Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Uptake of paraquat (PQ; 10 microM) into lung cell fractions enriched in alveolar type II cells or Clara cells was linear with time, and after 60 min the intracellular concentration was approximately 10-fold higher than that in the medium. In contrast, alveolar macrophages were not able to accumulate PQ from the extracellular medium. PQ uptake in preparations of type II and Clara cells, but not alveolar macrophages, was inhibited by an equimolar concentration of putrescine or spermidine and by a combination of the metabolic inhibitors, potassium cyanide and iodoacetate (1 mM each). The reduction of PQ (1 mM) under anaerobic conditions was investigated in lung cells by ESR spectroscopy. The amplitude of the ESR signal of the PQ radical increased with time with intact or sonicated type II and Clara cell preparations, but with macrophages it increased only when the cells were sonicated. The signal in sonicated cells but not whole cells was decreased by addition of antibodies to NADPH-cytochrome P-450 reductase, suggesting that the PQ radical is generated intracellularly under these conditions.
Mol Pharmacol 1986 May
PMID:Paraquat uptake into freshly isolated rabbit lung epithelial cells and its reduction to the paraquat radical under anaerobic conditions. 301 76

The cyanide-insensitive respiration of bloodstream trypomastigote forms of Trypanosoma brucei (75 +/- 8 nmol O2 min-1(mg protein)-1) is completely inhibited by the mitochondrial ubiquinone-like inhibitors 2-hydroxy-3-undecyl-1,4-naphthoquinone (UHNQ) and 5-n-undecyl-6-hydroxy-4,7-dioxobenzothiazole (UHDBT). The Ki values for UHDBT (30 nM) and UHNQ (2 microM) are much lower than the reported Ki for salicylhydroxamic acid (SHAM) (5 microM), a widely used inhibitor of the cyanide-insensitive oxidase. UHNQ also stimulated the glycerol-3-phosphate-dependent reduction of phenazine methosulfate, demonstrating that the site of UHNQ inhibition is on the terminal oxidase of the cyanide-insensitive respiration of T. brucei. These results suggest that a ubiquinone-like compound may act as an electron carrier between the two enzymatic components of the cyanide-insensitive glycerol-3-phosphate oxidase.
Mol Biochem Parasitol 1986 Jun
PMID:Inhibitors of the mitochondrial cytochrome b-c1 complex inhibit the cyanide-insensitive respiration of Trypanosoma brucei. 301 33

Ascaris suum L3 larvae isolated from rabbit lungs undergo the third ecdysis to L4 larvae after 3 days in culture under a gas phase of 85% N2/10% CO2/5% O2. The L3 larvae contain substantial malic enzyme activity and are capable of producing small amounts of the reduced organic acids characteristic of the fermentative pathways which operate in the adult. However, only a small portion of the total carbon utilized is accounted for by these reduced acids and their motility is cyanide-sensitive, suggesting that their energy-generating pathways are predominantly aerobic. In contrast, after ecdysis, the L4 larvae begin to utilize glucose at a greater rate and the proportion of total carbon utilized which is accounted for as propionate, 2-methylbutyrate and 2-methylvalerate also increases. In addition, motility becomes increasingly cyanide-insensitive, suggesting that these L4 larvae are able to utilize the anaerobic energy-generating pathways of the adult. Surprisingly, on day 10 in culture, these L4 larvae, although capable of producing reduced volatile acids, still retain substantial cyanide-sensitive cytochrome oxidase activity.
Mol Biochem Parasitol 1987 Jan 15
PMID:Biochemical changes during the aerobic-anaerobic transition in Ascaris suum larvae. 303 96

We have measured and characterized three oxidant defense enzymes in early and late intraerythrocytic stages of the human malarial parasite, Plasmodium falciparum. Isolated early intraerythrocytic stages contain catalase (24.1 mumol min-1 (mg protein)-1) and superoxide dismutase (SOD; 6.3 units (mg protein)-1) but little or no glutathione peroxidase (GPX; less than 2 mumol min-1 (mg protein)-1). Isolated late intraerythrocytic stages of P. falciparum contain slightly less catalase (17.0 mumol min-1 (mg protein)-1) but significantly more GPX (7.7 mumol min-1 (mg protein)-1) and SOD (25.1 units (mg protein)-1). P. falciparum, like P. berghei, probably acquires most of its SOD from its host, since parasite-associated SOD is predominantly cyanide-sensitive, and has the same pI as host SOD. Unlike P. berghei, however, late stages of P. falciparum contain an additional SOD isozyme which is not cyanide-sensitive and may represent an endogenous enzyme. Parasites grown in red cells that have been partially depleted of SOD are more sensitive to exogenously generated superoxide, suggesting some dependence of the parasite on host SOD.
Mol Biochem Parasitol 1988 Jul
PMID:Oxidant defense enzymes of Plasmodium falciparum. 304 Dec 78

Doxorubicin is an important anticancer drug that undergoes redox cycling leading to the production of oxygen radicals; however, its clinical use is limited by toxicity. Redox cycling due to doxorubicin was assessed in the perfused rat liver from increases in O2 uptake by the organ, and toxicity was determined from lactate dehydrogenase release and trypan blue uptake. Doxorubicin increased O2 uptake in a concentration-related manner with half-maximal increases at about 100 microM drug. Within 5 min after addition of 300 microM doxorubicin, lactate dehydrogenase was detected in the effluent perfusate. Enzyme release increased steadily and reached values of 600 units/liter after 60 min. Rates of O2 uptake due to redox cycling of doxorubicin (300 microM) increased by 57 mumol/g/hr in oxygen-rich (mean [O2] = 473 microM) periportal regions of the liver lobule, but did not change in pericentral regions where O2 tension was lower [( O2] = 247 microM). Concomitantly, fluorescence of NAD(P)H measured from the liver surface decreased in periportal but not pericentral regions. The zone-specific decrease in NADPH was attributed to redox cycling of doxorubicin. Trypan blue was taken up exclusively by cells in periportal regions of the liver lobule after perfusion with doxorubicin. When the average O2 tension was lowered from 550 to 200 microM, O2 uptake due to redox cycling of doxorubicin in periportal regions was reduced 3-fold and toxicity was abolished, indicating that toxicity due to doxorubicin is oxygen-dependent. Redox cycling of doxorubicin was minimal in regions of the perfused liver where the O2 concentration was below 400 microM. In contrast, isolated microsomes displayed maximal changes in O2 uptake due to redox cycling of doxorubicin at O2 tensions of about 10 microM. Thus, oxygen per se is not rate-limiting for redox cycling of doxorubicin in the intact organ. Since NADPH is also required for redox cycling of doxorubicin, the effect of oxygen on the ability of mitochondria and the pentose cycle to supply reducing equivalents for redox cycling of doxorubicin was examined. NADPH supply from the pentose cycle was reduced by fasting while that from mitochondria was inhibited by cyanide. The increase in O2 uptake due to redox cycling of doxorubicin was around 60 mumol/g/hr in livers from fed or fasted rats. In the presence of potassium cyanide, stimulation of O2 uptake by doxorubicin was reduced by about one-half in livers from fed rats (29 mumol/g/hr) yet was abolished nearly completely in livers from fasted rats (7 mumol/g/hr).(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Pharmacol 1988 Nov
PMID:Oxygen-dependent hepatotoxicity due to doxorubicin: role of reducing equivalent supply in perfused rat liver. 319 59

Rates of 7-ethoxycoumarin O-deethylation were determined in periportal and pericentral regions of the liver lobule in livers from corn oil- and beta-naphthoflavone-treated rats by monitoring the conversion of nonfluorescent 7-ethoxycoumarin to fluorescent 7-hydroxycoumarin with micro-light guides. Rates of monooxygenation in livers from fed, corn oil-treated rats of 1.4 mumol/g/hr were increased markedly to around 21 mumol/g/hr in both regions of the liver lobule after treatment of rats with beta-naphthoflavone. Fasting or treatment with 6-aminonicotinamide diminished the generation of NADPH by the pentose cycle, whereas KCN decreased NADPH generation via mitochondria. Fasting and 6-aminonicotinamide treatment decreased monooxygenation about 0.5 mumol/g/hr in both regions of the liver lobule in livers from corn oil-treated rats and around 5 mumol/g/hr in livers from beta-naphthoflavone-treated rats. KCN decreased rates about 0.5 mumol/g/hr in both regions of the lobule in livers from fed, corn oil-treated rats and nearly completely in livers from fasted rats. Rates declined from 14 to less than 2 mumol/g/hr in livers from fasted, beta-naphthoflavone-treated rats following 30-40 min of perfusion with cyanide. These data indicate that mitochondrial oxidations are the predominant source of reducing equivalents for monooxygenation in both regions of the liver lobule in livers from beta-naphthoflavone-treated rats. Activation of urea synthesis by infusion of ammonia, a process requiring mitochondrial NADPH, inhibited the metabolism of 7-ethoxycoumarin by 30%. Malate, which is a substrate for the malic enzyme shuttle mechanism involved in the transfer of reducing equivalents from the mitochondria to the cytosol, increased 10-fold during infusion of 7-ethoxycoumarin in livers from beta-naphthoflavone-treated rats but less than 3-fold in livers from control rats. Taken together, these data indicate that high rates of 7-hydroxycoumarin production in livers from beta-naphthoflavone-treated rats are sustained by increased rates of NADPH generation from mitochondrial sources.
Mol Pharmacol 1987 Aug
PMID:Effect of beta-naphthoflavone on mitochondrial supply of reducing equivalents for monooxygenation in periportal and pericentral regions of the liver lobule. 349 33

Subcellular fractions obtained from Trypanosoma cruzi epimastigotes broken by freezing and thawing were assayed for fumarate reductase activity with reduced methyl viologen as electron donor and fumarate as electron acceptor under anaerobic conditions. Two distinct activities were detected: one in the mitochondrial membranes, 115 mU(mg protein)-1, accounting for 96% of the total and the other in the cytosol, 3 mU(mg protein)-1, accounting for 3% of the total. The activity of membrane-bound fumarate reductase correlated statistically with either the activity or the amount of mitochondrial markers such as succinate and NADH dehydrogenases, cytochromes b + c558, cytochrome a611 and 5,7-diene sterols in the obtained subcellular fractions (580 X g, 12 000 X g, and 105 000 X g sediments and supernatant). Mitochondrial fumarate reductase was inhibited by succinate, malonate, cyanide, and 2-thenoyltrifluoroacetone (TTFA); whereas the soluble enzyme was inhibited by succinate and not by TTFA. The 12 000 X g sediment (mitochondrial membranes) showed after dithionite addition, absorption maxima at 611, 560 and 530 nm accounting for the presence of cytochrome b560, c558 and a611. A CO-binding cytochrome o was also detected. A scheme of the T. cruzi mitochondrial respiratory chain is presented.
Mol Biochem Parasitol 1986 May
PMID:Fumarate reductase and other mitochondrial activities in Trypanosoma cruzi. 352 39

Alcohol dehydrogenase isoenzyme III (ADH III) in Saccharomyces cerevisiae, the product of the ADH3 gene, is located in the mitochondrial matrix. The ADH III protein was synthesized as a larger precursor in vitro when the gene was transcribed with the SP6 promoter and translated with a reticulocyte lysate. A precursor of the same size was detected when radioactively pulse-labeled proteins were immunoprecipitated with anti-ADH antibody. This precursor was rapidly processed to the mature form in vivo with a half-time of less than 3 min. The processing was blocked if the mitochondria were uncoupled with carbonyl cyanide m-chlorophenylhydrazone. Mutant enzymes in which only the amino-terminal 14 or 16 amino acids of the presequence were retained were correctly targeted and imported into the matrix. A mutant enzyme that was missing the amino-terminal 17 amino acids of the presequence produced an active enzyme, but the majority of the enzyme activity remained in the cytoplasmic compartment on cellular fractionation. Random amino acid changes were produced in the wild-type presequence by bisulfite mutagenesis of the ADH3 gene. The resulting ADH III protein was targeted to the mitochondria and imported into the matrix in all of the mutants tested, as judged by enzyme activity. Mutants containing amino acid changes in the carboxyl-proximal half of the ADH3 presequence were imported and processed to the mature form at a slower rate than the wild type, as judged by pulse-chase studies in vivo. The unprocessed precursor appeared to be unstable in vivo. It was concluded that only a small portion of the presequence contains the necessary information for correct targeting and import. Furthermore, the information for correct proteolytic processing of the presequence appears to be distinct from the targeting information and may involve secondary structure information in the presequence.
Mol Cell Biol 1987 Jan
PMID:Primary structure requirements for correct sorting of the yeast mitochondrial protein ADH III to the yeast mitochondrial matrix space. 355 Apr 19

Addition of vanadate, stimulated oxidation of NADH by rat liver microsomes. The products were NAD+ and H2O2. High rates of this reaction were obtained in the presence of phosphate buffer and at low pH values. The yellow-orange colored polymeric form of vanadate appears to be the active species and both ortho- and meta-vanadate gave poor activities even at mM concentrations. The activity as measured by oxygen uptake was inhibited by cyanide, EDTA, mannitol, histidine, ascorbate, noradrenaline, adriamycin, cytochrome c, Mn2+, superoxide dismutase, horseradish peroxidase and catalase. Mitochondrial outer membranes possess a similar activity of vanadate-stimulated NADH oxidation. But addition of mitochondria and some of its derivative particles abolished the microsomal activity. In the absence of oxygen, disappearance of NADH measured by decrease in absorbance at 340 nm continued at nearly the same rate since vanadate served as an electron acceptor in the microsomal system. Addition of excess catalase or SOD abolished the oxygen uptake while retaining significant rates of NADH disappearance indicating that the two activities are delinked. A mechanism is proposed wherein oxygen receives the first electron from NAD radical generated by oxidation of NADH by phosphovanadate and the consequent reduced species of vanadate (Viv) gives the second electron to superoxide to reduce it H2O2. This is applicable to all membranes whereas microsomes have the additional capability of reducing vanadate.
Mol Cell Biochem 1987 Jun
PMID:Vanadate-stimulated NADH oxidation in microsomes. 365 Jun 94

Catalase and superoxide dismutase detected in both RH and C strain Toxoplasma gondii tachyzoites were distinctly different in electrophoretic mobility from host cell enzymes. Catalase and superoxide dismutase activity levels were similar in both Toxoplasma strains and showed narrow pH optima around 8.0. Toxoplasma superoxide dismutase was resistant to cyanide but inhibited by azide or peroxide, consistent with an iron-containing enzyme typical of protozoan parasites. These enzymes may play a role in intracellular survival; however, they do not appear to be the basis for differences in virulence to mice.
Mol Biochem Parasitol 1986 Apr
PMID:Superoxide dismutase and catalase in Toxoplasma gondii. 371 45


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