by loss of density-dependent growth inhibition and a reduction in the quantity and size of the vacuoles caused by steatosis. These findings were also established for other cell types, like aponeurosis fibroblasts. In addition, the longevity of the strains increased. These observations indicate that intermediary metabolism is considerably influenced by the carbohydrate present in the cell culture medium and that there are also repercussions on the growth rate. Under our experimental conditions, metabolism pathways seemed to differ on day 7 and on day 20. The various metabolic events suggested by the differences in the pH values are now being studied in our laboratory.     

Fructose-induced enhanced mitogenicity of diploid human cells: Possible relationship with cell differentiation

Summary Fructose strongly stimulates the growth of normal diploid human skin fibroblasts (SFs) and induces marked changes in their morphology and lipid accumulation. This mitogenic effect occurs despite very low fructose consumption and depends on the presence of glutamine. The cell kinetics of cultured fructose-fed human skin fibroblasts were different from those fed on glucose: in the presence of fructose a high proliferative index persisted at Day 14 of culture and the duration of the total cell cycle and of the G1+1/2 M and S phases was slightly shorter. The mitogenic effect of fructose on SF was largest in the presence of human serum: it was small or undetectable when fibroblasts were cultured in media supplemented with dialyzed human serum, fetal bovine serum, or serum substitutes. This suggests that serum growth factor(s) mediate the mitogenic effect of fructose. Only normal diploid human cells seem to be sensitive to this mitogenic effect of fructose: the long-term growth of normal human liver cells on fructose was slightly better or similar to that on glucose. In contrast, fructose could only support limited growth of hamster fibroblastic Nil cells and of a transformed human fibroblastic line, which grew better with glucose.     

Differential effect of hexoses on hamster embryo development in culture

The effects of glucose, fructose, and galactose on hamster embryo development in the absence of phosphate were studied in culture. One- and two-cell embryos were cultured to the blastocyst stage in HECM-9 medium without hexose or in medium with increasing concentrations of hexoses. Embryo development, cell number, and cell allocation were assessed in blastocysts. Blastocyst viability was determined by transfer to pseudopregnant recipients. Although 0.25 mM fructose increased mean cell number, low glucose concentrations had no stimulatory effect on development to blastocyst. Both galactose and 5.0 mM glucose were detrimental to embryos. Addition of 0.5 mM glucose increased implantation and fetal viability as compared with controls. Compared with 0.5 mM glucose, treatment with 0.25 mM fructose gave similar implantation and fetal viability, whereas 5.0 mM glucose tended to decrease implantation and significantly decreased fetal development. These data demonstrate that morphology is a poor indicator of embryo viability and that exposure of preimplantation embryos to glucose or fructose is important for embryo viability post-transfer. Although no difference in blastocyst viability was detected between embryos cultured with 0.25 mM fructose and those cultured with 0.5 mM glucose, increased cell numbers obtained with fructose suggest that fructose may be more appropriate than glucose for inclusion in culture medium.     

Carbohydrate and amino acid requirements and ammonia production of rabbit follicular oocytes matured in vitro.

Rabbit follicular oocytes were cultured at 37 °C for 18–24 h in a basic salt medium containing 0.4% bovine serum albumin (BSA), carbohydrates and amino acids in various combinations. Osmolarity of the medium was maintained at 308 mOsm. The carbohydrates, pyruvate, lactate and glucose were all about equally beneficial, but not essential for rabbit oocyte maturation. Glutamine and proline, but not methionine or phenylalanine stimulated oocyte development. Glutamine stimulated more follicular oocytes to develop to prophase and metaphase II than did any of the three carbohydrates tested alone or in combination. Ammonia production after 24 h of culture was highest in media containing glutamine (15.2 μg/ml) but this was not inhibitory to maturation. Negligible amounts of ammonia were found with the other amino acids added. With 0, 0.08, 0.4, 2, 10 and 50 mM of glutamine in the basic salt medium, plus 0.4 % BSA, but without carbohydrates, 30, 73, 70, 71, 59 and 45 % of the follicular oocytes developed to the prophase or metaphase II stage. It is concluded that the optimum level of glutamine ranged from 0.08 to 2 mM and that no carbohydrate need be added to the medium for culturing oocytes when glutamine is included.     

Polysaccharide production in liquid cell suspension cultures of Phleum pratense L.

The production of carbohydrates by cell suspension cultures of Phleum pratense (timothy grass) is described. Extracellular polysaccharides similar in monosaccharide composition to native cell wall polymers were accumulated, together with polymers of fructose (fructans). The fructans had similar properties to the intracellular reserve polymers found in intact plants, and were found in both cells and media of young, slow-growing cultures.Production of extracellular polysaccharides differed in cultures grown on sucrose or equimolar glucose/fructose as carbon source. These differences were observed only when autoclaved media were used, and were not related to changes in either pH or osmolarity. Autoclaving medium containing radioactive glucose and fructose produced a novel, unidentified labelled compound which was absent in medium containing labelled sucrose.     

Growth Profile of Crown Gall Cells of Tobacco in Suspension Culture

In order to obtain a basic information of plant cell suspension culture as a step toward the development of large scale culture, culture conditions of crown gall cells (auxin non-requiring cells) were investigated. Addition of yeast extract to culture medium was significantly effective for the growth and cell dispersion.

In experiments on the ability of the cultured cells to utilize sugars as the carbon source, it was observed that galactose, added to the culture medium, markedly inhibited the cell growth.

Pasteurization of the medium containing fructose as carbon source made it brownish by Maillard reaction and the medium apparently restrained the cell growth. However, the fructose medium sterilized by filtration was excellent for the cell growth as well as sucrose or glucose medium. In a jar fermentor, even the glucose medium became brownish by heat sterilization and the brown colored medium restrained the cell growth. Under optimum conditions, the doubling time was 1.1 day in exponential phase and 2.0 g of cell (dry weight) per 100 ml culture was obtained as the maximum yield.     

Microbial immunomodulators: mannoprotein constituents of<Emphasis Type="Underline">Candida albicans</Emphasis> with immunomodulatory activity in lymphocyte cultures of normal,glioma-bearing and HIV-infected subjects

The culture kinetics of human tumor kidney cells (TCL 598) grown on microcarriers are compared with media initially supplemented with either glucose alone or a mixture of galactose and glucose. Growth rates and maximal cell densities are similar, but cellular death is much slower in galactose than in glucose. Galactose is metabolized at a much slower specific rate than glucose. Cells grown in the galactose medium show a different pattern of lactate and pyruvate metabolism compared to cells grown in the glucose medium. Growth with galactose also favours oxidation of glutamine to alanine.     

Influence of different ammonium,lactate and glutamine concentrations on CCO cell growth

In this study the effects of ammonium and lactate on a culture of channel catfish ovary (CCO) cells were examined. We also made investigation on the influence of glutamine, since our previous research revealed that this amino acid stimulated CCO cell growth more than glucose in a concentration-dependent manner. The effect of ammonium in cell culture included the considerable decrease in cell growth rate with eventual growth arrest as well as the retardation of glucose consumption. At ammonium concentrations above 2.5 mM, the cells displayed specific morphological changes. The effect of lactate was different to that of ammonium since the cell growth rate was progressively decreasing with the increase of lactate concentration, whereas the glucose consumption rate remained almost unchanged. Besides that, it was found that lactate was steadily eliminated from the culture medium when its initial concentration was relatively high. The influence of glutamine on CCO cell propagation showed that nutrient requirements of this cell line were mainly dependent on glutamine rather than glucose. The increase in glutamine concentration led to the increase in cell growth rate and consequent ammonia accumulation while the glucose utilization and lactate production were reduced. Without glutamine in culture medium cell growth was arrested. However, the lack of glucose reversed the stimulating effect of glutamine by decreasing cell growth rate and affecting amino acid utilization.     

Effect of glucose concentration on the rate of fructose consumption in native strains isolated from the fermentation of Agave duranguensis

Studies on hexose consumption by Saccharomyces cerevisiae show that glucose is consumed faster than fructose when both are present (9:1 fructose to glucose) in the medium during the fermentation of Agave. The objective of this work was to select strains of S. cerevisiae that consume fructose equal to or faster than glucose at high fructose concentrations by analyzing the influence of different glucose concentrations on the fructose consumption rate. The optimal growth conditions were determined by a kinetics assay using high performance liquid chromatography (HPLC) using 50?g of glucose and 50?g of fructose per liter of synthetic medium containing peptone and yeast extract. Using the same substrate concentrations, strain ITD-00185 was shown to have a higher reaction rate for fructose over glucose. At 75?g of fructose and 25?g of glucose per liter, strain ITD-00185 had a productivity of 1.02 gL^?1?h^?1 after 40?h and a fructose rate constant of 0.071?h^?1. It was observed that glucose concentration positively influences fructose consumption when present in a 3:1 ratio of fructose to glucose. Therefore, adapted strains at high fructose concentrations could be used as an alternative to traditional fermentation processes.     

Growth characteristics of channel catfish ovary cells—influence of glucose and glutamine

The growth characteristics and influence of glucose and glutamine on the growth and maintenance of channel catfish ovary (CCO) cells were investigated. Besides glutamine, amino acids threonine, arginine, methionine and serine were found to be essential for CCO cell growth. In the glucose-free medium, glutamine is utilized as energy source and no cell growth limitation was observed. However, the lack of glutamine in culture medium did not stimulate CCO cells to efficient glucose consumption. When both glucose and glutamine were deficient, cell growth was also observed suggesting no rigorous nutritional requirements. Obtained results are useful for further understanding of culture processes using CCO cells.     

The role of glutamine, serum and energy factors in growth of enterocyte-like cell lines

Background: Glutamine is routinely added to most cell cultures. Glutamine has been found to be the preferential nutrient to the rapidly replicating intestinal mucosa, but whether this is a metabolic effect or due to other properties of this amino acid is not determined. To study the importance of glutamine on the growth of two enterocyte-like cell lines, the effects of depriving the media or supplementing it with glutamine were assessed in media with different serum and energy supplements. Methods: CaCo-2 and HT-29 cells were grown in serum-free medium, with fetal bovine or synthetic serum, and with or without glucose or galactose. The glutamine content was varied between 0 and 4 mM. All growth assays were performed in triplicate by counting in a hemocytometer. Results: Both cell lines were dependent of serum factors for growth, but displayed distinct requirements on glutamine supplementation. Glutamine was an obligate supplement with dose-dependent correlation to growth (r=0.87, p<0.01) for CaCo-2 cells cultured in synthetic, but not in fetal bovine serum. In HT-29 cells, the correlation between glutamine and growth was significant (r=0,68, p<0,05) only in fetal bovine serum in the absence of galactose. Conclusion: This study shows that glutamine has different growth stimulating effects on two enterocyte-like cell lines studied. This could reflect different modes of action of glutamine on proliferation and differentiation in an enterocyte cell population.     

Lactate: A major product of glutamine metabolism by human diploid fibroblasts

Human diploid fibroblasts metabolize up to 13% of the glutamine in tissue culture medium to lactate. Four μCi of glutamine-U-¹⁴C were added to media containing 5 mM or 65 μM glucose or medium containing no added glucose, but supplemented with purine and pyrimidine nucleosides (HGTU). Aliquots of the media were taken at daily intervals and were assayed for glucose, lactate, pyruvate, malate, citrate, aspartate, glutamine, and glutamate. The label incorporation into these compounds was determined, except for glutamine and glucose. The distribution of label from glutamine-U¹⁴C in 5 mM glucose medium by day 4 was lactate (10.2%), glutamate (15.2%), citrate (1.9%), pyruvate (2.0%), malate (1.1%), and aspartate (< 0.1%). The accumulation of label in lactate and glutamate occurred continuously during the growth cycle. Malate, citrate, and aspartate accumulation occurred primarily in confluent cultures. The label in aspartate was seen only in stationary phase cells or when the glucose concentration was decreased to 65 μM or less; net aspartate accumulation was increased twofold in low glucose media. These data demonstrate an actively functioning pathway for the conversion of 4-carbon TCA-cycle intermediates to 3-carbon glycolytic intermediates in human diploid fibroblasts.     

Effects of glutamine supply on growth and metabolism of mammalian cells in chemostat culture

Glutamine is a major source of energy, carbon, and nitrogen for mammalian cells. The amount of glutamine present in commercial mammalian cell media is, however, not necessarily balanced with cell requirements. Therefore, the effects of glutamine limitation on the physiology of two mammalian cell lines were studied in steady-state chemostat cultures fed with IMDM medium with 5% serum. The cell lines used were MN12, a mouse-mouse hybridoma, and SP2/0-Ag14, a mouse myeloma often used in hybridoma fusions. Cultures, grown at a fixed dilution rate of 0.03 h(-1), were fed with media containing glutamine concentrations ranging from 0.5 to 4 mmol L(-1). Biomass dry weight and cell number were linearly proportional to the glutamine concentrations fed, between 0.5 and 2 mmol L(-1), and glutamine was completely consumed by both cell lines. From this it was concluded that glutamine was the growth-limiting substrate in this concentration range and that the standard formulation of IMDM medium contains a twofold excess of glutamine. In glutamine-limited cultures, the specific rates of ammonia and alanine production were low compared to glutamine-excess cultures containing 4 mmol L(-1) glutamine in the feed medium. The specific consumption rates of nearly all amino acids decreased with increasing glutamine feed, indicating that, in their metabolic function, they may partially be replaced by glutamine. Both cell lines reacted similarly to differences in glutamine feeding in all aspects investigated, except for glucose metabolism, In SP2/0-Ag14 glutamine feed concentrations did not affect the specific glucose consumption, whereas in MN12 this parameter increased with increasing amounts of glutamine fed. This systematic study using controlled culture conditions together with a detailed analysis of culture data shows that, although cells may react similarly in many aspects, cell-line-specific characteristics may be encountered even with respect to fundamental physiological responses like the interaction of the glutamine and glucose metabolism. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 54: 272-286, 1997.     

Regulation of sugar transport in cultured diploid human skin fibroblasts

The regulation of hexose transport under glucose-starvation conditions was studied in cultured human skin fibroblasts. Glucose starvation enhanced the transport of 2-DG and 3-O-methyl-D-glucose (3-OMG) but not of L-glucose. Glucose-starvation enhanced transport was inhibited by cytochalasin B (10 μM). The starvation-induced change in 2-DG transport was due to an increase in the V_max of both the high and low affinity transport sites (2.8- and 2.4-fold, respectively) with no effect on their K_ms. The presence of 5.55 mM galactose, fructose, or L-glucose in the medium resulted in transport increases similar to those seen in glucose-starved cells, while the presence of 5.55 mM glucose, mannose, or 3-OMG repressed 2-DG transport. Glucose-starvation enhancement of 2-DG transport was blocked by cycloheximide (20 μg/ml) but not by actinomycin D (0.03 μg/ml) or α-amanitin (3.5 μM). Readdition of glucose (5.55 mM) for six hours to glucose-starved cells led to a rapid decrease in hexose transport that could be blocked by cycloheximide but not actinomycin D. Although readdition of 3-OMG to glucose-starved cells had little effect on reversing the transport increases, glucose plus 3-OMG were more effective than glucose alone. Serum containing cultures (10% v/v) of glucose-fed or glucose-starved cells exhibited rapid decreases in 2-DG transport when exposed to glucose-containing serum-free medium. These decreases were prevented by employing glucose-free, serum-free medium. The data indicate that hexose transport regulation in cultured human fibrob asts involves protein synthesis of hexose carriers balanced by interactions of glucose with a regulatory protein(s) and glucose metabolism as they affect the regulation and/or turnover of the carrier molecules.     

Carbohydrate utilisation by cell suspension cultures of Phaseolus vulgaris

Uptake of sugar by Phaseolus vulgaris cell suspension cultures from a sucrose supplemented medium is predominantly in the hexose form. This is due to a rapid cleavage of the sucrose by an apoplastic acid invertase activity and an apparent very low demand for and uptake of carbon from the medium prior to induction of cell growth and division. Glucose is preferentially taken up, leading to an accumulation of fructose in the medium. However, when the glucose is depleted the cells do take up the fructose at a rate similar to that of glucose. When glucose or fructose is supplied individually to cell cultures, both are utilised very efficiently with growth slightly better on the fructose medium. Hexose uptake is largely an active process with diffusion uptake even at the highest concentrations (> 50 m M ) contributing less than 30%. The hexose uptake system of the cells has a greater affinity for glucose (K_m= 240 µ M ) than for fructose (K_m= 960 µ M ) but the maximum uptake (V_max) is similar. The major difference in the kinetic properties of hexose uptake is that glucose is a strong inhibitor of fructose uptake, while fructose has little effect on glucose uptake. The differences in the kinetic properties of the uptake system for the two hexoses can largely explain the observed pattern of hexose utilisation when both glucose and fructose are present in the medium.     

Altered expression of sialylated carbohydrate antigens in HT29 colonic carcinoma cells

To determine whether cell growth conditions impacted carbohydrate expression, HT29 cells were gradually transferred from a conventional glucose-containing media to a glucose-free galactose containing media. Indirect immunofluorescence on acetone fixed cells showed increased expression of sialyl Lewis A antigen (CA19-9), sialyl Lewis C (DUPAN2) and Tn/sialyl-Tn on the surface of HT29 cells grown in the glucose-free galactose containing media compared to those grown in the glucose containing media. Sialyltransferases responsible for the synthesis for these sialylated epitopes were increased in the galactose-fed HT29 cells. Media overlying the cells was subjected to isopycnic ultracentrifugation in cesium chloride and the fractions derived from both glucose and galactose media with equivalent buoyant densities of 1.56 g/L, which are predicted to contain mucin glycoforms, were further separated by HPLC using a Mono-Q anion exchange column. The chromatograph of eluent from the sample derived from the cells growing in the galactose containing media showed an increased peak that reacted with the anti-sialyl Lewis A antibody, CA19-9. These results show that alteration of in vitro culture conditions may cause HT29 colonic carcinoma cells to alter the expression of sialylated carbohydrates.