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: UNIPROT:O14944 (EPR)
13,097 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. A rapid isolation procedure with a high yield for pure myeloperoxidase (donor:H2O2 oxidoreductase, EC 1.11.1.7) from normal human leucocytes is described. The enzyme was solubilized from leucocytes with the detergent, cetyltrimethylammonium bromide, and purified to apparent homogeneity. The yield of the enzyme was 17% with an absorbance ratio A430nm/A280nm = 0.85. 2. The purified enzyme showed three isoenzyme bands after polyacrylamide gel electrophoresis; ultracentrifuge studies indicated one homogeneous band with a molecular weight of 144 000. After reduction of myeloperoxidase, sodium dodecyl sulfate gel electrophoresis resolved an intense band (63 000 daltons) and a weak band (81 000 daltons). 3. The carbohydrate content of the enzyme was at least 2.5%. Mannose, glucose and N-acetylglucosamine were present. The amino acid composition is reported. 4. The EPR spectrum exhibited a high-spin heme signal with rhombic symmetry (gx = 6.92, gy = 5.07 and gz = 1.95). Upon acidification this signal was converted into a signal with more axial symmetry (g perpendicular = 5.89). At high pH (9.5) the EPR spectrum of the enzyme only shows low-spin ferric heme resonances. The circular dichroism spectra of ferric and ferrous myeloperoxidase in the visible and ultraviolet region show maxima and minima in ellipticity.
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PMID:Isolation procedure and some properties of myeloperoxidase from human leucocytes. 20 40

In order to investigate the mechanism by which H2O2 damages the epithelium, 8 x 10(5) rabbit lens epithelial cells were treated with TEMPOL or deferoxamine and exposed to a single sublethal dose of 0.5 mM H2O2. TEMPOL is a SOD mimic, has a characteristic EPR spectrum and is metal independent. EPR spectra indicated that TEMPOL was not destroyed by H2O2, catalyzed the destruction of the superoxide anion, and penetrated the cells. Cells treated with H2O2 showed membrane blebbing, growth inhibition, an increase in GSSG, a dose-dependent decrease in GSH, ATP, NAD+, and in the activity of G3PDH, and in lactate production. H2O2 stimulated the hexose mono-phosphate shunt and induced single strand breaks in DNA. Treatment with TEMPOL or deferoxamine prevented or curtailed H2O2-induced inhibition of growth, the decrease in NAD+, the induction of single strand breaks in DNA, and membrane blebbing, but not the other biochemical parameters investigated. Both TEMPOL and deferoxamine prevent Fe+2-mediated generation of the damaging hydroxyl radical. TEMPOL reacts with superoxide and thus prevents it from recycling Fe+3 to Fe+2. It also oxidizes DNA-Fe+2 to DNA-Fe+3. Deferoxamine chelates intracellular Fe+3 and prevents its reduction to Fe+2. These compounds which limit the availability of Fe+2 by different means indicate that transition metals (including those bound to DNA) mediate certain of the damaging effects of H2O2.
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PMID:Tempol and deferoxamine protect cultured rabbit lens epithelial cells from H2O2 insult: insight into the mechanism of H2O2-induced injury. 133 54

The molecular mechanism by which interleukin (IL)-1 inhibits insulin secretion and ultimately causes destruction of the pancreatic beta-cell remains unknown. Evidence is presented which suggests that IL-1 beta-induced inhibition of insulin secretion is dependent on the metabolism of L-arginine to nitric oxide. NG-Monomethylarginine, a competitive inhibitor of the L-arginine-dependent enzyme nitric oxide synthase, completely prevents IL-1-induced inhibition of glucose-stimulated insulin secretion as well as nitrite production by islets. It is further shown that IL-1 beta induces nitric oxide formation in islets as evidenced by an electron paramagnetic resonance feature at g = 2.04 which is similar to previously reported iron-nitrosyl complexes formed from the destruction of iron-sulfur centers by nitric oxide. Inhibition of the nitric oxide synthase by NG-monomethylarginine completely prevents the formation of this EPR signal in islets. These results show that IL-1-induced inhibition of insulin secretion is mediated through formation of nitric oxide and suggest that the generation of nitric oxide may represent the cellular mechanism responsible for beta-cell destruction.
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PMID:Interleukin-1 beta-induced formation of EPR-detectable iron-nitrosyl complexes in islets of Langerhans. Role of nitric oxide in interleukin-1 beta-induced inhibition of insulin secretion. 165 59

The spin-labeled glucose nitrosoureas 13-16, streptozotocin (18), chlorozotocin (31), streptozotocin analogues of galactosyl 24 and mannosyl 28, and their tetra-O-acetyl derivatives 25 and 29, MCNU (Cymerin, 34), and glucamine (21) were synthesized and evaluated in vivo for their anticancer activities against the murine lymphocytic leukemia P388. Compounds 13-16, 18, 24, 28, 31, and 34 possessed activities ranging from 33 to 603% increase in life span (%ILS), whereas 21, 25, and 29 were inactive (%ILS = 9 to 10). All CD2F1 male mice treated with the most active compounds (13, 14, and 34) at 20 mg/kg were alive after 30 days, whereas all mice treated with the clinical drug streptozotocin (18) and clinically tested chlorozotocin (31) succumbed. Compounds 13-16, 18, 31, and 34 were further evaluated for their antineoplastic activity against lymphoid leukemia L1210. Compounds 13 and 34 on day 60 exhibited %ILS values of 557 and 713, respectively, as compared with %ILS values of 646 and 713 for CCNU (1) and the spin-labeled SLCNU (3), respectively. The lipophilicities of 13-16, 18, 21, 24, 25, 28, 29, 31, and 34 were determined using EPR and/or UV methods. A predictive design pattern was observed, with the most active drug (34) possessing some hydrophobic property (log P = 1.24), followed by 13 (log P = 1.87) and 14 (log P = 1.81) as the more active drugs with higher hydrophobicity than 34. The clinical drugs streptozotocin (18) and chlorozotocin (31) were distinctly hydrophilic and less active. Finally, it was concluded that various scattered results of anticancer activity in the literature can be explained by a linear correlation of activities with lipophilicities.
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PMID:In the search for new anticancer drugs. XXIII: Exploration of a predictive design for anticancer drugs of carbohydrates containing N-nitrosochloroethylamino, N-nitrosomethyl, and N-nitrosoaminoxyl components. 165 97

We describe the first complete segregation of a targeted inactivation of psaA encoding one of the P700-chlorophyll a apoproteins of photosystem (PS) I. A kanamycin resistance gene was used to interrupt the psaA gene in the unicellular cyanobacterium Synechocystis sp. PCC 6803. Selection of a fully segregated mutant, ADK9, was performed under light-activated heterotrophic growth (LAHG) conditions; complete darkness except for 5 min of light every 24 h and 5 mM glucose. Under these conditions, wild-type cells showed a 4-fold decrease in chlorophyll (chl) per cell, primarily due to a decrease of PS I reaction centers. Evidence for the absence of PS I in ADK9 includes: the lack of EPR (electron paramagnetic resonance) signal I, from P700+; undetectable P700-apoprotein; greatly reduced whole-chain photosynthesis rates; and greatly reduced chl per cell, resulting in a turquoise blue phenotype. The PS I peripheral proteins PSA-C and PSA-D were not detected in this mutant. ADK9 does assemble near wild-type levels of functional PS II per cell, evidenced by: EPR signal II from YD+; high rates of oxygen evolution with 2,6-dichloro-p-benzoquinone (DCBQ), an electron acceptor from PS II; and accumulation of D1, a PS II core polypeptide. The success of this transformation indicates that this cyanobacterium may be utilized for site-directed mutagenesis of the PS I core.
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PMID:Targeted genetic inactivation of the photosystem I reaction center in the cyanobacterium Synechocystis sp. PCC 6803. 171 64

The anaerobic archaebacterium, Pyrococcus furiosus, grows optimally at 100 degrees C by a fermentative-type metabolism in which H2, CO2, and organic acids are end products. The growth of this organism is stimulated by tungsten, and, from it, a novel, red-colored, tungsten-iron-sulfur protein, abbreviated RTP, has been purified (Mukund, S., and Adams, M. W. W. (1990) J. Biol. Chem. 265, 11508-11516). RTP (Mr approximately 85,000) contained approximately 1W, 7Fe, and 5 acid-labile sulfide atoms/molecule and exhibited unique EPR properties. The physiological function of the protein, however, was unknown. We show here that RTP is an inactive form of an aldehyde ferredoxin oxidoreductase (AOR). The active enzyme was obtained by rapid purification under anaerobic conditions using buffers containing dithiothreitol and glycerol. AOR catalyzed the oxidation of a range of aliphatic aldehydes with an optimum temperature for activity above 90 degrees C, but it did not oxidize glucose or glyceraldehyde 3-phosphate, nor reduce NAD(P), and its activity was independent of CoA. The active (AOR) and inactive (RTP) forms of the enzyme were indistinguishable in their contents of metals and acid-labile sulfide and in their EPR properties. The latter are though to originate from two nonidentical and spin-coupled iron-sulfur clusters, whereas the tungsten in this enzyme, which was not detectable by EPR, appears to be present as a novel pterin cofactor. Inhibition and activation studies indicated that AOR contains a catalytically essential W-SH group that is not present in RTP, the inactive form. AOR is a new type of aldehyde-oxidizing enzyme and is the first aldehyde oxidoreductase to be purified from an archaebacterium or a nonactogenic anaerobic bacterium. Its physiological role in P. furiosus is proposed as the oxidation of glyceraldehyde to glycerate in a unique, partially nonphosphorylated, glycolytic pathway that generates acetyl-CoA from glucose without the participation of nicotinamide nucleotides.
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PMID:The novel tungsten-iron-sulfur protein of the hyperthermophilic archaebacterium, Pyrococcus furiosus, is an aldehyde ferredoxin oxidoreductase. Evidence for its participation in a unique glycolytic pathway. 190 73

The effect of inositol hexakisphosphate (IHP) on the spectroscopic (EPR and absorbance) properties of the nitric oxide derivative of ferrous naturally glycated human hemoglobin HbA1c (HbA1cNO) has been investigated quantitatively. The results obtained show that 1) both in the absence and presence of IHP, the EPR and absorbance spectra of HbA1cNO show the same basic characteristics described for the nitrosyl derivative of ferrous HbA0, the nonglycated major component of human hemoglobin (HbA0NO); and 2) HbA1cNO binds IHP with an apparent dissociation equilibrium constant (upsilon = 1.8 x 10(-2) M), which is at least four orders of magnitude higher than that estimated for the polyphosphate interaction with HbA0NO (less than or equal to 3 x 10(-6) M). These data provide further independent evidence that interaction(s) of polyphosphates at the specific cleft between beta-chains along the dyad-axis is sterically hindered in HbA1c by the presence of the two glucose residues covalently bound to the N-termini of beta-chains, this finding being in agreement with the reduced effect of polyanions on HbA1c spectral and ligand-binding properties.
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PMID:Effect of inositol hexakisphosphate on the spectroscopic properties of the nitric oxide derivative of ferrous naturally glycated human hemoglobin HbA1c. 285 Oct 30

The degradation of mitochondrial translation products has been studied in Saccharomyces cerevisiae yeast. A high rate of degradation is observed in the early exponential phase of aerobic growth. Maturation of the yeast and glucose repression suppress the degradation. Anaerobic growth is also marked by a low breakdown rate of mitochondrial translation products. These variations did not correlate with the cytochrome c hydrolase activity of sonic submitochondrial particles (this activity was shown to reflect the general state of the proteolytic system of the inner mitochondrial membrane that is responsible for the breakdown of mitochondrially made polypeptides; see Novikova, L.A., et al. (1981) FEBS Lett. 135, 245-248). Experiments with lipid-soluble paramagnetic probes revealed significant variations in the physical state of the mitochondrial inner membrane, as judged from the comparison of the temperature-dependence plots of structural parameters obtained from the EPR spectra of the probes. The breakdown of mitochondrial translation products was, in general, the more rapid the lower was the temperature of the structural transition in the mitochondrial inner membrane and the higher was the relative content of unsaturated fatty acyl chains in the membrane phospholipids.
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PMID:Physical state of the mitochondrial inner membrane as a factor controlling the proteolysis of mitochondrial translation products in yeast. 608 1

EPR spectra of anion radicals were recorded as a result of chemical or enzymatic reduction at various pH of the pyrimido-triazine antibiotics. These anion radicals easily form superoxide radicals in the presence of oxygen. It is supposed that a higher selectivity of reumycin action is due to difference in the redox potentials of the neutral and ionized antibiotic forms. A possibility of enhance the reumycin potency may involve the pH lowering inside the tumor cells - for example, by glucose injections.
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PMID:[Free radical mechanism of action of pyrimido-triazine antibiotics]. 609 93

The mechanism by which cells reduce cytoplasmic vanadium(V) (vanadate) to vanadium(IV) was investigated using the human red cell as a model system. Vanadate uptake by red cells occurs with a rapid phase involving chemical equilibration across the plasma membrane and a slower phase resulting in a high concentration of bound vanadium(IV). The slow phase was inhibited in glucose-starved cells and restored upon addition of glucose indicating an energy requirement for this process. The time course of vanadium(IV) appearance (monitored by EPR spectroscopy of intact cells) paralleled the slow phase of uptake indicating that this phase involves vanadium reduction. The reduction of intracellular vanadate to vanadium(IV) was nearly quantitative after 23 h. The intracellular reduction is not enzymatic, since a similar time course of vanadium reduction and binding to hemoglobin was observed when glutathione was added to a hemoglobin + vanadate solution in vitro. Vanadium(IV) binding to hemoglobin was reduced by addition of ATP, 2,3-diphosphoglycerate or EDTA, probably through chelation of the cation. The stability constant of the ATP-vanadium (IV) complex was determined to be 150 M-1 at pH 4.9. The time course of red cell vanadate uptake and reduction was followed in the concentration range in which approximately 60% inhibition of the (Na+ + K+)-ATPase is observed. It is concluded that vanadate is reduced by cytoplasmic glutathione in this concentration range and that the reduction explains the resistance of the (Na+ + K+)-ATPase to vanadium in intact cells.
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PMID:Glutathione reduces cytoplasmic vanadate. Mechanism and physiological implications. 624 16


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