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:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The blind subterranean mole rat Spalax ehrenbergi superspecies has evolved adaptive strategies to cope with underground stress. Hypoxia is known to stimulate reactive oxygen species generation; however, mechanisms by which Spalax counteracts oxidative damage have not been investigated before. We studied in Spalax the oxidative status of the Harderian gland (HG), an organ which is particularly vulnerable to oxidative stress in many rodents. With regard to the sexual dimorphism found in this gland, differences between males and females were determined and compared to the surface-dwelling Syrian hamster. Our results show, for the first time, that Spalax exhibits remarkably low biomolecular damage, which implies the existence of physiological strategies to avoid oxidative damage under fluctuating O(2) and CO(2) levels existing in the mole rat's subterranean niche. Correspondingly, main antioxidant enzymes, such as superoxide dismutase (SOD), catalase, and glutathione reductase (GR), exhibited high activities in both genders; in particular, remarkably high levels were measured in SOD. SOD and GR activities showed statistically significant differences between sexes. Melatonin, an important circadian agent is also a very important antioxidant molecule and is synthesized in the Harderian glands (HGs) of Spalax. Therefore, the possible interaction between antioxidant enzymes and melatonin is suggested.
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PMID:Antioxidant activity in Spalax ehrenbergi: a possible adaptation to underground stress. 1647 5

Ascorbic acid oxidase activity in Myrothecium verrucaria extracts resulted in O(2) uptake exceeding 0.5 mole per mole of ascorbic acid and in CO(2) evolution. Measurement of oxidized ascorbic acid at completion of the reaction demonstrated that an average of 10% of the oxidized product disappeared. A comparison of the gas exchange data with the amount of ascorbic acid not accounted for indicated that the reaction could not be explained by independent oxidase and oxygenase systems. Chromatographic examination of the reaction mixtures identified l-threonic acid. Experiments with ascorbic acid-1-(14)C showed that C-1 was partially decarboxylated during the oxidation. Test of the fungal extracts for enzymes that might explain the deviation from expected stoichiometry showed that phenolase, glutathione reductase, cytochrome oxidase, peroxidase and oxalic decarboxylase were not involved. Addition of azide in concentrations sufficient to block catalase increased excess O(2) consumption about 65%. No enzymes were found that could directly attack oxidized ascorbic acid. H(2)O(2) accumulated during oxidation in azide-blocked systems.The O(2) excess could be explained by assuming the enzyme had peroxidative capacity on a reductant other than ascorbic acid. An intermediate of ascorbic acid oxidation appeared to function as the substrate yielding CO(2) and l-threonic acid on degradation. The increase in excess O(2) utilized in azide-blocked systems and the H(2)O(2) accumulation also were explained by the proposed scheme.Another interpretation would involve production of free radicals during ascorbic acid oxidation. Evidence for this was the ability of extracts to oxidize DPNH in the presence of ascorbic acid. Oxygen radicals formed in such reactions were considered possible agents of degradation of ascorbic acid.
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PMID:Reaction Properties of the Ascorbic Acid Oxidase from Myrothecium verrucaria. 1665 40

Seedlings of tobacco (Nicotiana sylvestris) were treated in vivo with 0.03 to 20 millimolar 3-amino-1,2,4-triazole (aminotriazole). There was a rapid loss of catalase (EC 1.11.1.6) activity over the first 5 hours followed by a slower decrease for the next 4 hours to a level that was 15 to 20% of the initial activity, with little or no change for periods up to 3 days. Fifty percent loss of catalase activity occurred at 0.10 to 0.15 millimolar inhibitor (18-hour incubation). The isozymes of tobacco catalase differed in sensitivity to the inhibitor. Enhanced-peroxidatic catalase (EP-CAT) (Havir EA, McHale NA, [1989] Plant Physiol 91: 812-815) decreased 35% under conditions in which the major isozyme decreased 85%. The resistance to aminotriazole inhibition demonstrated in vivo by EP-CAT was also observed in vitro. The times for 50% inhibition at 0.67, 3.33, 5.0, 10.0, and 15 millimolar aminotriazole were 15, 5, 2.6, 2.5, and 1.5 minutes, respectively, for the major isozyme of catalase and 60, 18.5, 5.1, 4, and 3.0 minutes, respectively, for EP-CAT. Increasing H(2)O(2) concentration did not change the sensitivity of EP-CAT to aminotriazole. The major form of catalase contained 4.0 +/- 0.4 moles of heme per mole enzyme and EP-CAT 3.4 +/- 0.3. Thus, the resistance of EP-CAT to aminotriazole is probably not due to lowered affinity for H(2)O(2) or alteration in heme content but to structural changes that impair inhibitor binding.
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PMID:The in Vivo and in Vitro Inhibition of Catalase from Leaves of Nicotiana sylvestris by 3-Amino-1,2,4-Triazole. 1666 19

1. O-(2-Aminoethyl)serine (oxalysine) was shown to be a substrate of the l-amino acid oxidase of the digestive gland of the common mussel, Mytilus edulis. 2. Three atoms of oxygen were consumed per mole of oxalysine oxidized in the presence of catalase; l-lysine under the same conditions consumed only one atom. 3. The products of oxidation of oxalysine in the presence and the absence of catalase were: ethanolamine, N-oxalylethanolamine and 3-morpholone (the oxygen analogue of 2-piperidone). After acid hydrolysis 70% of the oxalysine oxidized was recovered as ethanolamine. 4. In the absence of catalase 2-aminoethoxyacetic acid was also detected. 5. The products identified account quantitatively for the oxalysine oxidized and for the oxygen uptake. 6. N-Oxalylethanolamine and 2-aminoethoxyacetic acid have been synthesized. 7. Treatment of extracts of the digestive gland at pH3.0 completely inactivated the catalase, leaving the l-amino acid oxidase unaffected. 8. The major product of the oxidation of lysine in the absence of catalase was 2-piperidone.
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PMID:The oxidation of lysine and oxalysine by Mytilus edulis: Identification of the products formed in the presence and the absence of catalase. 1674 9

The naked mole rat (NMR; Heterocephalus glaber) is the longest-living rodent known [maximum lifespan potential (MLSP): >28 yr] and is a unique model of successful aging showing attenuated declines in most physiological function. This study addresses age-related changes in endothelial function and production of reactive oxygen species in NMR arteries and vessels of shorter-living Fischer 344 rats (MLSP: approximately 3 yr). Rats exhibit a significant age-dependent decline in acetylcholine-induced responses in carotid arteries over a 2-yr age range. In contrast, over a 10-yr age range nitric oxide (NO)-mediated relaxation responses to acetylcholine and to the NO donor S-nitrosopencillamine (SNAP) were unaltered in NMRs. Cellular superoxide anion (O(2)(*-)) and H(2)O(2) production significantly increased with age in rat arteries, whereas they did not change substantially with age in NMR vessels. Indicators of apoptotic cell death (DNA fragmentation rate, caspase 3/7 activity) were significantly enhanced ( approximately 250-300%) in arteries of 2-yr-old rats. In contrast, vessels from 12-yr-old NMRs exhibited only a approximately 50% increase in apoptotic cell death. In the hearts of NMRs (2 to 26 yr old), expression of endothelial NO synthase, antioxidant enzymes (Cu,Zn-SOD, Mn-SOD, catalase, and glutathione peroxidase), the NAD(P)H oxidase subunit gp91(phox), and mitochondrial proteins (COX-IV, ATP synthase, and porin, an indicator of mitochondrial mass) did not change significantly with age. Thus long-living NMRs can maintain a youthful vascular function and cellular oxidant-antioxidant phenotype relatively longer and are better protected against aging-induced oxidative stress than shorter-living rats.
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PMID:Vascular aging in the longest-living rodent, the naked mole rat. 1746 32

Bimetallic nanoparticles consisting of gold and platinum were prepared by a citrate reduction method and complementarily stabilized with pectin (CP-Au/Pt). The percent mole ratio of platinum was varied from 0 to 100%. The CP-Au/Pt were alloy-structured. They were well dispersed in water. The average diameter of platinum nanoparticles (CP-Pt) was 4.7 +/- 1.5 nm. Hydrogen peroxide (H(2)O(2)) was quenched by CP-Au/Pt consisting of more than 50% platinum whereas superoxide anion radical (O(2)(-)) was quenched by any CP-Au/Pt. The CP-Au/Pt quenched these two reactive oxygen species in dose-dependent manners. The CP-Pt is the strongest quencher. The CP-Pt decomposed H(2)O(2) and consequently generated O(2) like catalase. The CP-Pt actually quenched O(2)(-) which was verified by a superoxide dismutase (SOD) assay kit. This quenching activity against O(2)(-) persisted like SOD. Taken together, CP-Pt may be a SOD/catalase mimetic which is useful for medical treatment of oxidative stress diseases.
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PMID:Platinum nanoparticle is a useful scavenger of superoxide anion and hydrogen peroxide. 1751 33

A class III peroxidase, isolated and characterized from the latex of the perennial Mediterranean shrub Euphorbia characias, contains one ferric iron-protoporphyrin IX pentacoordinated with a histidine 'proximal' ligand as heme prosthetic group. In addition, the purified peroxidase contained 1 mole of endogenous Ca(2+) per mole of enzyme, and in the presence of excess Ca(2+), the catalytic efficiency was enhanced by three orders of magnitude. The incubation of the native enzyme with Ni(2+) causes reversible inhibition, whereas, in the presence of excess Ca(2+), Ni(2+) leads to an increase of the catalytic activity of Euphorbia peroxidase. UV/visible absorption spectra show that the heme iron remains in a quantum mechanically mixed-spin state as in the native enzyme after addition of Ni(2+), and only minor changes in the secondary or tertiary structure of the protein could be detected by fluorescence or CD measurements in the presence of Ni(2+). In the presence of H(2)O(2) and in the absence of a reducing agent, Ni(2+) decreases the catalase-like activity of Euphorbia peroxidase and accelerates another pathway in which the inactive stable species accumulates with a shoulder at 619 nm. Analysis of the kinetic measurements suggests that Ni(2+) affects the H(2)O(2)-binding site and inhibits the formation of compound I. In the presence of excess Ca(2+), Ni(2+) accelerates the reduction of compound I to the native enzyme. The reported results are compatible with the hypothesis that ELP has two Ni(2+)-binding sites with opposite functional effects.
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PMID:Allosteric modulation of Euphorbia peroxidase by nickel ions. 1826 63

Purified human alpha(1) proteinase inhibitor, a plasma glycoprotein with a molecular weight of 5.3 x 10(4) daltons and a major serine protease inhibitor has been covalently coupled to dextrans with molecular weights of 1.77 x 10(4) and 1.03 x 10(4) daltons. The coupled conjugates were soluble in aqueous medium and stable up to 6 months at +5 degrees C. Increased moles of dextran/mole protein ratio during coupling resulted in progressive decreases of inhibitory capacity, immunogenicity, and the association constant (k(assoc)) between the enzyme and the inhibitor. Compared to the native protein, the soluble conjugates showed improved stability at pH 3.0 and heat stability at 60 degrees C. At 60 degrees C, no loss of inhibitory capacity has been seen up to 60 min for the conjugates during which time the native protein lost greater than 90% of its inhibitory capacity. The presence of antioxidant catalase was needed to prevent oxidative degradation by hydrogen peroxide.
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PMID:Preparation and characterization of a soluble dextran alpha(1) proteinase inhibitor complex. 1855 39

Tetrameric bovine liver catalase (BLC) is unstable because of its dissociation into subunits at low enzyme concentrations and the conformational change of the subunits at high temperatures. In this work, for stabilization of BLC, the enzyme was covalently conjugated with liposome membranes composed of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC), cholesterol and 1,2-dioleoyl-sn-glycero-3-phosphoethanolamine-N-glutaryl (NGPE). The NGPE, which was responsible for the BLC/membrane coupling, was altered from 0.05 to 0.2 in its liposomal mole fraction f(G). The catalase-conjugated liposome (CCL) with f(G) of 0.15 showed the maximum number of the conjugated BLC molecules of 28 per liposome. The reactivity of CCLs to H(2)O(2) was as high as that of free BLC at 25 degrees C in Tris-HCl buffer of pH 7.4. Among the CCLs, the catalyst with f(G) of 0.15 was the most stable at 55 degrees C in its enzyme activity in the buffer because the appropriate number of BLC/liposome covalent bonding prevented the dissociation-induced enzyme deactivation. Furthermore, the CCL showed much higher stability at 55 degrees C than the free BLC/enzyme-free liposome mixture and free BLC at the low BLC concentration of 340ng/mL. This was because BLC in the CCL was located in the vicinity of the host membrane regardless of the catalyst concentration, which could induce the effective stabilization effect of the membrane on the enzyme tertiary structure as indicated by the intrinsic tryptophan fluorescence analysis. The results obtained demonstrate the high structural stability of BLC in the CCL system, which was derived from the covalent bonding and interaction between BLC and liposomes.
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PMID:Covalent conjugation of tetrameric bovine liver catalase to liposome membranes for stabilization of the enzyme tertiary and quaternary structures. 1913 Dec 21

Malignant melanoma incidence is increasing rapidly in Western countries. Its prevention requires a deep knowledge of the biological basis of the neoplasm leading to the identification of new biological risk markers. In in-vitro and ex-vivo models we demonstrated that catalase was modified not only in its activity but also in its charge properties after ultraviolet A irradiation through pheomelanin. Here we focus on the electrophoretic behaviour of catalase in the human skin in vivo, in association with cutaneous phototype. Zymographic analysis of the enzyme on skin biopsies from Caucasian population (phototype I-IV), collected from the trunk in autumn-winter, to exclude possible influences of an acute photoexposure, evidenced a protein doublet, representing the coexistence of two active isoforms of catalase with different charge properties. In the skin from low-phototype subjects, the percent contribution of the more acidic component of the doublet was prevalent, inversely correlated with total melanin concentration in hair, and associated with a high number of melanocytic nevi. In summary, this study shows for the first time the existence of an acidic catalase in association with clinically defined risk characteristics in low phototype skin in vivo, contributing to the knowledge of a new biochemical marker of cutaneous photosusceptibility.
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PMID:Acidic catalase in human skin in vivo: a new marker of permanent damage. 1974 52


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