UNIPROT:P06889 - FACTA Search

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Exposure of superoxide dismutase to hydrogen peroxide or ascorbate -Fe(III) gives rise to the modification of the enzyme structure and the changes of its function as well as of its immunological property. The structure alterations are especially shown as the loss of the enzyme-bound copper, the production of peptide fragments, the formation of carbonyl groups in the amino acid side chains, the increase in the contents of aspartic acid, glutamic acid and glycine and a decrease in the number of histidine, proline, arginine, lysine, serine and threonine. Accompanying the structure changes, the enzyme lost its catalytic activity. Hydrogen peroxide and ascorbate -Fe(III) exhibited different effects on the structural and functional changes of the enzyme. Furthermore, the bovine superoxide dismutase exposed to hydrogen peroxide or ascorbate -Fe(III) with different kinds of antisera such as antibovine, anticanine, antiporcine and antihuman superoxide dismutase antisera all showed greatly increases in the reactivities. It is proposed that reactive oxygen species may play a role in the building up of circulating immune complexes in autoimmune diseases.
Biochem Mol Biol Int 1993 Apr
PMID:Oxidative modification of bovine erythrocyte superoxide dismutase by hydrogen peroxide and ascorbate -Fe(III). 850 44

To determine the regulatory role of prolyl hydroxylation in intracellular cardiac procollagen turnover, we examined the effects of prolyl 4-hydroxylase inhibitors (alpha, alpha-dipyridil, 3,4-dihydroxybenzoic acid ethyl ester, pyridine 2,4-dicarboxylic acid ethyl ester) and ascorbic acid on procollagen metabolism by cultured, neonatal rat cardiac fibroblasts. Ascorbate-deficient fibroblasts showed decreased rates of prolyl hydroxylation and total collagen accumulation without a significant reduction in alpha 1(I) and alpha 1(III) mRNA levels. The fraction of newly synthesized procollagens degraded intracellularly was also substantially increased in ascorbate-deficient cells (50 +/- 7 v 30 +/- 3% in ascorbate-deficient v control fibroblasts; P < 0.05). These findings were associated with increased intracellular accumulation of Type I procollagen, enhanced secretion of "underhydroxylated" pro alpha 1 (I) polypeptide into the cell culture medium, and decreased extracellular Type I collagen deposition. Similar results were obtained by treating cells with alpha, alpha-dipyridil (300 microns), and 3,4-dihydroxybenzoic acid ethyl ester (400 microM) in the presence of ascorbate. A major portion of the enhanced degradation of newly synthesized procollagens occurred within acidic intracellular compartments as indicated by the inhibition of procollagen degradation by chloroquine (25 microM). Inhibition of procollagen secretion by colchicine (0.5 micrograms/ml) enhanced the diversion to, and subsequent intracellular degradation of underhydroxylated procollagens in cardiac fibroblast lysosomes. We conclude that inactivation of prolyl 4-hydroxylase increases intracellular accumulation and intralysosomal degradation of newly synthesized cardiac procollagen polypeptides. These observations suggest that procollagen prolyl hydroxylation may be important in the regulation of collagen accumulation by cardiac interstitial cells during fibrotic processes in vivo
J Mol Cell Cardiol 1995 Aug
PMID:Prolyl hydroxylation regulates intracellular procollagen degradation in cultured rat cardiac fibroblasts. 852 10

Incubation of MC-1010 cells with the spin-trapping agent 5,5-dimethyl-1-pyrroline 1-oxide (DMPO) followed by brief treatment with the solid oxidant lead dioxide (PbO2) yielded, after filtration, a cell-free solution that contained two nitroxyl adducts. The first was the hydroxyl radical adduct, 5,5-dimethyl-2-hydroxypyrrolidine-1-oxyl (DMPO-OH), which formed immediately upon PbO2 oxidation. The second had a 6-line EPR spectrum typical of a carbon-centered radical (AN = 15.9 G; AH = 22.4 G) and formed more slowly. No radical signals were detected in the absence of either cells or PbO2 treatment. The 6-line spectrum could be duplicated in model systems that contained ascorbate, DMPO and DMPO-OH, where the latter was formed from hydroxyl radicals generated by sonolysis or the cleavage of hydrogen peroxide with Fe2+ (Fenton reaction). In addition, enrichment of MC-1010 cells with ascorbate prior to spin trapping yielded the 6-line EPR spectrum as the principal adduct following PbO2 oxidation and filtration. These results suggest that ascorbate reacted with DMPO-OH to form a carbon-centered ascorbyl radical that was subsequently trapped by DMPO. The requirement for mild oxidation to detect the hydroxyl radical adduct suggests that DMPO-OH formed in the cells was reduced to an EPR-silent form (i.e., the hydroxylamine derivative). Alternatively, the hydroxylamine derivative was the species initially formed. The evidence for endogenous hydroxyl radical formation in unstimulated leukocytes may be relevant to the leukemic nature of the MC-1010 cell line. The spin trapping of the ascorbyl radical is the first report of formation of the carbon-centered ascorbyl radical by means other than pulse radiolysis. Unless it is spin trapped, the carbon-centered ascorbyl radical immediately rearranges to the more stable oxygen-centered species that is passive to spin trapping and characterized by the well-known EPR doublet of AH4 = 1.8 G.
Mol Cell Biochem 1995 Jul 19
PMID:Spin trapping endogenous radicals in MC-1010 cells: evidence for hydroxyl radical and carbon-centered ascorbyl radical adducts. 859 20

In the present study we investigated if administration of vitamin A could protect rat liver microsomes and mitochondria from in vitro peroxidation. Appreciable decrease of chemiluminescence and lipid peroxidation was measured in microsomal membranes from rats receiving vitamin A, with respect to control animals. In membranes derived from control animals, the fatty acid composition was profoundly modified when subjected to in vitro peroxidation mediated by ascorbate-Fe++, with a considerable decrease of 20:4 n6 and 22:6 n3 in mitochondria and 18:2 n6 and 20:4 n6 in microsomes. As a consequence the peroxidizability index, a parameter based on the maximal rate of oxidation of specific fatty acids was higher in supplemented animals than in control group when both kind of membranes were analyzed. These changes were less pronounced in membranes derived from rats receiving vitamin A. These results are in agreement with previous results that indicated that vitamin A may act as an antioxidant protecting membranes from deleterious effects.
Mol Cell Biochem 1996 Jan 12
PMID:Vitamin A supplementation inhibits chemiluminescence and lipid peroxidation in isolated rat liver microsomes and mitochondria. 871 20

Transitions in sarcomeric alpha-actin and cardiac myosin heavy chain (MHC) gene expression have been useful as molecular markers for the development of cardiac hypertrophy and failure. In simpler model systems, alpha-actin expression has been useful in delineating some of the molecular pathways responsible for its induction following growth stimulation in vitro. In this study, we report that the effects of adrenergic agonists on alpha-actin expression in neonatal cardiocytes is dependent upon the culture conditions. In cardiocytes plated at 5 x 10(4) cells/cm2, skeletal alpha-actin mRNA levels represent 47%, 37% or 42% of total sarcomeric alpha-actin accumulations following administrations of 4 microM norepinephrine (NE), isoproterenol (Iso), or phenylephrine (PE), respectively. Cultured cardiocytes treated with vehicle (ascorbate) only accumulated 19% skeletal alpha-actin. Under these tissue culture conditions, in contrast to data reported previously, skeletal alpha-actin expression is regulated by both alpha- and beta-adrenergic agonist stimulation. Furthermore, we present data showing that an endogenous anti-beta-MHC transcript is regulated by both pressure-overload- or thyroxine-induced cardiac hypertrophy. Although anti-beta-MHC transcripts do not play a major role in regulating beta-MHC gene expression, the presence of this antisense transcript is associated with a novel set of beta-MHC degradation products. In vitro studies, where oligonucleotides complementary to beta-MHC have been introduced into cardiomyocytes, show that the mRNA levels of beta-MHC are decreased by 14-21% within 72 h after addition of the oligonucleotides. This result together with the presence of beta-MHC degradation products suggest that endogenous anti-beta-MHC transcripts may be involved in a post-transcriptional regulatory mechanism affecting the steady-state levels of beta-MHC expression.
Mol Cell Biochem
PMID:Regulation of expression of contractile proteins with cardiac hypertrophy and failure. 873 45

Oxygen toxicity and related free radical reactions are implicated in numerous pathophysiological conditions, like atherosclerosis, inflammation, gastric ulceration, neuronal degeneration, tumour promotion. The flowers of Matricaria chamomilla, Asteraceae, have been used therapeutically for conditions in which oxidative stress is supposed to be implicated. We considered interesting to investigate the effect of Chamazulene, the active substance of chamomile, on free radical processes. Membrane lipid peroxidation was induced by Fe2+/ascorbate and assessed as the 2-thiobarbituric acid reactive material. The hydroxyl radical scavenging activity was studied as the competition of Chamazulene with DMSO for HO. generated by Fe3+/ascorbate. Finally, the interaction of Chamazulene with the N-centered stable free radical DPPH was estimated photometrically (517 nm). It was found that Chamazulene inhibited lipid peroxidation in a concentration and time dependent manner presenting an IC50 of 18 microM after 45 min incubation. It could also inhibit the autoxidation of DMSO (33 mM) by 76% at 25 mM, and had a weak capacity to interact with DPPH. In conclusion, Chamazulene presents interesting properties concerning radical processes.
Res Commun Mol Pathol Pharmacol 1996 Jun
PMID:Investigation of the effect of chamazulene on lipid peroxidation and free radical processes. 882 32

In the present studies we have described a glutathione-dependent system in sheep liver microsomes that protects against membrane lipid peroxidation initiated by either Fe+2/NADPH or Fe+2/ascorbate. Glutathione protected against lipid peroxidation in microsomes containing a wide range of alpha-tocopherol levels (0.02-0.11 microgram/mg protein). The addition of glutathione disulfide alone had no effect on microsomal lipid peroxidation, however, it prolonged the protection afforded by glutathione, particularly in assays containing Fe+2/NADPH. Whereas the glutathione-dependent protection was very labile, with loss of activity demonstrated in microsomes stored at 4 degrees C for 24 hours, the combined effect of glutathione and glutathione disulfide was not affected by storage. The glutathione S-transferase inhibitors, bromosulphothalein and S-hexylglutathione, reversed the protection observed with glutathione, indicating a possible role for microsomal glutathione S-transferases in this protection, but not that observed by the combination of glutathione and glutathione disulfide. In general, our findings support previous results observed with rat liver microsomes and suggest that microsomal glutathione S-transferases may be involved in the glutathione-dependent protection in sheep liver microsomes.
Biochem Mol Biol Int 1996 Mar
PMID:Glutathione-dependent protection against lipid peroxidation in sheep liver microsomes. 882 16

Phenoloxidase (PO) activity in the albumen gland (AG) and egg masses (EM) of Biomphalaria glabrata was assessed using high-performance liquid chromatography combined with electrochemical detection and colorimetric techniques. Both AG and EM extracts catalyzed the hydroxylation of L-tyrosine (monophenol oxidase activity, MPO) and oxidation of L-dopa (diphenol oxidase activity, DPO). However, no PO activity was found in the ovotestis. Both MPO and DPO activities in AG and EM were significantly inhibited by 1-phenyl-2-thiourea and inactivated by boiling. Approximately 35% of MPO and 44% of DPO activities were detected in the soluble fraction of homogenized EM, in contrast to that of homogenized AG, which contained about 5% and 12%, respectively, of MPO and DPO activities. N-acetyl-dopamine, a diphenolic compound, enhanced the hydroxylation of tyrosine by the PO. The presence of both MPO and DPO activities also was confirmed by the accelerated accumulation of dopachrome during incubation of EM extracts with L-tyrosine in the absence of ascorbate. Temperature and pH optima for this enzyme were 30 degrees C and 7.5, respectively. The potential roles of PO in egg formation in B glabrata are discussed.
Comp Biochem Physiol B Biochem Mol Biol 1996 Aug
PMID:Phenoloxidase activity in the reproductive system and egg masses of the pulmonate gastropod, Biomphalaria glabrata. 884 May 12

The major protein in the sarcoplasmic reticulum (SR) membrane is the Ca2+ transporting ATPase which carries out active Ca2+ pumping at the expense of ATP hydrolysis. The aim of this work was to elucidate the mechanisms by which oxidative stress induced by Fenton's reaction (Fe(2+)+H2O2-->HO.+OH-+Fe3+) alters the function of SR. ATP hydrolysis by both SR vesicles (SRV) and purified ATPase was inhibited in a dose-dependent manner in the presence of 0-1.5 mM H2O2 plus 50 microM Fe2+ and 6 mM ascorbate. Ca2+ uptake carried out by the Ca(2+)-ATPase in SRV was also inhibited in parallel. The inhibition of hydrolysis and Ca2+ uptake was not prevented by butylhydroxytoluene (BHT) at concentrations which significantly blocked formation of thiobarbituric acid-reactive substances (TBARS), suggesting that inhibition of the ATPase was not due to lipid peroxidation of the SR membrane. In addition, dithiothreitol (DTT) did not prevent inhibition of either ATPase activity or Ca2+ uptake, suggesting that inhibition was not related to oxidation of ATPase thiols. The passive efflux of 45Ca2+ from pre-loaded SR vesicles was greatly increased by oxidative stress and this effect could be only partially prevented (ca 20%) by addition of BHT or DTT. Trifluoperazine (which specifically binds to the Ca(2+)-ATPase, causing conformational changes in the enzyme) fully protected the ATPase activity against oxidative damage. These results suggest that the alterations in function observed upon oxidation of SRV are mainly due to direct effects on the Ca(2+)-ATPase. Electrophoretic analysis of oxidized Ca(2+)-ATPase revealed a decrease in intensity of the silver-stained 110 kDa Ca(2+)-ATPase band and the appearance of low molecular weight peptides (MW < 100 kDa) and high molecular weight protein aggregates. Presence of DTT during oxidation prevented the appearance of protein aggregates and caused a simultaneous increase in the amount of low molecular weight peptides. We propose that impairment of function of the Ca(2+)-pump may be related to aminoacid oxidation and fragmentation of the protein.
Mol Cell Biochem 1996 Jun 21
PMID:Oxidative damage to sarcoplasmic reticulum Ca(2+)-pump induced by Fe2+/H2O2/ascorbate is not mediated by lipid peroxidation or thiol oxidation and leads to protein fragmentation. 885 60

L-threose is a product of ascorbate oxidation and degradation. By virtue of its free aldehyde group it can form Schiff-bases with tissue proteins, altering their normal function. In this study, we have examined the possibility of its detoxification to L-threitol by aldose reductase in the lens. The rat lens enzyme present in fresh homogenate as well as after 100 fold purification was found to utilize L-threose with a km of 7.1 x 10(-4) M. The specificity of the reaction was affirmed by its inhibition with sorbinil and quercetin, the well known aldose reductase inhibitors. Further studies on the role of this enzyme in preventing toxicity due to degradation products of ascorbate are in progress.
Mol Cell Biochem 1996 Jun 21
PMID:Studies on L-threose as substrate for aldose reductase: a possible role in preventing protein glycation. 885 62

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