UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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The mechanism of oxidation or reduction using the electron method was investigated for (I) aniline; (II) nitrobenzene; (III) nitrate; (IV) sulphanilamide; (V) hydrogen peroxide; (VI) hydroxyl free radical; (VII) ferricyanide; (VIII) acetylphenylhydrazine; (IX) nitrite; (X) chlorate and (XI) hydroxylamine respectively. Substances (II), (III), (V), (VI), (VII), (IX), (X) and (XI) evolved as oxidants, with (II), nitrobenzene and (X), chlorate as the most powerful oxidants (number of moles of HbFe(2+)(haemoglobin) of 6 reacting with 1.0 mole of the substance). Substances (I), (IV) and (VII) evolved as reductants of equal reducing power (number of moles of HbFe(3+)(methaemoglobin) of 4 reacting with 1.0 mole of the substance). Using the following equations, the impact of oxidants and reductants on glutathione (GSH) peroxidase, glutathione (GSSC) reductase and NADHmetHb reductase respectively on methaemoglobinaemia generation was investigated. [Equation in text]. Redox potential change (DeltaE' (o)) of 1.77, -1.77 and 1.86 volt and free energy change (DeltaG(o)') of -81, 81 and -85.8 kcal/mol were calculated for GSH peroxidase, GSSG reductase and NADHmetHb reductase systems respectively. In sustained methaemoglobinaemia, these mechanisms predict low levels of NADHmetHb reductase and glutathione peroxidase respectively, but high levels of glutathione reductase in red blood cells on exposure to oxidants. The significance of these mechanisms was investigated in cord blood, neonatal, adult red blood cells and other biological systems. It was concluded that any reaction with a positive DeltaE(o)' and negative DeltaG(o)' with the Fe(3+): Fe(2+)couple will indicate methaemoglobin oxidizing power. The effects on red blood cells and white blood cells were manifested in the biochemical toxicology of nitroso (PhN = 0), arylamine glucuronide (PhNHG) and arene imine respectively.
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PMID:Theoretical mechanistic basis of oxidants of methaemoglobin formation. 1079 Jul 68

Kinetics of inactivation of horseradish peroxidase (HP) induced by low-frequency ultrasonic (US) treatment (27 kHz) with the specific power of 60 W/cm2 were studied in phosphate (pH 7.4) and acetate (pH 5.2) buffers within the temperature range of 36.0 to 50.0 degrees C and characterized by effective first-order rate constants of US inactivation k(in)(us) in min(-1). Values of k(in)(us) depend on the specific ultrasonic power within the range of 20-60 W/cm2, on the concentration of HP, and on pH and temperature of the solutions. The activation energy of US inactivation of HP is 9.4 kcal/mole. Scavengers of HO* radicals, mannitol and dimethylformamide, significantly inhibit the US inactivation of HP at 36.0 degrees C, whereas micromolar concentrations of polydisulfide of gallic acid (poly(DSG)) and of poly(2-aminodisulfide-4-nitrophenol) (poly(ADSNP)) virtually completely suppress the US inactivation of peroxidase at the ultrasonic power of 60 W/cm2 on the sonication of the enzyme solutions for more than 1 h at pH 5.2. Various complexes of poly(DSG) with human serum albumin effectively protect HP against the US inactivation in phosphate buffer (pH 7.4). The findings unambiguously confirm a free radical mechanism of the US inactivation of HP in aqueous solutions. Polydisulfides of substituted phenols are very effective protectors of peroxidase against inactivation caused by US cavitation.
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PMID:Polydisulfides of substituted phenols as effective protectors of peroxidase against inactivation by ultrasonic cavitation. 1156 53

PHGPx of rat sperm mitochondrial capsule is cross-linked and inactive. The enzyme is in part released in an active form by mercaptoethanol. Treatment with H(2)O(2) of reduced and solubilised capsule proteins, in the absence of any added reductant, results in: i) H(2)O(2) consumption which depends on the presence of both, PHGPx activity and protein thiols; ii) protein thiol oxidation with a stoichiometry of 2 equivalents of thiol per mole of hydroperoxide and, iii) PHGPx inactivation and cross-linking. SDS-PAGE analysis of monobromobimane-labeled proteins, following incubation with H(2)O(2), shows that the oxidation takes place in specific bands in the area of 20~kDa. It is concluded that the protein thiol peroxidase activity of PHGPx is responsible for cross-linking proteins in the mammalian sperm capsule and accounts for the selenium dependency of spermatogenesis.
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PMID:PHGPx and spermatogenesis. 1156 59

Naked mole-rats are eusocial mammals that live in colonies with a single breeding female and one to three breeding males. All other members of the colony, known as subordinates, are nonreproductive and exhibit few sex differences in behavior or genital anatomy. This raises questions about the degree of sexual differentiation in subordinate naked mole-rats. The striated perineal muscles associated with the phallus [the bulbocavernosus (BC), ischiocavernosus (IC), and levator ani (LA) muscles], and their innervating motoneurons, are sexually dimorphic in all rodents examined to date. We therefore asked whether perineal muscles and motoneurons were also sexually dimorphic in subordinate naked mole-rats. Muscles similar to the LA and IC of other rodents were found in naked mole-rats of both sexes. No clear BC muscle was identified, although a large striated muscle associated with the urethra in male and female naked mole-rats may be homologous to the BC of other rodents. There were no sex differences in the volumes of the LA, IC, or the urethral muscles. Motoneurons innervating the perineal muscles were identified by retrograde labeling with cholera-toxin-conjugated horseradish peroxidase. All perineal motoneurons were found in a single cluster in the ventrolateral lateral horn, in a position similar to that of Onuf's nucleus of carnivores and primates. There was no sex difference in the size or number of motoneurons in Onuf's nucleus of naked mole-rats. Thus, unlike findings in any other mammal, neither the perineal muscles nor the perineal motoneurons appear to be sexually differentiated in subordinate naked mole-rats.
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PMID:Perineal muscles and motoneurons are sexually monomorphic in the naked mole-rat (Heterocephalus glaber). 1192 Jul 26

The role of single electron transfer (SET) in P450-catalyzed N-dealkylation reactions has been studied using the probe substrates N-cyclopropyl-N-methylaniline (2a) and N-(1'-methylcyclopropyl)-N-methylaniline (2b). In earlier work, we showed that SET oxidation of 2a by horseadish peroxidase leads exclusively to products arising via fragmentation of the cyclopropane ring [Shaffer, C. L.; Morton, M. D.; Hanzlik, R. P. J. Am. Chem. Soc. 2001, 123, 8502-8508]. In the present study, we found that liver microsomes from phenobarbital pretreated rats (which contain CYP2B1 as the predominant isozyme) oxidize [1'-(13)C, 1'-(14)C]-2a efficiently (80% consumption in 90 min). Disappearance of 2a follows first-order kinetics throughout, indicating a lack of P450 inactivation by 2a. HPLC examination of incubation mixtures revealed three UV-absorbing metabolites: N-methylaniline (4), N-cyclopropylaniline (6a), and a metabolite (M1) tentatively identified as p-hydroxy-2a, in a 2:5:2 mole ratio, respectively. 2,4-Dinitrophenylhydrazine trapping indicated formation of formaldehyde equimolar with 6a; 3-hydroxypropionaldehyde and acrolein were not detected. Examination of incubations of 2a by (13)C NMR revealed four (13)C-enriched signals, three of which were identified by comparison to authentic standards as N-cyclopropylaniline (6a, 33.6 ppm), cyclopropanone hydrate (11, 79.2 ppm), and propionic acid (12, 179.9 ppm); the fourth signal (42.2 ppm) was tentatively determined to be p-hydroxy-2a. Incubation of 2a with purified reconstituted CYP2B1 also afforded 4, 6a, and M1 in a 2:5:2 mole ratio (by HPLC), indicating that all metabolites are formed at a single active site. Incubation of 2b with PB microsomes resulted in p-hydroxylation and N-demethylation only; no loss or ring-opening of the cyclopropyl group occurred. These results effectively rule out the participation of a SET mechanism in the P450-catalyzed N-dealkylation of cyclopropylamines 2a and 2b, and argue strongly for the N-dealkylation of 2a via a carbinolamine intermediate formed by a conventional C-hydroxylation mechanism.
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PMID:Formation of cyclopropanone during cytochrome P450-catalyzed N-dealkylation of a cyclopropylamine. 1210 5

Polymorphonuclear leukocytes from 115 patients with opisthrochiasis at its different (acute and chronic) stages were studied before and 1-3 days, 1-3 months, and 1-2 years after antihelminthic therapy with bilthricide. The functional activity of the cells in question was evaluated following an hour load with different drugs: bilthricide, ascorbic acid, decaris, cyclophosphane, doxycycline in a final concentration of 2.5 x 10(-5) mole/l. Physiological solution and autologous plasma were test controls. The changes in the activity of extracellular (secreted), intracellular (reserve), and summary myeloperoxidase on incubation with each test agent were found to depend on the stage of the disease and the interval after antihelminthic therapy. In early Opisthorchis invasion, the maximum increase in the induced activity of secreted myeloperoxidase is followed by a fall in the level of reserve myeloperoxidase in response to these drugs. With this, there is the most pronounced decrease in reserve myeloperoxidase of polymorphonuclear leukocytes in chronic opisthorchiasis, which may be due to the disrupted controlling processes of its production at late stages of the disease. The distinctive features of the action of agents on the overall activity of granular leukocytic myeloperoxidase in acute and chronic opisthorchiasis suggests that autologous plasma, ascorbic acid, and doxycycline should be used as a test control at the clinical stage of Opisthorchis invasion.
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PMID:[In vitro induced activity of polymorphonuclear leukocyte myeloperoxidase at different stages of opisthorchis invasion and at stages of a different rehabilitative period]. 1456 35

BspA is an abundant surface protein from Lactobacillus fermentum BR11, and is required for normal cystine uptake. In previous studies, a mutant strain deficient in BspA (L. fermentum PNG201) was found to be sensitive to oxidative stress. In this study, the biochemical basis for this was explored. It was found that under aerobic batch culture conditions in de Mann-Rogosa-Sharpe medium, both L. fermentum BR11 and PNG201 entered stationary phase due to hydrogen peroxide accumulation. However, this took place at a lower optical density for PNG201 than for BR11. Measurements of hydrogen peroxide levels revealed that the BspA mutant strain overproduces this compound. Addition of 6 mM cystine to aerobic cultures was found to prevent hydrogen peroxide production by both the BR11 and PNG201 strains, but lower cystine concentrations depressed hydrogen peroxide production in BR11 more efficiently than in PNG201. Each mole of cystine was able to prevent the production of several moles of hydrogen peroxide by L. fermentum BR11, suggesting that hydrogen peroxide breakdown is dependent upon a thiol that cycles between reduced and oxidized states. It was concluded that peroxide breakdown by L. fermentum BR11 is dependent upon exogenous cystine. It is most probable that the imported L-cystine is catabolized by a cystathionine lyase and then converted into a thiol reductant for a peroxidase.
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PMID:Cystine uptake prevents production of hydrogen peroxide by Lactobacillus fermentum BR11. 1456 53

To clarify the Fas and Fas-ligand status of normal and molar trophoblast, the expression of Fas and FasL by placental trophoblast populations in partial and complete hydatidiform moles was compared with that in normal first trimester and term pregnancies using an avidin-biotin peroxidase technique on frozen and formalin-fixed paraffin-embedded placental tissues with both monoclonal and polyclonal antibodies. The TUNEL technique was used to detect apoptotic cells in the same tissues. The immunoreactivity for Fas and Fas-ligand was comparable with both monoclonal and polyclonal antibodies on frozen as well as paraffin-embedded sections. In normal early and molar pregnancy there was strong FasL expression by villous cytotrophoblast and syncytiotrophoblast. However, there were significant differences in FasL expression by trophoblast subpopulations in both early and term normal pregnancy and between the same trophoblast subpopulation at different gestations, with FasL staining generally being weaker at term. Strong FasL staining by cytotrophoblast cells in the distal parts of cell columns contrasted with unstained cytotrophoblast in the proximal part of columns. Distinct trophoblast subpopulations in partial hydatidiform mole also differentially expressed FasL with reduced FasL expression in proliferating syncytiotrophoblast. In contrast there was no differential FasL expression in complete hydatidiform mole, all trophoblast subpopulations strongly expressing FasL. Unlike the differential expression of FasL there were no differences in Fas expression by trophoblast populations in normal early or term placental tissues. Fas expression was reduced in villous cytotrophoblast at term. Differential expression of Fas by different trophoblast subpopulations was noted in partial and complete hydatidiform mole. In complete mole villous cytotrophoblast and syncytiotrophoblast stained strongly compared with proliferating trophoblast. Using TUNEL labelling apoptosis was rarely detected in placental trophoblast. Differential Fas and FasL expression by trophoblast subpopulations in normal and pathological pregnancy does not appear to be related to apoptosis of trophoblast.
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PMID:Placental Fas and Fas ligand expression in normal early, term and molar pregnancy. 1502 24

A bispecific enzyme-linked signal-enhanced immunoassay (BiELSIA) was developed with markedly increased sensitivity. Antimyosin, the detection antibody, was linked to the signal probespecific antibody. Probes consisted of diethylenetriamine pentaacetic acids attached to polylysine modified with up to seven or eight horseradish peroxidase (HRP) units. Each bispecific antibody bound two polymer probes, providing twice the signal. Using BiELSIA in a competitive inhibition immunoassay format with an average of 1.5, 3, 4.5, 6, and 7.5 HRP units per polymer-probe, the sensitivity of standard enzyme-linked immunosorbent assay (10(13) mole) was increased to 10(15), 10(18), 10(19), 10(20), and 10(-21) mol (< or = 1,000 molecules), respectively. BiELSIA detected cardiac myosin heavy chain fragments in sera of patients obtained at the time of emergency department admission for acute myocardial infarction, but not in normal sera. This technology should be applicable for detection of cancer, human immunodeficiency virus, prion, and other antigens that are present in concentrations too low for detection by current immunoassays.
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PMID:Bispecific enzyme-linked signal-enhanced immunoassay with subattomole sensitivity. 1597 93

Hypochlorous acid (HOCl) and chloramines are produced by the neutrophil enzyme, myeloperoxidase. Both react readily with thiols, although chloramines differ from HOCl in discriminating between low molecular weight thiols on the basis of their pKa. Here, we have compared the reactivity of HOCl and taurine chloramine with thiol proteins by examining inactivation of creatine kinase (CK) and glyceraldehyde-3-phosphate dehydrogenase (GAPDH). With both enzymes, loss of activity paralleled thiol loss. For CK both were complete at a 1:1 taurine chloramine:thiol mole ratio. For GAPDH each chloramine oxidized two thiols. Three times more HOCl than taurine chloramine was required for inactivation, indicating that HOCl is less thiol specific. Competition studies showed that thiols of CK were 4 times more reactive with taurine chloramine than thiols of GAPDH (rate constants of 1200 and 300 M-1s-1 respectively). These compare with 205 M-1s-1 for cysteine and are consistent with their lower pKa's. Both enzymes were equally susceptible to HOCl. GSH competed directly with the enzyme thiols for taurine chloramine and protected against oxidative inactivation. At lower GSH concentrations, mixed disulfides were formed. We propose that chloramines should preferentially attack proteins with low pKa thiols and this could be important in regulatory processes.
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PMID:Taurine chloramine is more selective than hypochlorous acid at targeting critical cysteines and inactivating creatine kinase and glyceraldehyde-3-phosphate dehydrogenase. 1633 78

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