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.     

Stimulation of facilitated [3H]uridine transport by thyroid hormone in GH1 cells. Evidence for regulation by the thyroid hormone nuclear receptor

We have previously shown that 3,5,3'-triiodo-L-thyronine (L-T3) stimulates cell growth and a 4- to 8-fold increase in growth hormone mRNA in GH1 cells. These effects appear to be mediated by a thyroid hormone nuclear receptor with an equilibrium dissociation constant for L-T3 of 0.2 nM and an abundance of about 10,000 receptors per cell nucleus. In this report, we show that L-T3 exerts a pleiotypic effect on GH1 cells to rapidly (within 2 h) stimulate [3H]uridine uptake to a maximal value of 2.5- to 3-fold after 24 h. This results from an increase in the number of functional uridine "transport sites" as shown by studies documenting an increase in the apparent Vmax with no change in the Km, 17 microM. Although the labeling of the cellular uridine pool and pools of all phosphorylated uridine derivatives was increased by L-T3, there was no change in the relative amounts of the individual pools in cells incubated with or without hormone. The intracellular concentration of [3H]uridine was estimated to be similar to that of the medium, suggesting that facilitated transport mediates [3H]uridine uptake. That this increase in [3H]uridine transport was nuclear receptor-mediated is supported by the excellent correspondence of the L-T3 dose-response curve for [3H]uridine uptake and that for L-T3 binding to receptor. Finally, inhibition of protein synthesis by cycloheximide and RNA synthesis by actinomycin D demonstrated that the L-T3 effect required continuing protein and RNA synthesis. These results are consistent with an effect of the L-T3-nuclear receptor complex to increase uridine uptake in GH1 cells by altering the expression of gene(s) essential for the transport process.     

The effects of electrical stimulation and ionic alterations on the metabolism of amino acids and proteins in excised superior cervical ganglia of the rat

Abstract— The effects of supramaximal electrical stimulation on the metabolism of amino acids and proteins in incubated superior cervical ganglia of the rat were studied by the use of a gas-liquid chromatographic (GLC) assay procedure. Stimulation at 5 Hz for 2 h caused an apparent increase in tissue levels of free amino acids, with alanine, serine, glycine, valine, threonine, isoleucine and aspartate (+ asparagine) most noticeably affected. The amino acid composition (partial) of the TCA-insoluble proteins of resting and stimulated ganglia was approximately the same after 60 min of incubation, but there was less TCA-insoluble protein in the stimulated ganglia. The addition of amino acids (at plasma concentrations) to the standard media had no apparent affect on the amino acid composition of this protein fraction. Stimulation for 0 , 5 h initially increased the efflux of alanine, valine, proline and ornithine into the incubation media but prolonged stimulation (for 4–0 h) decreased the efflux of alanine, serine, glycine and isoleucine and increased the efflux of lysine into the incubation media. The leakage of amino acids from the ganglia appeared to be a sodium-dependent process. The incorporation of ¹⁴C from [U-¹⁴C]glucose into glutamate (+ glutamine) and aspartate (+ asparagine) was greater in stimulated than in resting ganglia. However, the conversion of glutamate carbons from [U-¹⁴C]l -glutamate into aspartate was not affected by stimulation. Incorporation of ¹⁴C from [U-¹⁴C]glucose into glycine and serine was apparently not affected by stimulation during the 60 min of incubation. However, serine was the only amino acid which exhibited a higher specific radioactivity in stimulated ganglia than in resting ganglia incubated for 4 h in standard media. Lithium ions had the apparent specific effect of increasing the labelling with ¹⁴C from [U-¹⁴C]glucose into ornithine, and increasing the efflux and overall metabolism of serine in the ganglia. Incorporation of ¹⁴C from [U-¹⁴C]glucose into proteins was lower in the stimulated than in the resting ganglia if compensation was made for the higher radioactivity available in the total free amino acid pool of the stimulated ganglia. The rate of ¹⁴C incorporation from [U-¹⁴C]glutamate into the TCA-insoluble proteins of resting ganglia was greater when no other amino acids at concentrations approximating plasma levels were added to the bathing media; this rate was lower in stimulated than in resting ganglia.     

Translation kinetics in cultured mouse hepatoma cells. Regulation of albumin synthesis by amino acids

The synthesis of albumin in the liver has been shown to correlate with the availability of essential amino acids in the diet. We have investigated this phenomenon in the highly differentiated mouse hepatoma cell line, Hepa. Cells were grown for three days in complete medium with daily changes. The cells were then incubated for 22 h in media containing varying concentrations of individual essential amino acids. The deficient media were then changed; 1.5 h later the cells were labeled for 0.5 h with [3H]leucine. Albumin was immunoprecipitated and total protein was acid-precipitated from postribosomal supernatants of detergents-solubilized cells. With the exception of isoleucine, the relative rates of albumin synthesis decreased as a function of amino acid concentration from 4.3% in complete medium to 2.5% in totally deficient media. This specific reduction in albumin synthesis was confirmed by analysis of labeled Hepa proteins displayed on sodium dodecyl sulfate/polyacrylamide gels. Essential amino acid limitation reduced total protein synthesis by 50%. This is the result of a decrease in the translation efficiency of total mRNA from 5 to 3 polypeptides/message min-1 and is consistent with a reduction in the initiation rate. In contrast, the 70% decrease in albumin synthesis was a result of a reduced number of functional albumin messages/cell. The translation efficiency of these albumin messages remained unchanged at 1.     

Insulin binding to erythroblastic leukemic cells is decreased by insulin and increased by amino acids

Erythroblastic leukemic cells incubated in media supplemented with high amino acid concentrations subsequently bound 55.5% more [¹²⁵I]insulin than cells incubated in low amino acid media. Cycloheximide (1 μg/ml) abolished this effect. Incubation of cells with physiological (100 μU/ml) doses of insulin in low amino acid media decreased insulin binding by 34.7%. In high amino acid media the same dose of insulin decreased insulin binding by 33% compared to supplemented media without insulin but increased binding by 22.5% compared to basal media without insulin. The data suggest that amino acids or specific amino acids may exert a regulatory influence on insulin receptor homeostasis.     

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.     

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.     

The effect of glutamine on protein turnover in chick skeletal muscle in vitro.

The effect of glutamine on the rates of protein synthesis and degradation was studied in isolated chick extensor digitorum communis muscles incubated in the presence of plasma concentrations of amino acids. Addition of 0.5-15 mM-glutamine increases (P less than 0.01) intracellular glutamine concentrations by 31-670%. There is a positive relationship (r = 0.975, P less than 0.01) between intracellular glutamine concentration and the rate of muscle protein synthesis measured by the incorporation of [3H]phenylalanine. The stimulating effect of 15 mM-glutamine on protein synthesis was decreased from 58 to 19% in muscles incubated in the absence of tyrosine. The rates of protein degradation, estimated from [3H]phenylalanine release from muscle proteins prelabelled in vivo, decreased (P less than 0.05) by 15-30% in the presence of 4-15 mM-glutamine when compared with muscles incubated in the presence of physiological concentrations of glutamine (0.5-1 mM). Glutamine concentrations ranging from 2 to 15 mM appear to have an overall anabolic effect on chick skeletal muscles incubated in vitro.     

Inhibition by a nonmetabolized analogue of L-leucine of protein biosynthesis in tumoral pancreatic islet cells

The effect of L-leucine, its deaminated metabolite 2-ketoisocaproate and its nonmetabolized analogue b(+/-)2-aminobicyclo[2,2,1]-heptane-2-carboxylic acid (BCH) upon protein labelling was examined in tumoral islet cells (RINm5F line) exposed to L-[4-3H]phenylalanine or L-[3-3H]serine. The interpretation of the results, in terms of changes in biosynthetic activity, was obscured by a possible interference of the tested nutrients with the uptake and further metabolism of the tracer tritiated amino acids. Nevertheless, when the cells were preincubated with the nutrient secretagogues and then incubated in the sole presence of L-[3-3H]serine, BCH, but not L-leucine or 2-ketoisocaproate, still inhibited protein labelling, this coinciding with a decrease in the ratio between TCA-precipitable and total radioactivity in the RINm5F cells. The inhibitory action of BCH was antagonized, to a limited extent, by D-glucose. It is proposed that BCH could be used as a tool to interfere with the function and growth of insulinoma cells.     

Amino acid supply and protein metabolism in Ehrlich ascites tumour cells. 1. Identification of limiting amino acids

The uptake and intracellular accumulation of an amino acid mixture by incubated Ehrlich ascites tumour cells was studied. The composition of the amino acid mixture simulated that of mouse intraperitoneal fluid and amino acid uptake was studied over a range of concentrations between 0.0 (no added amino acids) and 10.0-times intraperitoneal concentrations. For most amino acids uptake into cells and intracellular accumulation occurred as concentrations were increased up to 6.0-times the intraperitoneal concentrations; further increases in external amino acid concentrations did not increase concomitantly with intracellular concentrations. These data, when analysed indicated a net protein synthetic rate of 20% d-1 and that the rate of protein synthesis may be limited by the availability of the amino acids lysine, threonine and methionine.     

Nutrient uptake by Candida albicans: the influence of cell surface mannoproteins.

Numerous ultrastructural and biochemical analyses have been performed to characterize the cell wall composition and structure of Candida albicans. However, little investigation has focused on how subtle differences in cell wall structure influence the intracellular transport of amino acids and monosaccharides. In this study C. albicans 4918 and ATCC 10231 were grown in culture conditions capable of modifying surface mannoproteins and induced surface hydrophobic or hydrophilic yeast cell wall states. Subcultures of these hydrophobic and hydrophilic yeasts were subsequently incubated with one of seven L-[3H] amino acids: glycine, leucine, proline, serine, aspartic acid, lysine, or arginine. The transport of [3H] mannose and [3H] N-acetyl-D-glucosamine were also investigated. This study revealed significant strain differences (P < or = 0.05) between hydrophilic and hydrophobic yeast transport of these nutrients throughout a 2 h incubation. Hydrophilic cultures of 4918 and ATCC 10231 transported nearly two times more (pmol mg-1 dry weight) proline, mannose, and N-acetyl-D-glucosamine than hydrophobic yeast. Hydrophobic cultures preferentially incorporated serine and aspartic acid in both these strains. Strain variation was indicated with the transport of leucine, lysine, and arginine, as follows: experiments showed that hydrophilic 4918 cultures selectively transported leucine, lysine, and arginine, whereas, the hydrophobic ATCC 10231 cultures incorporated these amino acids.     

Heterogeniety of the amino acid pool for protein synthesis in Ehrlich ascites carcinoma cells

Using a new methodological approach based on a step-wise labelling with [14C] and [3H] amino acids, it was demonstrated that the Ehrlich ascite carcinoma cells are capable of utilizing both intracellular and extracellular amino acid pools for protein synthesis. The inhibition of amino acid transport into the cells is accompanied by a more intensive utilization of the exogenous pool. The described procedure permits to calculate the specific radioactivity of the tRNA-bound amino acid and the absolute rate of protein synthesis.     

Effect of the arginine analog,canavanine, on the synthesis and secretion of procollagen

Canavanine was shown to competitively inhibit the activation of arginine when tested with tRNA and synthetases prepared from whole chick embryos. The canavanine has no effect when tested with other amino acids. The K_m for arginine was 2.5 μm and the K_i for canavanine was 35 μm. When fibroblasts from embryonic chick tendons were incubated with [³H]arginine and increasing concentrations of canavanine, there was a progressive decrease in the incorporation of [³H]arginine so that at 3 mm the incorporation into nondialyzable protein was only 14% of the control. A much smaller decrease in the incorporation of other radioactive amino acids was observed. Amino acid analysis of proteins isolated from cells incubated with canavanine showed conclusively that the analog was incorporated. When the cells were incubated with [¹⁴C]proline or [³H]glycine and 3 mm canavanine, the labeled procollagen containing the canavanine was secreted more slowly than normal and accumulated intracellularly. The retained procollagen chains were normally hydroxylated, disulfide linked, and triple helical. However, slab gel electrophoresis in sodium dodecyl sulfate demonstrated that they migrated with a lower mobility than control procollagen chains. We postulate that incorporation of canavanine inhibits normal proteolytic processing of signal sequences resulting in delayed secretion of the procollagen.     

Synthesis of proteins and nucleic acids by the pea aphid Acyrthosiphon pisum (aphididae) in the absence of a full complement of dietary amino acids

Protein, nucleic acids, and nucleotide syntheses were studied in pea aphids, Acyrthosiphon pisum (Harris), by feeding them labeled ¹⁴C-amino acids and [5-³H]-orotic acid in sucrose. It was demonstrated that in the absence of dietary essential amino acids, aphids were capable of synthesizing nucleic acids, nucleotides, and proteins when provided with a single dietary amino acid in sucrose. It is suggested that other required amino acids were possibly supplied by the symbionts present in the pea aphid and/or were obtained from the amino acid pool in the hemolymph or glucose, one of the end products of sucrose digestion. Of the various amino acids tested, synthesis of measurable amounts of protein or other compounds occurred when alanine, aspartic acid, glutamic acid, glycine, proline, or serine were provided, but no synthesis occurred with cysteine.     

Fatty acid uptake by human hepatoma cell lines represents a carrier-mediated uptake process

Cellular influx kinetics of a representative long chain fatty acid, [3H]oleate, were examined in monolayer cultures of three different human hepatoma cell lines (Hep G2; PLC/PRF 5; Mz-Hep-1). The cultures were incubated with 173 microM [3H]oleate in the presence of various concentrations of albumin which served to modulate the unbound oleate concentration in the medium. For all [3H]oleate-albumin complexes incubated, it was shown that cellular uptake of [3H]oleate over the initial 30 s incubation period was maximal, linear and independent of intracellular fatty acid metabolism, representing cellular influx. With increasing unbound oleate concentrations in the medium cellular influx by all three cell lines revealed similar saturation kinetics with Km values of 112.6 +/- 14.5 nM and Vmax values of 7.19 +/- 0.32 nmol.min-1 per mg cell protein. When these hepatoma cell lines were pretreated with the IgG fraction of a monospecific antibody to the rat liver membrane fatty acid binding protein (MFABP), initial uptake of [3H]oleate was selectively inhibited compared to controls pretreated with the IgG fraction of the preimmune serum. Furthermore, immunoblot analysis with the monospecific antibody to the rat MFABP revealed reactivity with a single 40 kDa protein in the homogenates of all three cell lines. These data suggest that uptake of fatty acids by human hepatoma cells may be mediated by a specific membrane fatty acid binding protein.     

The effects of cycloheximide on the biosynthesis and secretion of proteoglycans by chondrocytes in culture.

Proteoglycans synthesized by rat chondrosarcoma cells in culture are secreted into the culture medium through a pericellular matrix. The appearance of [35S]sulphate in secreted proteoglycan after a 5 min pulse was rapid (half-time, t 1/2 less than 10 min), but that of [3H]serine into proteoglycan measured after a 15 min pulse was much slower (t 1/2 120 min). The incorporation of [3H]serine into secreted protein was immediately inhibited by 1 mM-cycloheximide, but the incorporation of [35S]sulphate into proteoglycans was only inhibited gradually(t 1/2 79 min), suggesting the presence of a large intracellular pool of proteoglycan that did not carry sulphated glycosaminoglycans. Cultures were pulsed with [3H]serine and [35S]sulphate and chased for up to 6 h in the presence of 1 mM-cycloheximide. Analysis showed that cycloheximide-chased cells secreted less than 50% of the [3H]serine in proteoglycan of control cultures and the rate of incorporation into secreted proteoglycan was decreased (from t 1/2 120 min to t 1/2 80 min). Under these conditions cycloheximide interfered with the flow of proteoglycan protein core along the route of intracellular synthesis leading to secretion, as well as inhibiting further protein core synthesis. The results suggested that the newly synthesized protein core of proteoglycan passes through an intracellular pool for about 70-90 min before the chondroitin sulphate chains are synthesized on it, and it is then rapidly secreted from the cell. Proteoglycan produced by cultures incubated in the presence of cycloheximide and labelled with [35S]sulphate showed an increase with time of both the average proteoglycan size and the length of the constituent chondroitin sulphate chain. However, the proportion of synthesized proteoglycans able to form stable aggregates did not alter.     

The nature of formate metabolism in greening barley leaves

The metabolism of [³H]formate has been examined in etiolated and greening leaves of barley (Hordeum vulgare), dwarf bean (Phaseolus vulgarls), broad bean (Vicia faba) and corn (Zea mays). Tritium was extensively incorporated by primary leaves incubated for 20-min periods in light or dark. The organic acids and free amino acids were the principal products of formate metabolism but these and other products were more heavily labelled in green tissues. Time course experiments with barley leaves revealed a rapid labelling of serine, accompanied by increasing amounts of ³H in glycine and aspartate as the feeding period was extended. These amino acid products were formed throughout a 4-day greening period with an approximate doubling in total incorporation being due to large accumulations of tritiated glycine and aspartate. The involvement of tetrahydrofolate-dependent reactions in formate metabolism was indicated by inhibition of [¹⁴C] and [³H]formate incorporation by the folate antagonist, aminopterin. Labelling of glycine and serine was also strongly inhibited (up to 90%) when the leaves were incubated with increasing concentrations of isonicotinylhydrazide.     

Amino acid dependent and independent insulin stimulation of cartilage metabolism

The effects of insulin on embryonic chicken cartilage in organ culture and the dependence of these effects on essential amino acids have been studied. In the presence of all essential amino acids, insulin: (1) increases 2-deoxy-D-glucose and alpha-aminoisobutyric acid uptake; (2) increases [5(-3H] uridine flux into uridine metabolites and the intracellular UTP pool; (3) expands the size of the intracellular UTP pool; (4) does not change the specific activity of the UTP pool; and (5) stimulates RNA, proteoglycan, and total protein synthesis. In lysine (or other essential amino acid)-deficient medium, the effects of insulin are different. While insulin stimulates incorporation of [5(-3)H] uridine into RNA, it does so by increasing the specific activity of the UTP pool without increasing RNA synthesis. Insulin stimulates 2-deoxy-D-glucose and alpha-aminoisobutyric acid uptake but no longer stimulates proteoglycan, total protein, or RNA synthesis or expands the size of the UTP pool. These data indicate that there are amino acid dependent and independent effects of insulin on cartilage. Transport processes are amino acid independent, while synthetic processes are amino acid dependent.     

Evidence for an endothelial cell-derived factor which stimulates the growth of human peripheral blood mononuclear cells

Evidence is provided which demonstrates that conditioned media of cultured endothelial cells derived from human umbilical veins contained a factor which stimulated peripheral blood mononuclear cell [3H]thymidine uptake. A dose-dependent response in peripheral blood mononuclear cell [3H]thymidine uptake was obtained when cells were incubated with increasing concentrations of supernatant of endothelial cell cultures. Studies on temporal kinetics demonstrated that stimulatory activity was evident when mononuclear cells had been incubated with endothelial cell supernatant for 120 hr or more. Preliminary characterization showed the growth immunoregulatory factor to have a molecular weight greater than 100,000 Da.     

Pinocytosis and intracellular degradation of exogenous protein: modulation by amino acids

Intracellular degradation of exogenous (serum) proteins provides a source of amino acids for cellular protein synthesis. Pinocytosis serves as the mechanism for delivering exogenous protein to the lysosomes, the major site of intracellular degradation of exogenous protein. To determine whether the availability of extracellular free amino acids altered pinocytic function, we incubated monolayers of pulmonary alveolar macrophages with the fluid-phase marker, [14C]sucrose, and we dissected the pinocytic process by kinetic analysis. Additionally, intracellular degradation of endogenous and exogenous protein was monitored by measuring phenylalanine released from the cell monolayers in the presence of cycloheximide. Results revealed that in response to a subphysiological level of essential amino acids or to amino acid deprivation, (a) the rate of fluid-phase pinocytosis increased in such a manner as to preferentially increase both delivery to and size of an intracellular compartment believed to be the lysosomes, (b) the degradation of exogenously supplied albumin increased, and (c) the fraction of phenylalanine derived from degradation of exogenous albumin and reutilized for de novo protein synthesis increased. Thus, modulation of the pinosome-lysosome pathway may represent a homeostatic mechanism sensitive to the availability of extracellular free amino acids.