Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In our previous study (Onishi, H., Susuki, H., Nakamura, k., and Watanabe, S. J. Biochem. 83, 835-847, 1978), we found it to be characteristic of chicken gizzard myosin that thick filaments of gizzard myosin are readily disassembled by a stoichiometric amount of ATP (3 mol of ATP per mol of myosin), and that the ATPase activity of gizzard myosin in the ATP-disassembled state is much lower than that of gizzard myosin disassembled by a high concentration of KCl. We now report the following findings: (1) Thick filaments of (unphosphorylated) gizzard myosin can be in a bipolar structure or in a non-polar structure, depending on the method of preparing the thick filaments. (2) Thick filaments of (unphosphorylated) gizzard myosin in either the bioplar or the non-polar structure are readily disassembled by ATP. (3) Addition of rabbit skeletal C-protein does not confer ATP resistance on thick filaments of (unphosphorylated) gizzard myosin. (4) Unphosphorylated) gizzard myosin in the ATP-disassembled state is in a dimeric form as determined by ultracentrifugation. Moreover, 0.2 M KCl-dissociated gizzard myosin in monomeric form is converted to a dimeric form by ATP. (5) The Mg-ATPase activity of (unphosphorylated) gizzard myosin is much lower in its dimeric form (less than one-tenth) than in its monomeric form. The activity depression observed around 0.15 M KCl is therefore due to the formation of myosin dimers. (6) Skeletal L-meromyosin can increase the very low activity of (unphosphorylated) gizzard myosin ATPase at low ionic strength (0.13 M KCl) by forming ATP-resistant hybrid filaments with (unphosphorylated) gizzard myosin, preventing the formation of myosin dimers. (7) Gizzard myosin in which one of the light-chain components is phosphorylated by myosin light-chain kinase can form thick filaments which are resistant to the disassembling action of ATP. (8) Even in the presence of ATP, thick filaments of phosphorylated gizzard myosin do not disassembled into myosin dimers. Accordingly, the ATPase activity of phosphorylated gizzard myosin does not show activity depression at low ionic strength.
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PMID:Structure and function of chicken gizzard myosin. 15 5

The metabolism of 2-deoxy-D-galactose has been studied in AS-30D rat ascites hepatoma cells in suspension. Using 2-deoxy-D-(1-14C)galactose and an alkaline ethanol deproteinization procedure, the quantitatively identified metabolites included 2-deoxy-D-galactose 1-phosphate comprising 99.3%, and UDP-2-deoxy-D-galactose and UDP-2-deoxy-D-glucose, together amounting to 0.4% of the total metabolites. After incubation for 5 h in the presence of 2-deoxy-D-galactose (1 mmo1/1), the content of 2-deoxy-D-galactose 1-phosphate reached 35 mmo1x(kg cells)-1. The rate of phosphorylation of 2-deoxy-D-galactose was rapid during the first 30 min and decreased to approximately 20% of this rate during the subsequent hours. The rapid trapping of Pi in the form of 2-deoxy-D-galactose 1-phosphate resulted in a depression of free intracellular Pi in spite of a concomitant increase in net 32Pi uptake from the medium and a decrease of ATP and other 5'-nucleotides. The rates of glucose utilization and lactate production were depressed by more than 80% in the presence of 2-deoxy-D-galactose (1 mmo1/1). Interruption of Pi trapping by removal of 2-deoxy-D-galactose from the medium reversed the depressions of Pi and ATP and resulted in a rapid but incomplete relief of glycolysis inhibition. Crossover analysis of glycolytic intermediates indicated an inhibition at the 6-phosphofructokinase step. The depression of glucose utilization may be mediated by the increased level of glucose 6-phosphate, a potent inhibitor of hexokinase. An additional inhibitory effect of a metabolite of 2-deoxy-D-galactose at the 6-phosphofructokinase step was indicated by crossover analysis after reversal of Pi and ATP depressions in the presence of a high intracellular content of 2-deoxy-D-glactose 1-phosphate. The quantitative analysis of the metabolites of 2-deoxy-D-galactose demonstrated the predominance of the monophosphate and the negligible formation of UPD derivatives of this sugar analog in AS-30D hepatoma cells. This provides a system for the investigation of a galactose analog as a phosphate-trapping agent in the virtual absence of uridylate trapping.
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PMID:2-Deoxy-D-galactose metabolism in ascites hepatoma cells results in phosphate trapping and glycolysis inhibition. 19 12

A radioimmunoassay for cyclic AMP has been developed using protein A containing staphylococci as an immunoabsorbent. Protein A containing heat-killed staphylococci (Cowan I) are coated with rabbit antiserum raised against the 2'-O-succinyl derivative of cyclic AMP coupled to human serum albumin. After washing with a Tween 20 containing buffer, antibody coated staphylococci are diluted with heat-killed staphylococci devoid of protein A (staphylococcus epidermidis) and mixed with [125I]-2'-O-succinyl cyclic AMP tyrosine methyl ester, standards or unknowns. At the end of the incubation, separation of bound and free labelled antigen is achieved by bound and free labelled antigen is achieved by centrifugation. The results are comparable to those obtained with a precipitation assay using polyethylenglycol 6000. Acetylation prior to radioimmunoassay increases sensitivity about 80-fold. 50% depression of zero dose binding occurs at 15--16 femtomoles acetylated cyclic AMP. The crossreactivity with cyclic GMP, ATP, ADP, 5'-AMP and adenosine is extremely low. The present technique is an attractive alternative to the second antibody method or polyethylenglycol precipitation.
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PMID:Solid phase radioimmunoassay for cyclic AMP using staphylococcal protein A-antibody adsorbent. 19 25

Carbamylcholine and acetylcholine through a muscarinic type of receptor, KCl, ionophore A-23187 and NaF increased cyclic GMP accumulation in dog-thyroid slices. These effects were abolished in calcium-depleted slices, which findings confirm that Ca2+ is required for cyclic GMP accumulation. All these agents depressed the accumulation of cyclic AMP in TSH-stimulated slices. KCl and NaF depressed cyclic AMP accumulation in TSH-treated slices even when they had been depleted of Ca2+. This suggests a cyclic GMP- and Ca2+-independent mechanism. The absence of inhibition of the effects of the ionophore, NaF and KCl in the presence of atropine suggests that these drugs do not act by inducing the release of acetylcholine in the slices. The effects of carbamylcholine and ionophore A-23187 on cyclic GMP accumulation and protein iodination were reversible; the inhibitions of TSH-induced cyclic AMP accumulation and secretion were non-competitive and were not accompanied by a depression of ATP levels. All these effects were greatly decreased in the absence of extracellular Ca2+. These data suggest that carbamylcholine and ionophore A-23187 act mainly by increasing the influx of extracellular Ca2+ in thyroid cells. However, the persistence of some carbamylcholine effect in the absence of Ca2+ in the medium suggests that this agent may also trigger the release of Ca2+ from an intrafollicular pool. The kinetics of action of carbamylcholine are compatible with a role of cyclic GMP in the inhibition of cyclic AMP accumulation. However, with the ionophore, the depression of cyclic AMP accumulation was much longer than the rise of cyclic GMP, which suggests a mechanism independent of cyclic GMP.
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PMID:Effects of carbamylcholine and ionophore A-23187 on cyclic 3',5'-AMP and cyclic 3',5'-GMP accumulation in dog-thyroid slices. 22 40

The actions of thromboxane B2 on various parameters of cardiac performance were studied using the isolated perfused rat heart model. In concentrations from 100 pg/ml to 1 microgram/ml TXB2 significantly reduced the total generated myocardial contractile force. These changes were usually associated with an increase in the coronary perfusion pressure indicating an elevated coronary vascular resitance. Significant coronary pressure alterations were seen with TXB2 concentrations between 1 ng/ml and 1 microgram/ml. No significant changes were seen in either the resting tension or heart rate after TXB2 administration. However TXB2 (10 pg/ml to 10 ng/ml,, significantly reduced the amplitude of the electrical activity as observed in R wave changes of the surface electrocardiogram recording. In another series of experiments the action of TXB2 on rat heart sarcolemmal ATPase activity was studied. TXB2 significantly reduced the activity of the MG++ dependent - Na+ - K+ stimulated ATPase (Na+ - K+ ATPase) in these membrane preparations in concentrations from 10 ng/ml to 1 microgram/ml. Kinetic studies demonstrated that TXB2 reduced Vmax and increased the concentration required of ATP, Na+ and K+ for half-maximal enzyme activity. TXB2 did not inhibit either Ca++ or ouabain-induced depression of Na+ - K+ ATPase activity. The activity of either Mg++ or Ca++ - stimulated ATPase was not affected by TXB2. These results suggest possible important actions of TXB2 on rat heart activity which may be related to Na+ - K+ ATPase inhibition.
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PMID:Thromboxane B2: a cardiodepressant of isolated rat hearts and inhibitor of sarcolemma Na+ - K+ stimulated ATPase activity. 23 17

The specific activity of glutamine synthetase in cultured Chinese hamster cells is inversely related to the concentration of glutamine in the surrounding solution. Enzyme specific activity increases 8- to 10-fold when glutamine is removed from serum-free F12 growth media. The induction of glutamine synthetase activity occurs only after glutamine removal and not after the removal of other amino acids (methionine, leucine, or isoleucine). The analysis of the glutamine-mediated decrease in glutamine synthetase activity has been simplified by the finding that depression proceeds in nutrient-free buffered saline solution (141 mM NaCl, 5.4 mM KCl and 30 mM Tricine (pH 7.4). Under these conditions, 0.1 mM cyanide blocks glutamine-mediated depression. The cyanide inhibition is reversed by the addition of 1.0 mM glucose which suggests that ATP is required for depression. Glutamine-mediated depression is temperature-dependent, occurring between 25 and 45 degrees with an optimum rate at 37 degrees. Studies of the time course of induction and depression as a function of glutamine concentration suggest that glutamine regulates the rate at which the enzyme is either modified or degraded. We have employed an antibody prepared against homogeneous Chinese hamster liver glutamine synthetase to measure the amount of glutamine synthetase protein in extracts of cells containing induced or depressed levels of enzyme activity. A highly sensitive immunoprecipitation procedure enables quantitation of nanogram amounts of glutamine synthetase protein. Glutamine synthetase in cell extracts containing induced levels of enzyme activity possesses the same molecular specific activity (ratio of activity to antigenicity) as homogeneous Chinese hamster liver glutamine synthetase. The molecular specific activity of glutamine synthetase is almost the same in extracts of cells with depressed levels of enzyme obtained by growth for short (2 hours) and long (24 hours) times in the presence of glutamine. These data suggest that glutamine-mediated depression of glutamine synthetase results from degradation of enzyme molecules.
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PMID:Immunochemical evidence for glutamine-mediated degradation of glutamine synthetase in cultured Chinese hamster cells. 23 54

Respiration and glycolysis of pig platelets suspended in a dialyzed plasma were studied at various hydrogen ion concentrations. Respiration of platelets was high at acidic pH and decreased at physiological pH. This pH profile may not be attributed to properties of mitochondria, since the respiratory rate of mitochondria prepared from platelets was maximal at physiological pH. A low respiratory rate at physiological pH seemed to be attributable to depression of respiration by glycolysis, since the addition of glucose further depressed the rate. The Crabtree effect was more prominent at alkaline ph. glycolysis increased with an increase in the pH of the plasma, contrary to oxygen comsumption. The Pasteur effect was less prominent at alkaline pH. The effect of pH on lactate production by the cytosol fraction of platelets was similar to that of whole platelets. The glycolytic intermediate pattern showed that phosphofructolinase was the committed step. Both ATP concentration and ATP formation calculated from respiratory and glycolytic rates were constant at various pH values. These observations may indicate that the pH primarily affects platelet glycolysis at the phosphofructokinase step and the respiration is secondarily controlled by glycolysis.
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PMID:Effect of hydrogen ion concentration on energy metabolism in pig platelets. 23 23

Human red cells were incubated at pH 8.2 and 30 mM phosphate concentration with glucose, glucose plus methylene blue, or inosine. In 16 normal subjects, the lactate production rate (LPR) from glucose alone was 92.2 +/- 7.5 mumoles per minute per liter red blood cell. With methylene blue added, the mean LPR was 118.5 +/- 7.4 per cent of control glucose values. With inosine as substrate the mean LPR was 68.5 +/- 6.0 per cent of that from glucose. Lactate/glucose ratios averaged 1.36, presumably because of accumulation of intermediates under conditions of high pH and Pi. Patients with various kinds of anemias had LPR's from glucose that were usually markedly higher than normal, but the LPR's from inosine were generally about 2/3 of those from glucose. The LPR's of the anemic patients correlated with their degree of reticulocytosis and several patients with pyruvate kinase (PK) deficiency showed normal LPR if the red cell population age was ignored, byt marked depression when compared to expected LPR for degree of reticulocytosis. The LPR from glucose of red cells of G6PD-deficient subjects was decreased (not increased) by methylene blue. Methylene blue, while stimulating the pentose phosphate pathway, also mediated some oxidation of NADH, thus complicating the stoichiometry of the overall system. In addition, the results suggested that the dye may have attacked -SH groups on some enzymes. In normal red cells, the lower LPR from inosine than from glucose was explained as due to consumption of ATP for hexose utilization (thus generating more ADP for the triose reactions). In confirmation, when red cells were incubated without substrate to deplete their ATP-, and enhance their ADP-, levels, the LPR from inosine exceeded that from glucose. Fluoride and iodoacetate affected LPR from glucose more than from inosine, suggesting the necessity of adequate ATP levels in hexose utilization. Overall glycolysis in the red cell is seen as the resultant of a network of metabolic reactions in which ADP and ATP levels are important control parameters.
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PMID:Incubation studies on human red cells utilizing glucose or inosine under various conditions. 24 Aug 98

Peritonitis in rats was produced by cecal ligation and puncture. Sixteen hours following cecal ligation and puncture, the gangrenous cecum was removed and the animals received either 4 ml saline (nontreated), 0.75 ATP-MgCl2 (100 mumoles ATP plus 50 mumoles MgCl2), and 2.0 ml of 50% glucose or 2.0 ml of 50% mannitol and 1.25 ml saline. Two hours after the removal of the cecum, RES function was evaluated by measuring the intravascular clearance of a 131 I triolein-labeled gelatinized test lipid emulsion. The intravascular half-time (t1/2) in the nontreated animals was double that of sham-operated animals, suggesting that significant depression in RES function occurred during sepsis. Administration of ATP-MgCl2 plus glucose following sepsis resulted in t1/2 values similar to those of sham-operated animals, indicating that the impairment of pagocytic activity of the RES was reversed with treatment. The beneficial effect of treatment following sepsis does not appear to be due to hypertonicity, since administration of 50% mannitol failed to decrease the t1/2. The precise mechanism of the beneficial effect of ATP-MgCl2 + glucose on restoration of RES function is not known.
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PMID:Impairment of reticuloendothelial system function with sepsis and its improvement with ATP-MgCl2 plus glucose administration. 26

Ten hypophysectomized and 10 normal female albino rats, 50-days-old, were kept for 5 days and treated with tritiated thymidine 1 hour before sacrifice of the animals. The animals were weighed and the histomorphology of the palate epithelium was studied including the thickness, cell density, and DNA labeling index. The hypophysectomized rats failed to gain weight after 5 days. The palatal epithelium showed a normal morphology indicating the hypophysectomy allowed for differentiation of squamous epithelium. There was a significant reduction in the thickness of the epithelium and a reduced cell density. This was attributed to a significant decrease in DNA synthesis. The epithelial cells were lost from the surface without adequate replacement due to an expected depression in mitotic activity. DNA synthesis may be depressed due to reduced ATP synthesis resulting from suboptimal glucose metabolism and depression in protein synthesis.
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PMID:The effects of hypophysectomy upon DNA synthesis in rat oral epithelium. 26 47


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