Regulation of phosphoglycerate dehydrogenase levels and effect on serine synthesis in Escherichia coli K-12.

The level of phosphoglycerate dehydrogenase, the first enzyme in the biosynthetic pathway to serine and glycine, has been studied in Escherichia coli grown under different conditions. The enzyme level was not reduced by growth in a medium which contained the end products of the pathway, nor was it elevated when the growth rates was limited by the supply of serine. Elevation of phosphoglycerate dehydrogenase did not occur when charging of tRNA ser was inhibited by serine hydroxamate. However, phosphoglycerate dehydrogenase levels were subject to regulation. Elevated levels of enzyme activity were observed in merodiploids containing multiple copies of the serA gene, and lowered enzyme levels were found in cells grown on carbon sources other than glucose or when certain amino acids were present in the growth medium. The combined effect of these nutritional changes (carbon source and amino acids) reduced the level of phosphoglycerate dehydrogenase to 10 to 12% of that found in wild-type cells and to about 5% of the level in the merodiploids. By using antibody prepared against purified phosphoglycerate dehydrogenase we established that the decrease in enzyme activity reflected decreased amounts of enzyme protein. Constant intracellular concentrations of 3-phosphoglycerate and serine were found in cells with marked differences in phosphoglycerate dehydrogenase activity, indicating that end product inhibition of phosphoglycerate dehydrogenase activity, rather than the amount of the biosynthetic enzymes, is the major factor in regulating the intracellular concentration of serine.     

Protein synthesis in central nervous tissue: studies on retina in vitro

Rabbit retinas were maintained in vitro in medium that resembled CSF but with leucine varied from 2 to 1000 microM. Both leucine and threonine were isotopically labelled. When leucine in the medium was 100-1000 microM, leucine was incorporated into protein at 2.03 +/- 0.04 (S.E.M.) mumol/g dry wt./h, a turnover per h of 0.55% of the leucine in retinal protein. Incorporation was constant for at least 7 h. It was reduced 34% when the other amino acids were omitted from the medium and 24% when they were increased 15 fold above physiological levels. When medium leucine was reduced to 2 microM with other amino acids constant, 14C-leucine incorporation fell 70% without significant change in 3H-threonine incorporation, indicating a fall in intracellular specific activity of leucine. The intracellular/extracellular concentration ratio of labelled leucine was 4:1 with medium leucine 23 microM. It fell markedly when medium leucine was reduced to 2 microM or increased to 1000 microM. The concentration ratio of labelled threonine was 15:1 with medium leucine at physiological levels but fell to 6:1 when medium leucine was increased to 1000 microM. Decarboxylation removed 1.5% of free intracellular leucine per min and, at physiological concentrations, was 7.7% the rate of protein incorporation. The ratio of protein synthesis/breakdown, estimated from changes in leucine and 7 other essential amino acids in the medium, was nearly unity. The potential of this preparation for study of CNS protein metabolism is discussed.     

Effects of serine and glycine on proliferation of an Ishikawa cell variant

The proliferation of cells on an Ishikawa human endometrial adenocarcinoma line variant (Ishikawa-Var I) is markedly influenced by the medium used to culture them, viz. MEM vs BM (basal medium; DMEM/Ham's F12, 1/1, with additional glutamine and HETES), under serum-free conditions. Components of BM which are not present in MEM were systematically tested in order to identify those that might account for these differences. Cells were cultured for various periods of time, up to 8 days, in serum-free MEM to which the components to be tested were added. Cell population densities were evaluated using a fluorometric DNA assay when the cells were grown in multiwell plates, or by cell counting when the cells were cultured in plastic dishes. It was found that addition to MEM of a mixture of the amino acids that this medium lacks, significantly increased cell density. By testing individual amino acids at the concentrations present in BM, it could be demonstrated that addition of serine alone was sufficient to obtain the densities achieved with BM. Glycine, a metabolic precursor of serine, had a similar but smaller effect. None of the other missing compounds of BM was effective. Effects of serine on DNA synthesis were also estimated by measuring incorporation of [3H]thymidine for 1 h after a 24 h culture period in MEM. The effect of serine was similar and additive to that of 1% charcoal-treated fetal bovine serum. A serine concentration dependence studied either with this method or measuring DNA/well after 8 days in culture showed detectable effects at 0.005 mM concentration and maximal responses at about 0.025 mM. These findings are of potential importance in studies on regulatory mechanisms of cell proliferation. A possibility to be explored, for instance, is that serine added to the medium increases intracellular phosphatidylserine concentrations leading to increases in the activity of protein kinase C, a stimulator of cell proliferation in some systems.     

Substrate-dependent regulation of intracellular amino acid concentrations in cultured bovine aortic endothelial cells

Amino acid deprivation induces adaptive changes in amino acid transport and the intracellular amino acid pool in cultured cells. In this study intracellular amino acid levels were determined in cultured bovine aortic endothelial cells (EC) deprived of L-arginine or total amino acids for 1, 3, 6 and 24 h. Amino acid concentrations were analyzed by reverse phase HPLC after precolumn derivatisation. Under normal culture conditions levels of L-arginine L-citrulline, total essential and non-essential amino acids were 840 +/- 90 microM, 150 +/- 40 microM, 11.4 +/- 0.9 mM and 53.3 +/- 3.4 mM (n = 9), respectively. In EC deprived of L-arginine or all amino acids for 24 h L-arginine and L-citrulline levels were 200 microM and 50 microM, and 670 microM and 100 microM Deprivation of L-arginine or total amino acids induced rapid (1 h) decreases (30 - 50%) in the levels of other cationic (lysine, ornithine) and essential branched-chain (valine, isoleucine, leucine) and aromatic (phenylalanine, tryptophan) amino acids. L-glutamine was reduced markedly in EC deprived of total amino acids for 1 h - 6 h but actually increased 3-fold in EC deprived of L-arginine for 6 h or 24 h. Arginine deprivation resulted in a rapid decrease in the total intracellular amino acid pool, however concentrations were restored after 24 h. Increased amino acid transport and/or reduced protein synthesis may account for the restoration of amino acid levels in EC deprived of L-arginine. The sustained reduction in the free amino acid pool of EC deprived of all amino acids may reflect utilization of intracellular amino acids for protein synthesis.     

Folate deprivation reduces homocysteine remethylation in a human intestinal epithelial cell culture model: role of serine in one-carbon donation

Little is known about homocysteine metabolism in intestine. To address this question, we investigated homocysteine metabolism under conditions of folate adequacy and folate deprivation in the Caco-2 cell line, a model of human intestinal mucosal cells. Caco-2 cells were cultured in media enriched with [3-(13)C]serine and [U-(13)C(5)]methionine tracers, and enrichments of intracellular free amino acid pools of these amino acids as well as homocysteine, cystathionine, and cysteine were measured by using gas chromatography/mass spectrometry. Homocysteine transsulfuration plus folate-dependent and total remethylation were quantified from these amino acid enrichments. Homocysteine remethylation accounted for 19% of the intracellular free methionine pool in cells cultured with supplemental folate, and nearly all one-carbon units used for remethylation originated from the three carbon of serine via folate-dependent remethylation. Labeling of cystathionine and cysteine indicated the presence of a complete transsulfuration pathway in Caco-2 cells, and this pathway produced 13% of the intracellular free cysteine pool. Appearance of labeled homocysteine and cystathionine in culture medium suggests export of these metabolites from intestinal cells. Remethylation was reduced by one-third in folate-restricted cell cultures (P < 0.001), and only approximately 50% of the one-carbon units used for remethylation originated from the three carbon of serine under these conditions. In conclusion, the three carbon of serine is the primary source of one-carbon units used for homocysteine remethylation in folate-supplemented Caco-2 cell cultures. Remethylation is reduced as a result of folate restriction in this mucosal cell model, and one-carbon sources other than the three carbon of serine contribute to remethylation under this condition.     

The effect of the antibiotic AL-87 on the amino acid yield from Staphylococcus aureus 209P cells]

Antibiotic AL-87 has been studied for its effect on the composition of intracellular free amino acids and of amino acids in culture fluid of Staphylococcus aureus 209 P. It is established that the content of amino acids in the culture fluid of S. aureus 209 P is doubled due to antibiotics, while the content of intracellular free amino acids considerably decreases. Spectrum of free amino acids of S. aureus 209 P is presented by 17 basic amino acids. When there is a sub-bacteriostatic concentration of the antibiotic in the medium all free amino acids tend to leave the cells, the content of aspartic acid, serine, threonine and leucine in the medium being increased. Data obtained when studying the effect of antibiotic AL-87 on the composition of free amino acids of Staphylococcus agree well with the previously obtained results from the study of the fatty acid composition of cells. In the light of these data it may be supposed that an increase of the membrane permeability and as a result of it an outlet of amino acids into the medium is one of constituents of the mechanism of antibiotic AL-87 action on Staphylococcus cells.     

The pleiotypic response to serine in erythroblastic leukemic cells

Erythroblastic leukemic (EBL) cells incubated in media containing essential amino acids, glutamine and serine incorporate more [3H]-leucine into protein than those incubated without serine. Cells incubated with serine contain higher intracellular serine concentrations and display increased rates of peptide chain initiation on polyribosomal profile analysis. Deficiency of serine inhibited protein synthesis more than deficiencies of most other single essential amino acids, but no further inhibition was seen when single essential amino acids were removed from serine deficient media. Serine also enhanced the uptake of [3H]-uridine and its transfer to RNA while several essential amino acids had no effect. We conclude that in EBL cells, serine is an essential amino acid and that exogenous repletion of intracellular concentrations induces a positive pleiotypic response. We have previously shown that after incubation with serine for 15 min. EBL cells have greater numbers of plasmalemma insulin receptors. Regulation of cell surface receptors may therefore comprise another limb of the pleiotypic response.     

Distribution of insulin receptors between plasmalemma and intracellular compartments: effect of amino acids

Insulin receptor regulation was studied in the rat erythroblastic leukemic (EBL) cell in primary culture. After 1-2-hr incubations in medium containing 12 essential amino acids, glutamine, and serine, EBL cell protein synthesis and insulin receptor concentrations were increased compared to cells incubated without serine. Deficiency of medium isoleucine in the presence of serine rapidly decreased protein synthesis and insulin binding to intact cells. Supplementation of deficient media with serine or isoleucine had no effect on total insulin receptor numbers measured in solubilized cell preparations. Increased insulin binding following serine exposure was seen with binding assays at both 4 and 37 degrees C. Dissociation experiments to quantitate intracellular ligand after 37 degrees C binding assays showed increased in both surface binding and intracellular [125I]insulin accumulation. These data combined with previous observations suggest that amino acids essential for this cell are required for the rapid synthesis of a labile regulatory protein which facilitates the redistribution and/or recycling of insulin receptors.     

Photoautotrophic growth of soybean cells in suspension culture IV. Free amino acid pools and the effect of nitrogen on chlorophyll levels

A photoautotrophic soybean suspension culture was used to study free amino acid pools during a subculture cycle. Free amino acid analysis showed that the intracellular concentrations of asparagine, serine, glutamine, and alanine reached peaks of 200, 10, 9 and 7 mM, respectively, at specific times in the 14-day subculture cycle. Asparagine and serine levels peaked at day 14 but glutamine level rose quickly after subculture, peaking at day three and then declined gradually. Roughly similar patterns were found in the conditioned culture medium although the levels were 1000-fold lower than those found in cells. Photoautotrophic (SB-P) and photomixotrophic (SB-M) cultures were quantitatively similar with regard to free asparagine and serine but not glutamine or free ammonia. Heterotrophic (SB-H) cells had 81–85% less free asparagine on day seven than did SB-M or SB-P cells. Hence, similar to the phloem sap of a soybean plant, asparagine, glutamine, alanine and serine were the predominant amino acids in photoautotrophic soybean cell cultures. Varying the amount of total nitrogen in culture medium for two subcultures at 10, 25, 50, and 100% Of normal levels showed that growth was inhibited only at the 10 and 25% levels but that growth on medium containing 50% of the normal nitrogen was as good as that on 100% nitrogen. Moreover, cellular chlorophyll content correlated exceptionally well with initial nitrogen content of the medium. Thus, the photosynthesis of SB-P cells was not limited by chlorophyll content. SB-P cells grown for two subcultures on 10% nitrogen contained very low free amino acid levels and only 1% of the free ammonia levels found in cells growing on a full nitrogen complement.Abbreviations SB-P photoautotrophic soybean cells (no sucrose, high CO₂, high light) - SB-M photomixotrophic soybean cells (1% w/v sucrose, high light) - SB-H heterotrophic soybean cells (3% sucrose, dark)     

Glutathione Content as an Indicator for the Presence of Metabolic Pathways of Amino Acids in Astroglial Cultures

Abstract: The intracellular content of glutathione in astroglia-rich primary cultures derived from the brains of newborn rats was measured to be 32.1 ± 5.4 nmol/mg of protein. During a 24-h incubation in a minimal medium lacking amino acids and glucose, the content of glutathione in these cultures was reduced to 52% of the original content. On refeeding of glucose, glutamate, glycine, and cysteine, glutathione was resynthesized. A maximal content of glutathione was found 4 h after refeeding, exceeding the amount of glutathione of untreated cultures by 72%. Maximal glutathione synthesis was observed only if glutamate, cysteine, and glycine were present. If successively each one of these amino acids was made limiting for the synthesis of glutathione, half-maximal contents of glutathione were found at 0.2 m M glutamate, 20 µ M cysteine, or 10 µ M glycine. Replacement of glutamate or glycine by other amino acids revealed the potential of astroglial cells to convert glutamine, aspartate, asparagine, proline, and ornithine into glutamate, and serine into glycine. These results demonstrate that the concentration of intracellular glutathione can serve as an indicator for the presence of metabolic pathways of amino acids in cultured cells.     

Uptake and handling of iron from transferrin, lactoferrin and immune complexes by a macrophage cell line.

The murine macrophage-like cell line P388D1 has been used as a model to investigate whether iron acquired simultaneously from different sources (transferrin, lactoferrin, and ovotransferrin-anti-ovotransferrin immune complexes) is handled in the same way. P388D1 cells bound both lactoferrin and transferrin, but over a 6 h incubation period only the latter actually donated iron to the cells. When the cells were incubated with [55Fe]transferrin and [59Fe]ovotransferrin-anti-ovotransferrin immune complexes iron was acquired from both sources. However, there was a difference in the intracellular distribution of the two isotopes, proportionally more 55Fe entering haem compounds and less entering ferritin. When the cells were precultured in a low-iron serum-free medium almost no transferrin-iron was incorporated into ferritin, whereas the proportion of immune complex-derived iron incorporated into ferritin was unchanged. Lactoferrin enhanced the rate of cellular proliferation, as measured by [3H]thymidine incorporation, despite its inability to donate iron to the cells, suggesting a stimulatory effect independent of iron donation. In contrast immune complexes inhibited cell proliferation. These findings indicate that iron acquired from transferrin and iron acquired by scavenging mechanisms are handled differently, and suggest that more than one intracellular iron transit pool may exist.     

Modulation of cellular heat sensitivity by specific amino acids

When either plateau-phase or exponentially growing Chinese hamster ovary (CHO) cells are incubated in amino acid-free medium, the cells become sensitized to killing by heat. For cells deprived of amino acids for 12 h survival decreases from 1 X 10(-2) for controls to 1 X 10(-6) for the deprived cells, following heating at 45 degrees C for 38 min. The survival of these sensitized cells is rapidly increased by the addition of a single amino acid just prior to heating. Of the 21 amino acids which are added in purified form to make McCoy's 5a medium, 12 show no protective effect, four have a small protective effect, and either alanine, asparagine, glutamine, serine, or theronine raise survival to a level similar to that of the control cells. The nonmetabolizable alanine analogue, 2-aminoisobutyric acid (AIB), increases survival of amino acid-deprived cells as effectively as each member of the group of five listed above, suggesting that metabolic conversion of the amino acids is not required for their protective effect. The data suggest that an increase in the intracellular concentrations of specific amino acids, independent of any change in cellular ATP content or the rate of protein synthesis, enables these cells to become quickly more resistant to killing by heat. We also conclude that the amino acid concentrations in poorly vascularized regions of some tumors should be considered, along with the oxygen, glucose, and proton concentrations, as factors which determine cellular survival following hyperthermia.     

Reduced-folate carrier (RFC) is expressed in placenta and yolk sac,as well as in cells of the developing forebrain,hindbrain, neural tube,craniofacial region,eye, limb buds and heart

Background  

Folate is essential for cellular proliferation and tissue regeneration. As mammalian cells cannot synthesize folates de novo, tightly regulated cellular uptake processes have evolved to sustain sufficient levels of intracellular tetrahydrofolate cofactors to support biosynthesis of purines, pyrimidines, and some amino acids (serine, methionine). Though reduced-folate carrier (RFC) is one of the major proteins mediating folate transport, knowledge of the developmental expression of RFC is lacking. We utilized in situ hybridization and immunolocalization to determine the developmental distribution of RFC message and protein, respectively.     

Dual effect of amino acids on the development of intracellular proteolytic activity in the irreversible sporulation phase ofBacillus megaterium

Amino acids added to a population ofBacillus megaterium immediately after its transfer to a sporulation medium stimulated growth, delayed sporulation by 1 h, and delayed the development of intracellular cytoplasmic serine proteinase (ISP) activity. However, the ISP activity in late sporulation stages exceeded twice that of the control population. Amino acids supplemented at T₃, i.e., at the time when engulfed forespores were developing, caused a decrease of specific ISP activity. The course of the phenylmethane sulfonyl fluoride (PMSF)-resistant activity in the cytoplasm was not affected by amino acids. Intracellular degradation of proteins prelabeled at the end of the growth phase was decreased by amino acids during the reversible sporulation phase but was only slightly affected later.     

Cytochalasin B releases a major surface-associated glycoprotein, fibronectin, from cultured fibroblasts

BHK21 cells cultured in minimal essential medium (Eagle) supplemented with 10% dialyzed fetal calf serum did not grow as they did in whole serum containing medium. Logarithmic growth was, however, initiated after a lag period, the length of which was dependent upon the cell density: medium volume ratio. The quiescent cells conditioned the medium during this lag period, and growth stimulation was apparently due to the release of serine into the medium. Cells cultured in 10% dialyzed serum plus the low molecular weight fraction of serum (serum dialysate), grew with kinetics similar to cells cultured in serum containing medium. When serum dialysate was chromatographed on Bio-gel P-2 the growth promoting activity eluted with the amino acids. Each of the non-essential amino acids was tested for its ability to stimulate the growth of cells in 10% dialyzed serum. Serine was capable of stimulating cell growth to the same extent as 10% serum dialysate and its concentration optimum was similar to its concentration in 10% serum dialysate. The remaining non-essential amino acids were either slightly stimulatory or had no effect on cell growth. Shifting a logarithmically growing population of cells to serine-free medium resulted in the accumulation of 95% of the cells in the G1 phase of the cell cycle within 24 h. Escape from the G1 block could occur if serine was added to the medium or if the cells were allowed to condition the medium. Entry of cells into S phase after the addition of 0.05 μmoles/ml of serine followed a 4–6 h lag and 80% of the cells were synthesizing DNA 12 h after shift-up.     

The amino acid requirements of rabbit fibroblasts,strain RM3-56

Strain RM3-56 of rabbit fibroblasts was found to require arginine, cystine, glutamine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, serine, threonine, tryptophan, tyrosine, and valine for growth in a medium containing 2 per cent dialyzed serum as the only undefined component. The requirement for serine is less specific than that of the other 13 amino acids and it is partially replaced by glycine, or alanine, or by several combinations of so called accessory amino acids. The concentrations of essential amino acids which permit maximal proliferation range from 0.005 to 0.3 mM. Cystine, glutamine, lysine, tryptophan, tyrosine, valine are toxic at concentrations of 5 mM. The rate of proliferation of RM3-56 in a medium containing all 14 essential amino acids is increased significantly by the addition of alanine and to a lesser extent by the addition of aspartic and glutamic acids and glycine. A deficiency of cystine or glutamine results in cellular degeneration within 3 to 5 days, whereas the cells remain in good condition for 2 to 3 weeks in the absence of each of the remaining 12 essential amino acids. The results obtained with RM3-56 are compared with strains HeLa, L, and U12, whose amino acid requirements have been investigated under similar conditions.     

Regulation of Aspartokinase Isoenzyme Levels in Cultured Cells of Vinca rosea

The levels of aspartokinase isoenzymes were followed as a functionof days after transfer of V. rosea cells to fresh medium. Whencells were subcultured in a 7-day cycle, both isoenzymes showedpeaks at early, but not identical, stages of cell proliferation.Levels of the intracellular amino acids lysine, threonine, isoleucineand methionine decreased as the cellular level of protein increased.As soon as the increase in protein ceased, the amino acid levelbegan to increase. The stationary cells accumulated large amountsof free amino acids. When late stationary cells were used asthe inoculum, growth was slow and, as expected, it took longerbefore the depletion of endogenous free amino acids and thedevelopment of aspartokinase isoenzymes was significantly retarded.These results are further evidence that the syntheses of aspartokinaseisoenzymes are under repression-derepression control in higherplants as they are in bacterial systems. (Received April 22, 1981; Accepted August 31, 1981)     

Isolation of highly multidrug-resistant P388 cells from drug-sensitive P388/S cells by flow cytometric cell sorting

To investigate the spontaneous frequency of occurrence of stable multidrug-resistant cells in a population of drug-sensitive cells, we exposed drug sensitive P388/S cells to daunorubicin (dnr) for 1 h, then used fluorescence-activated cell sorting based on intracellular dnr fluorescence to isolate cells within P388/S having different intracellular content of drug. One of the sort windows chosen (low dnr content sort window) isolated only P388/S cells with intracellular drug content equal to or less than that of the known multidrug-resistant subline P388/adr. This sort window constituted approximately 3% of P388/S cells with lowest dnr content. By such a procedure we were able, on one of seven attempts, to isolate and cultivate stable, highly multidrug-resistant cells (comparable to that of P388/adr) from the P388/S cells obtained from the low dnr-content sort window. Net growth of cells in culture was observed 15-20 days after sorting, indicating that of the P388/S cells collected from the low dnr-content sort window, very few were actually highly drug-resistant. On no occasion could resistant cells be cultivated from cells sorted from P388/S with higher dnr content, as would be expected if mutation to a multidrug-resistant phenotype had occurred as a result of exposure to drug. The resistant cells isolated from P388/S by sorting (called P388/LoSort) displayed low intracellular accumulation of dnr that was enhanced by verapamil, were cross-resistant to vincristine and actinomycin-D, and distinct from P388/S, possessed a 150- to 160-kD membrane species identified by Vinca alkaloid photoaffinity labeling.(ABSTRACT TRUNCATED AT 250 WORDS)