HUMANGGP:021133 - FACTA Search

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Query: HUMANGGP:021133 (ATP)
132,114 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hemin allows maximal protein synthesis in intact rabbit reticulocytes and their cell-free lysate preparations by retarding the formation of a translational repressor (HCR) found in the postribosomal supernate. In order to evaluate the role of HCR in the pathogenesis of hypochromic anemias, HCR was isolated and partially purified from intact rabbit reticulocytes incubated in vitro with either 0.1 mM alpha,alpha-dipyridyl (an iron-chelating agent) or 0.1 M ethanol. Both of these agents inhibit reticulocyte protein synthesis. Hemin (50 muM) protects against the inhibition by both agents. A ferrous iron-transferrin mixture, however, protects only against alpha,alpha-dipyridyl. Both alpha,alpha-dipyridyl and ethanol inhibit heme synthesis before the time that protein synthesis is affected, while neither lowers either ATP or GSH levels. These results indicate that while both agents inhibit heme synthesis, alpha,alpha-dipyridyl does so by inducing iron deficiency while ethanol works at a non-iron-requiring step. When HCR was isolated from intact cells and assayed in the reticulocyte cell-free systems, plus and minus hemin, premature appearance of HCR was found in cells incubated in vitro with alpha,alpha-dipyridyl or ethanol. When hemin was present in the intact cell incubation, the appearance of HCR was retarded. The HCR from alpha,alpha-dipyridyl ethanol-treated cells was partially purified and eluted at the same location on a Sephadex G-200 column (molecular weight approximately 3 x 10(5)) as that from postribosomal supernates incubated minus hemin. In addition rabbits with phenylhydrazine-induced hemolytic anemia were given intravenous ethanol in vivo at a dose of 0.4 ml/kg. This concentration of alcohol resulted in an inhibition of the rate of heme synthesis and protein synthesis as well as an acceleration of HCR formation in reticulocytes. The HCR from these in vivo treated rabbits was isolated, partially purified, and assayed in an identical fashion as the in vitro experiments. These in vivo experiments further support the physiological and pathophysiological role of HCR in reticulocytes. On the basis of these results a model for a role of HCR in some of the hypochromic anemias is proposed. In iron deficiency or chronic disease (where iron is not available to the erythroblast for heme synthesis) HCR appears prematurely and inhibits protein synthesis. When heme synthesis is inhibited by ethanol but there is sufficient intracellular iron, HCR appears prematurely and inhibits protein synthesis, iron accumulates in the erythroblast, and the end result is sideroblastic anemia.
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PMID:A rabbit reticulocyte model for the role of hemin-controlled repressor in hypochromic anemias. 0 17

Methylxanthines (MX) inhibit cell division in sea urchin and clam eggs. This inhibitory effect is not mediated via cAMP. MX also inhibit respiration in marine eggs, at concentrations which inhibit cleavage. Studies showed that no changes occurred in ATP and ADP levels in the presence of inhibitory concentrations of MX, indicating an extra-mitochondrial site of action for the drug. Subsequent studies revealed decreased levels of NADP+ and NADPH, when eggs were incubated with inhibitory concentrations of MX, but no change in levels of NAD+ and NADH. MX did not affect the pentose phosphate shunt pathway and did not have any effect on the enzyme NAD+ -kinase. Further studies showed a marked inhibitory effect on the glutathione reductase activity of MX-treated eggs. Reduced glutathione (GSH) could reverse the cleavage inhibitory effect of MX. Moreover, diamide, a thiol-oxidizing agent specific for GSH in living cells, caused inhibition of cell division in sea urchin eggs. Diamide added to eggs containing mitotic apparatus (MA) could prevent cleavage by causing a dissolution of the formed MA. Both MX and diamide inhibit a Ca2+-activated ATPase in whole eggs. The enzyme can be reactivated by sulfhydryl reducing agents added in the assay mixture. In addition, diamide causes an inhibition of microtubule polymerization, reversible with dithioerythritol. All experimental evidence so far suggests that inhibition of mitosis in sea urchin eggs by MX is mediated by perturbations of the in vivo thiol-disulfide status of target systems, with a primary effect on glutathione levels.
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PMID:Effects of caffeine and other methylxanthines on the development and metabolism of sea urchin eggs. Involvement of NADP and glutathione. 1 15

The erythrocytes of newborn and adult goats were studied with respect to GSH stability, GSH regeneration, levels of ATP and 2, 3-DPG, glucose consumption and activities of nine different enzymes of Embden-Meyerhof and pentose phosphate pathways of glucose metabolism. Red cells from newborn goats had significantly higher levels of ATP and 2, 3-DPG. The activities of all the enzymes measured were also significantly greater in the newborn. It is suggested that newborn goats possess red blood cells that are metabolically more active than those of adult goats.
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PMID:In vitro metabolism of red blood cells from newborn and adult goats. 12 76

The relationship of the concentration of glutathione (GSH) in lens epithelium to the transport of cations in the lens was studied by decreasing the level of GSH in the epithelium and monitoring subsequent effects in the lens on the distribution of cations, the activity of Na+-K+ ATPase and the uptake and efflux of 86Rb. Oxidation of GSH in cultured rabbit lenses was accomplished by the use of 1 mM tertiary butyl hydroperoxide (TBHP), a reagent which appears to be suitable for the specific oxidation of GSH in this tissue. The concentration of GSH found in the normal lens epithelium was estimated to be 64 mum per gram wet weight or nearly six times that present in the whole lens. A decrease in the concentration of GSH in lens epithelium of 60 per cent or more leads to an increase in hydration, a shift in the distribution of Na+, K+, and Cl-, a decrease in the activity of Na+-K+ ATPase, and a decrease in the active transport, and an increase in the passive diffusion of 86Rb. In the TBHP-treated lenses there is a rapid decrease in the production of lactate, possibly as a result of the inhibition of Na+-K+ ATPase, but the effect on the level of lens ATP is delayed and less pronounced. It appears that the adverse effect on membrane permeability caused by the oxidation of GSH is partially reversed when a high level of GSH returns to the epithelium. However, the decrease in active transport of 86Rb and the inactivation of Na+-K+ ATPase are not reversed by either regeneration of GSH in the tissue or by treatment with exogenous dithiothreitol and may indicate an irreversible conformational change in the enzyme initiated by the loss of the protective effect of GSH. The data indicate that a critical level of GSH is required in the lens epithelium for the maintenance of normal cation transport.
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PMID:Glutathione and lens epithelial function. 13 Nov 14

A substance has been purified to apparent homogeneity from rat liver which, as previously reported (Dunaway, G. A., Jr., and Segal, H. L. (1974) Biochem. Biophys. Res. Commun. 56, 689-696), specifically stabilizes the major liver isozyme of phosphofructokinase (PFK-L2) against thermal inactivation and whose level in vivo changes in parallel with and in precedence to that of the enzyme. Molecular weight determinations gave values around 3,500. Evidence for the peptide nature of the factor includes its correspondence with ninhydrin-positive material on gel filtration and paper electrophoresis and its susceptibility to pronase. Electrophoretic behavior indicated at least one free amino group and several carboxyl groups. Amino acid analysis of the peptide yielded only glutamate, glycine, and half-cystine, in equimolar amounts. However, neither GSH nor GSSG have PFK-L2-stabilizing activity. No free sulfhydryl groups were present. Chemical analysis for tryptophan was also negative. The ultraviolet spectrum confirmed the absence of aromatic amino acids. The spectrum exhibited a characteristic peptide peak at 190 nm with no absorbance beyond 240 nm. The factor is unstable to storage in the cold except in the presence of glucose or dithiothreitol. Sucrose, fructose, and GSH were ineffective in this regard. It was slowly denatured by heat or reduced pH even in the presence of glucose. The factor was induced in fasted animals specifically by glucose, of the nutrients tested, and in diabetic animals by insulin. Induction by both glucose and insulin was blocked by cycloheximide and actinomycin. The time course of the glucose induction was the more rapid of the two with a marked overshoot to 3 times normal levels at 12 hours. Increased levels of the factor preceded the increased levels of PFK-L2 brought about by glucose or insulin administration. Native PFK-L2 was inactivated by lysosomal extracts, and this inactivation was strongly inhibited by the peptide factor. These results are in accord with the proposal that the peptide plays a role in regulating PFK-L2 turnover in vivo. The factor also activated the phosphofructokinase-catalyzed reaction by promoting fructose-6-P binding. This effect is analogous to that of AMP on the kinetics of the reaction; however, the factor effect was additive to that of AMP, and the factor did not reverse inhibition by excess ATP as does AMP. We postulate that the stabilizing factor affects an equilibrium between PFK-L2 conformers in favor of one more resistant to lysosomal and thermal inactivation and with greater affinity for fructose-6-P.
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PMID:Purification and physiological role of a peptide stabilizing factor of rat liver phosphofructokinase. 13 Nov 26

In the presence of ATP and Mg2+, ATP sulphurylase from Saccharomyces cerevisiae catalysed the conversion of selenate into a compound with the electrophoretic and acid-lability properties of adenosine 5'-sulphatophosphate. Structural characterization, involving extensive purification of adenosine 5'-selenophosphate, proved impossible. However, we showed ATP-, Mg2+- and ATP sulphurylase-dependent, and inorganic pyrophosphatase-stimulated, production of elemental selenium from selenate in the presence of GSH (reduced glutathione). Since selenate was not reduced by GSH, this reaction proved that ATP sulphurylase had formed an active selenate. The enzyme catalysed formation of elemental selenium had the same kinetics and GSH-dependency as the non-enzymic reduction of selenite to elemental selenium by GSH. In the presence of inorganic pyrophosphatase, 2 mol of Pi was released for each mol of 'active selenate' formed. This was shown by a spectrophotometric assay for elemental selenium. The observed reactivity with thiols and the instability of the enzymic product were those predicted for selenium anhydrides. By analogy with the chemistry of sulphur, the product of the thiolytic cleavage of a selenium anhydride would be converted into selenite. The selenite would then be reduced by the thiol to elemental selenium. We conclude that ATP sulphurylase can catalyse the formation of adenosine 5'-selenophosphate. The anhydride can be reduced by thiols in a manner similar to the reduction of selenite. These results probably explain the ability of mammals, lacking a sulphate reductase system, to incorporate selenium from selenate into seleno-amino acids.
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PMID:Activation of selenate by adenosine 5'-triphosphate sulphurylase from Saccharomyces cerevisiae. 32 9

A new method for preparing the rabbit cornea is described for the assay of metabolite levels in the in vivo state. The preparation includes in vivo rapid freezing of the tissue by liquid nitrogen, freeze sawing, lyophilization, and extraction with 0.5 N perchloric acid. Reduced (GSH) and oxidized (GSSG) glutathione levels and the GSH/GSSG ratios were compared with adenosine phosphate levels and ATP/ADP ratios. The most important results of this investigation seemed to be a significant difference in the redox state of the glutathione between the epithelium and the endothelium of the corea and the different reducing capacity of these tissues as indicated by the steady-state levels of the GSH and the GSSG. These metabolic processes may be used to eliminate toxic peroxides from the transparent ocular tissues produced by light or other chemical compounds.
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PMID:Oxidized and reduced glutathione levels of the cornea in vivo. 38 23

The discocyte-echinocyte transformation and the decrease in deformability associated with red cell ATP depletion have been attributed to changes in the physical properties of spectrin and actin, membrane proteins located at the membrane-cytosol interface. We investigated the spontaneous formation of spectrin-rich complexes in human erythrocyte membranes, employing two-dimensional SDS-polyacrylamide gel electrophoresis. Membranes of red cells depleted in ATP under aerobic conditions exhibited (1) an increase in components 4.5 and 8 and globin subunits, (2) a spontaneous formation of heterodimers of spectrin 1 + 2 and spectrin 2 + component 4.9, and (3) a large molecular weight (greater than 10(6) daltons) protein complex with a high spectrin to band 3 ratio. These complexes were dissociated with dithiothreitol and were prevented by anaerobic incubation or the maintenance of red cell ATP and GSH levels with glucose, adenine, and inosine. The complexes 1 + 2 and 2 + 4.9 were also seen in acetylphenylhydrazine-treated, glucose-6-phosphate dehydrogenase-deficient fresh erythrocytes that showed marked GSH depletion but preserved greater than 70% of the original ATP level. However, membranes of these cells did not contain the greater 10(6) dalton aggregate with a high spectrin to band 3 ratio. We concluded that the formation of the latter complex results from rearrangement of spectrin and other polypeptides in membranes of ATP-depleted red cells. Under aerobic conditions, the rearranged proteins undergo spontaneous intermolecular crosslinkings through disulfide couplings.
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PMID:Metabolic dependence of protein arrangement in human erythrocyte membranes. I. Analysis of spectrin-rich complexes in ATP-depleted red cells. 62 5

Both di- and triglycerides were synthesized when microsomes isolated from mammary glands of lactating mice were incubated with dihydroxyacetone phosphate (DHAP), 1(-14)C)palmitate, ATP, CoASH, GSH, KF, MgC12, and NADPH. When NADH replaced NADPH, glyceride synthesis was very low. In the absence of either NADPH or NADH, DHAP was acylated to palmityl-DHAP. Since microsomes do not have glycerol 3-phosphate NAD:oxidoreductase activity , we inferred that glycerol 3-phosphate (GP) is not an intermediate in triglyceride biosynthesis from DHAP. This reductase, present in the cytosol, was active only with NADH. With the same concentration of either GP or DHAP, microsomes yielded essentially similar amounts of di- and triglycerides. Mitochondria, while capable of synthesizing palmityl-DHAP, did not produce di- and triglycerides.
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PMID:Triglyceride synthesis from dihydroxyacetone phosphate and palmitate by microsomes from mammary glands of lactating mice. 62 19

The effect of 6-methylprednisolone (GCC) was studied on erythropoietin (ESF) levels and on the metabolic functions of erythrocytes (RBC). GCC (U mg/kg/day for 15 days) was administered to 6 patients with the haemolytic-uraemic syndrome (group B) and to 6 patients with non-spherocytic haemolytic anaemia due to hereditary pyruvate kinase enzyme deficiency (group C). 6 healthy persons served as control (group A). The metabolic functions of RBC were investigated by assaying HMPS activity, GSH/GSSG and lactate/pyruvate ratios, relevant glycolytic intermediates, 2,3-DPG, ATP, and key enzymes. A significant increase in ESF was observed in group B patients after GCC therapy, correlating with an improvement in the haemolytic state, and consequent rectification of the secondary disturbances of RBC metabolism. Group C patients already had raised ESF levels before GCC therapy; no further increase occured in response to treatment and no other clinical or haematological change was recorded. Hence, no harmonal influence of GCC on the disturbed RBC metabolic process was detectable in the cases.
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PMID:[Glucocorticoid-induced effect of erythropoietin in haemolytic anaemia with uraemia and red cell enzyme deficiency (author's transl)]. 69 63

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