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A mouse embryo culture model was used to determine whether embryonic prostaglandin H synthase (PHS)-catalyzed bioactivation and resultant oxidative damage to embryonic protein and DNA may constitute a molecular mechanism mediating phenytoin and benzo[a]pyrene teratogenesis. Embryos were explanted from CD-1 mouse dams on gestational day 9.5 (vaginal plug = day 1) and incubated for either 4 h (biochemistry) or 24 h (embryotoxicity) at 37 degrees C in medium containing either phenytoin (20 micrograms/ml, 80 microM), benzo[a]pyrene (10 microM), or their respective vehicles. As previously observed with phenytoin (Mol. Pharmacol.48: 112-120, 1995), embryos incubated with benzo[a]pyrene showed decreases in anterior neuropore closure, turning, yolk sac diameter, and somite development (p < .05). Addition of the antioxidative enzyme superoxide dismutase (SOD) substantially enhanced embryonic SOD activity (p < .05) and completely inhibited benzo[a]pyrene embryotoxicity (p < .05). Substantial PHS was detected in day 9.5 embryos using SDS/PAGE, anti-PHS antibody, and alkaline phosphatase-conjugated donkey anti-goat IgG. Embryonic protein oxidation was detected by the reaction of 0.5 mM 2,4-dinitrophenylhydrazine with protein carbonyl groups. This method was first validated by using a known hydroxyl radical-generating system consisting of vanadyl sulfate and H2O2, with bovine serum albumin or embryonic protein as the target. Embryonic proteins were characterized by SDS/PAGE, anti-dinitrophenyl antisera, and peroxidase-labeled goat anti-donkey IgG. Using enhanced chemiluminescence, the number and content of oxidized protein bands detected between 25 and 200 kDa were substantially increased by both phenytoin and benzo[a]pyrene. Addition of the reducing agent dithiothreitol, or SOD or catalase, decreased protein oxidation in phenytoin-exposed embryos. Both phenytoin (Mol. Pharmacol.48: 112-120, 1995) and benzo[a]pyrene enhanced embryonic DNA oxidation, determined by the formation of 8-hydroxy-2'-deoxyguanosine, as measured by high-performance liquid chromatography (HPLC) (p < .05). Phenytoin also enhanced the oxidation of embryonic glutathione (GSH) to its GSSG disulfide, as measured by HPLC (p < .05). These results provide direct evidence that, in the absence of maternal or placental processes, embryonic PHS-catalyzed bioactivation and reactive oxygen species-mediated oxidation of embryonic protein, thiols, and DNA may constitute a molecular mechanism mediating phenytoin and benzo[a]pyrene teratogenesis.
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PMID:Evidence for embryonic prostaglandin H synthase-catalyzed bioactivation and reactive oxygen species-mediated oxidation of cellular macromolecules in phenytoin and benzo[a]pyrene teratogenesis. 901 24

Cupric ions (Cu2+) added to hydrogen peroxide (H2O2) were found to generate hydroxyl radicals (HO) capable of benzoate hydroxylation. Although ferrous (Fe2+) and ferric (Fe3+) ions, when added to H2O2, resulted in very little production of HO, the addition of EDTA to the reaction mixture markedly increased their catalytic activity. In the absence of albumin, catalase (a H2O2 scavenger) and mannitol (an HO radical scavenger) effectively inhibited the formation of HO in H2O2/Cu2+ and H2O2/Fe2+/EDTA oxidation systems. On analysis using SDS-polyacrylamide gel electrophoresis, catalase was shown to prevent the degradation of albumin by both oxidation systems, whereas mannitol was an effective scavenger of the H2O2/Fe2+/EDTA oxidation system but not of the H2O2/Cu2+ oxidation system. Furthermore, the effect of alteration of benzoate hydroxylation and H2O2 consumption on the H2O2/Cu2+ and H2O2/Fe2+/EDTA oxidation systems resulted in opposite behavior that was dependent upon the presence or absence of albumin. These observations suggest that copper ions bind to albumin and induce site-specific degradation by HO generated at the copper-binding site, whereas the Fe2+/EDTA-catalyzed oxidation system induces non-specific degradation of albumin by HO generated by the Fenton reaction between H2O2 and free Fe2+/EDTA in solution.
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PMID:Hydrogen peroxide-mediated degradation of protein: different oxidation modes of copper- and iron-dependent hydroxyl radicals on the degradation of albumin. 904 10

Inhibition of histone deacetylase by addition of 5 mM n-sodium butyrate to the growth medium increases the utilization of [32P]NAD+ and ADP-ribosylation (ADPR) of total cellular proteins of V79, HeLa, mouse B16, mouse Fib/T and human T1 kidney cells by a factor of 1.2-2.3. When the ADP-ribosylase is challenged by exposing cells to damage by .OH radicals (25 microM CuSO4 2.8 mM H2O2) ADPR increases by factors of 5.7-6.0 and 3.2-4.0 in normal and butyrated cells, respectively. Operation of the free radical generator is supported by the response to EDTA and radical scavengers. Densitometric analysis of autoradiographs from SDS-gels show that butyrate exposure increases basal ADPR-modification of histones from T1 cells by factors of 1.1-1.9. Addition of .OH radicals increases the ADPR modifications of histones 4.4-8.7-fold in normal cells and 3.2-6.7-fold in butyrate exposed cells. Butyrate exposure elevates base level ADPR-modification and reduces subsequent ADPR-modification initiated by DNA damage. The results are consistent with the view that ADPR-modification and histone acetylation have overlapping functions and probably induce similar structural changes in chromatin.
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PMID:Influence of histone acetylation on the modification of cytoplasmic and nuclear proteins by ADP-ribosylation in response to free radicals. 910 8

Stimulated neutrophils (PMNL) are a source of the active oxygen species: O2, H2O2 and HOCl/OCl- which in turn can act on proteins yielding a variety of mixed oxidation products. A system is proposed in which a model protein-ovalbumin (OVA) first undergoes chlorination by HOCl/OCl- and next is oxidised by H2O2. The modification of functional groups (-NH2, -SH, -S-S-, > C = O, Tyr and Trp) in OVA was monitored as well as their accessibility to promote aggregation. Chlorination resulted in additional inter- or intra -S-S- bond formation followed by a decrease in the total sulfhydryl group content. Amino groups were oxidised to carbonyl moieties with a concomitant acidic shift of pI. Formation of chlorotyrosine at the chlorination step was confirmed and its further H2O2-mediated transformation to bityrosine was demonstrated. It has also been confirmed that tryptophan, and not tyrosine, is the first target for chlorination. SDS/PAGE and HPLC profiles revealed that HOCl/OCl- chlorination promotes formation of aggregates stabilised by non covalent bonds. In conclusion, we suggest that a dramatic change in the OVA molecule structure begins when the molar excess of HOCl/OCl- is about 2 per one reactive group in OVA.
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PMID:Oxidative modification of ovalbumin. 910 2

A novel C-2-specific sugar oxidoreductase, tentatively designated as pyranose 2-dehydrogenase, was purified 68-fold to apparent homogeneity (16.4 U/mg protein) from the mycelia of Agaricus bisporus, which expressed maximum activity of the enzyme during idiophasic growth in liquid media. Using 1,4-benzoquinone as an electron acceptor, pyranose 2-dehydrogenase oxidized d-glucose to d-arabino-2-hexosulose (2-dehydroglucose, 2-ketoglucose), which was identified spectroscopically through its N,N-diphenylhydrazone. The enzyme is highly nonspecific. d-,l-Arabinose, d-ribose, d-xylose, d-galactose, and several oligosaccharides and glycopyranosides were all converted to the corresponding 2-aldoketoses (aldosuloses) as indicated by TLC. d-Glucono-1,5-lactone, d-arabino-2-hexosulose, and l-sorbose were also oxidized at significant rates. UV/VIS spectrum of the native enzyme (lambdamax 274, 362, and 465 nm) was consistent with a flavin prosthetic group. In contrast to oligomeric intracellular pyranose 2-oxidase (EC 1.1.3.10), pyranose 2-dehydrogenase is a monomeric glycoprotein (pI 4.2) incapable of reducing O2 to H2O2 (> 5 x 10(4)-fold lower rate using a standard pyranose oxidase assay); pyranose 2-dehydrogenase is actively secreted into the extracellular fluid (up to 0.5 U/ml culture filtrate). The dehydrogenase has a native molecular mass of approximately 79 kDa as determined by gel filtration; its subunit molecular mass is approximately 75 kDa as estimated by SDS-PAGE. Two pH optima of the enzyme were found, one alkaline at pH 9 (phosphate buffer) and the other acidic at pH 4 (acetate buffer). Ag+, Hg2+, Cu2+, and CN- (10 mM) were inhibitory, while 50 mM acetate had an activating effect.
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PMID:Pyranose 2-dehydrogenase, a novel sugar oxidoreductase from the basidiomycete fungus Agaricus bisporus. 913 18

Enhanced deposition and cross-linking of hydroxyproline-rich glycoproteins (HRGPs) in the plant cell wall is acknowledged to contribute to the formation of a resistant barrier against pathogen infection. We have isolated, from suspension-cultured potato (Solanum tuberosum L. cv. Desiree) cells, two forms of soluble HRGP, a cross-linked and a monomeric form; the latter can be converted to the cross-linked form by incubation with tomato extensin peroxidase and H2O2. The monomeric form was purified by Sephacryl S-200 gel-filtration, reverse-phase high-performance liquid chromatography and Mono-S cation-exchange chromatography into two isoforms (A, a minor form; B, a major form). The properties of the B isoform were further investigated. A quantitative enzyme-linked immunosorbent assay of the B isoform, using tomato extensin antiserum, showed a titration curve at a high antibody-dilution range comparable to that of purified tomato extension monomer (M.D. Brownleader and P.M. Dey, 1993, Planta 191: 457-469). The amino acid and carbohydrate compositions were similar to those of tomato extensin, but did not match well with the other two HRGPs from potato, potato lectin and potato bacterial agglutinin. These observations demonstrate the similarities of the B isoform to extensin. The homogeneity of the B isoform was demonstrated by its ability to be fully cross-linked in vitro, leaving no residual protein, into a high-molecular-weight form by the action of extensin peroxidase. The trifluoroacetic acid-deglycosylated sample migrated as a single protein band on sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Moreover, SDS-PAGE and matrix-assisted laser desorption/ionisation-time of flight mass spectrometry indicated a molecular weight of approximately 67 kDa. Circular-dichroism spectroscopy demonstrated that the molecule possess an extended polyproline II helix conformation with no evidence of alpha-helix or beta- sheet secondary structure. In conclusion, we refer to this HRGP as potato extensin. As proposed for other extensins, potato extensin is likely to play a role in cell wall architecture and plant disease resistance.
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PMID:Extensin from suspension-cultured potato cells: a hydroxyproline-rich glycoprotein, devoid of agglutinin activity. 920 92

We have investigated whether the cell adhesion-promoting properties of the subendothelial matrix are affected by exposure to neutrophil-derived oxidants. Native subendothelial matrix was exposed to increasing doses of H2O2 in the presence of myeloperoxidase and Cl- or to reagent hypochlorous acid (HOCl). Increasing doses of either oxidant system resulted in progressive loss in the adhesive properties of the matrix, and phase contrast microscopy showed that the cells failed to attach to and spread on the oxidant-treated surface. When cells were replated on the treated matrix in the presence of 20% serum, they did attach, but showed abnormal spreading and morphology in longer-term culture. In a modified ELISA system, binding of antibodies specific to fibronectin, thrombospondin and laminin was also disrupted by prior exposure of the matrix to HOCl. Of these components, the cell-binding region of fibronectin was most affected by HOCl, thrombospondin and laminin were less sensitive, and the collagen-binding region of fibronectin was the most resistant. SDS-PAGE of 35S-labelled subendothelial matrix proteins indicated that there was no major irreversible crosslink formation or fragmentation after exposure to HOCl or the myeloperoxidase system, although formation of disulfides is quite likely.
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PMID:Hypochlorous acid disrupts the adhesive properties of subendothelial matrix. 921 76

BRCA1, the familial breast cancer susceptibility gene product, is a 220-kDA phosphorylated protein. BRCA1 immunoprecipitated from MCF7 cells blocked in G1-S phase or progressing through S-phase of the cell cycle migrated more slowly through SDS polyacrylamide gels than BRCA1 from cells maintained in serum-supplemented media, serum-free media for 24 h, or delayed in G2-M phase by treatment with colchicine. Restoration of BRCA1 to the faster-migrating form, which occurred on release of cells from the G1-S-phase block, was prevented by the phosphatase inhibitor okadaic acid. Phosphatase treatment of immunoprecipitated BRCA1 resulted in the conversion of the slower-migrating form to the faster-migrating form. Although these results suggested that BRCA1 was preferentially hyperphosphorylated near the G1-S-phase boundary of the cell cycle, exposure of cells to DNA-damaging agents including UV light or treatment with hydrogen peroxide (H2O2) also promoted BRCA1 hyperphosphorylation. These same stimuli also eliminated the punctate nuclear staining pattern normally observed for BRCA1 in control cells. These results indicate that BRCA1 undergoes cyclic hyperphosphorylation during the cell cycle; however, this modification, as well as changes in BRCA1 nuclear staining, also occurs in response to DNA damage.
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PMID:Induction of phosphorylation on BRCA1 during the cell cycle and after DNA damage. 921 74

The role of polymorphonuclear leukocytes (PMN) in stemming systemic infection is executed mainly by the utilization of molecular O2 leading to the production of reactive oxygen intermediates (ROI). PMN-derived ROI also serve as intra- and extracellular second messengers providing both positive and negative feedback on cellular autoregulation. We investigated the effect of endogenous ROI on two signal transducing pathways: the receptor (R)-G-protein-phospholipase D (PLD) and receptor (R)-G-protein-phospholipase C pathways responsible for the subsequent interleukin-8 (IL-8)-induced PMN respiratory burst. Purified human PMN were primed with LPS adhered to plastic surfaces and stimulated with IL-8 with or without the presence of each of five different selective ROI scavengers/antioxidants: DMSO, N(a)N3, L-alanine, catalase, or superoxide dismutase. Total IL-8 surface receptor expression was assessed by 125I-IL-8 and 125I-labeled mAbs against IL-8R type A and B binding assays; PLD activation was assessed by measuring formation of phosphatidyl ethanol (PEt) in the presence of ethanol; PLC activation was measured by quantitative conversion of [32P]ATP-labeled phosphatidic acid (PA) into diacylglycerol (DAG); expression of G alpha-inhibitory subunit was assessed by SDS-PAGE and immunoblotting with polyclonal Abs against this subunit. Production of O2-, H2O2, HClO, and myeloperoxidase (MPO) in the experimental model was confirmed in a separate set of experiments. The overall impact of antioxidants on each component of the transducing tripartite complex was stimulatory; however, N(a)N3 and SOD exhibited the most ubiquitous effect with consistent up-regulation by N(a)N3 of IL-8R expression, whereas even trace amounts of externally added authentic MPO significantly down-regulated the functional activity of both effector enzymes. These results demonstrate a multiple site-specific targeting of the signal-transducing complex by endogenous PMN-derived ROI and an overall protective effect of ROI scavengers/antioxidants.
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PMID:Endogenous PMN-derived reactive oxygen intermediates provide feedback regulation on respiratory burst signal transduction. 926 41

Evidence is presented suggesting that CA125 is a serine and/or threonine phosphoprotein and that its secretion from the human amnion WISH cell line is closely linked to its phosphorylation. It is also indicated that regulation of CA125 secretion requires protein(s) tyrosine phosphorylation. WISH cells treated with a tyrosine phosphatase inhibitor, vanadate/ H2O2, resulted in increased levels of CA125 secretion. Exposure of vanadate-treated cells to epidermal growth factor further enhanced this secretory activity. Immunohistochemistry of vanadate-treated cells resulted in a substantial increase in not only cytoplasmic tyrosine phosphoproteins but also in membrane-associated CA125 when stained with the PY20 anti-phosphotyrosine and M11 anti-CA125 monoclonal antibodies, respectively. M11 immunoprecipitation of CA125 from cells labelled with [32P]-orthophosphate was analyzed by SDS-PAGE and autoradiography. Immunoprecipitates from cell lysates demonstrated that a phosphoprotein of > 200 kD was isolated and immunoreacted with both the OC125 and M11 anti-CA125 monoclonal antibodies by Western blotting. CA125 immunoprecipitated from vanadate-treated cells showed a marked increase in cell-associated CA125 phosphorylation. Although CA125 could be immunoprecipitated from WISH cell media incubated with [32P]-orthophosphate in the presence or absence of vanadate as detected by Western blotting, autoradiographic analysis of the Western blots revealed no [32P]-labelled CA125 co-migrating with the 200-kD plus molecule detected by M11. When the PY20 anti-phosphotyrosine monoclonal antibody was used as the probe, no tyrosine-phosphorylated CA125 was detected in cell lysates.
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PMID:CA125 phosphorylation is associated with its secretion from the WISH human amnion cell line. 927 28


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