Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat heart microsomes were found to contain nonheme iron and two lines of evidence suggested that this iron was involved in NADPH oxidation. As first evidence, pretreatment of rats with iron gluconate increased microsomal iron content and NADPH oxidation. As second evidence, treatment of microsomes with nonionic detergent Triton N-101 decreased membrane iron content and NADPH oxidation. Triton N-101-solubilized nonheme iron was nondialyzable and ammonium sulfate-precipitable, indicative of association with protein(s). This protein-bound iron per se did not oxidize NADPH but its addition to detergent-treated microsomes restored very high rates of NADPH oxidation, that were abolished by inhibiting NADPH-cytochrome P450 reductase with p-hydroxymercuribenzoate. Since heart microsomes did not contain cytochrome P450, these results suggested that stimulation of NADPH oxidation was mediated by direct electron transfer from reductase to iron. Purified rat heart ferritin and hemosiderin did not stimulate NADPH oxidation and the stimulation observed with detergent-solubilized microsomal iron was much higher than that observed with EDTA-Fe3+, a very effective electron acceptor for the reductase. This suggested that (i) microsomal iron was different from other intracellular iron-storage proteins, and (ii) microsomal iron was unusually permissive to one-electron transfer from reductase.
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PMID:Microsomal iron-dependent NADPH oxidation: evidence for the involvement of membrane-bound nonheme iron in NADPH oxidation by rat heart microsomes. 217 78

Reduction of iron is important in promoting xenobiotic-enhanced, microsomal lipid peroxidation, yet there is little evidence that Fe3+ chelates that promote lipid peroxidation can be reduced by the microsomal system. We have shown that rat liver microsomes catalyse NADPH-dependent reduction of Fe3+ without chelator, as well as Fe3+(ADP), Fe3+(ATP), Fe3+(citrate), Fe3+(EDTA), and ferrioxamine in N2. The NADPH oxidation that accompanied Fe3+ reduction was inhibited by CO for all chelates, except Fe3+ (EDTA). This implies that, except for Fe3+ (EDTA), cytochrome P450 was involved in reduction of the complexes. Adriamycin, paraquat, and anthraquinone 2-sulfonate (AQS) enhanced reduction of all the Fe3+ chelates, whereas menadione enhanced reduction only of Fe3+(ADP) and Fe3+(citrate). All the compounds enhanced oxidation of NADPH in the presence or absence of iron. This was not inhibited by CO, and the results are compatible with Fe3+ reduction occurring via the xenobiotic radicals produced by cytochrome P450 reductase. Microsomal reduction of the xenobiotics, except menadione, enabled the reduction and release of iron from ferritin. Fe3+ chelate reduction, both with and without xenobiotic, was inhibited by O2, although it still proceeded in air at 10-20% of the rate in N2. Iron-dependent lipid peroxidation was promoted by ADP and ATP, inhibited 50% by citrate, and completely inhibited by EDTA and desferrioxamine. Of the xenobiotics, only Adriamycin enhanced microsomal lipid peroxidation. These results indicate that the effects of chelators and xenobiotics on Fe3+ reduction do not correlate with lipid peroxidation and, although reduction is necessary, there must be other factors involved.
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PMID:Microsomal reduction of low-molecular-weight Fe3+ chelates and ferritin: enhancement by adriamycin, paraquat, menadione, and anthraquinone 2-sulfonate and inhibition by oxygen. 285 Jul 67

Chromium(VI) reduction was studied in a system composed of reduced nicotinamide adenine dinucleotide phosphate-cytochrome P450 oxidoreductase (NADPH-P450 reductase) and different iron chelators and iron sources. In an aerobic phosphate buffer containing iron(II), chromium(VI) was not reduced by the Fe2+ probably because of spontaneous autoxidation of Fe2+, but freshly made Fe2+, added directly to a CrVI-containing buffer, reduced CrVI. Under anaerobic conditions, iron(II) reduced chromium(VI) stoichiometrically. A systemic containing ethylenediaminetetraacetic acid (EDTA)-Fe3+, NADPH-P450 reductase and NADPH effectively reduced chromium(VI) anaerobically. Under aerobic conditions this reaction was inhibited by about 45%. Adenosine diphosphate (ADP)-Fe3+, which is a poor acceptor of electrons from NADPH-P450 reductase, reduced chromium(VI) only marginally, Mannitol slightly increased the aerobic CrVI reduction. Addition of superoxide dismutase and catalase, which both regenerate some O2, led to inhibition of CrVI reduction. Ferritin, NADPH-P450 reductase and the iron chelators, EDTA and citrate, reduced CrVI, indicating mobilization of Fe2+ from ferritin. Low levels of EDTA (55 mumol l-1) and citrate (100 mumol l-1) in contrast to high levels (5 mmol l-1) did not increase CrVI reduction in microsomes. Using 4-(2-hydroxyethyl)-1-piperazineethane sulfonic acid buffer instead of phosphate buffer, the CrVI-reducing activity was increased.
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PMID:The role of iron chelators and oxygen in the reduced nicotinamide adenine dinucleotide phosphate-cytochrome P450 oxidoreductase-dependent chromium(VI) reduction. 774 Dec 58

We report the use of the autofluorescent compound monodansylcadaverine (MDC) for in vivo labeling of autophagic vacuoles. When applied to various cell types (PaTu 8902, MDCK I, PC12, AR4-2J, WI-38) in culture, spherical structures were observed by fluorescence microscopy, predominantly located in the perinuclear region. Only PC12 and WI-38 cells had some of these labeled structures in their filopodiae. Dose-response experiments with PaTu 8902 showed that the optimal concentration for in vivo labeling was 0.05 to 0.1 mM, while cells detached and disintegrated, when MDC concentration exceeded 0.1 mM. After incubation with MDC and subcellular fractionations of PaTu 8902 cells on sucrose density gradients, a narrow fluorescence peak at 20 to 26% sucrose concentration equal to densities of about 1.081 to 1.108 g/cm3 was observed. Ultrastructural analysis of these fractions revealed autophagic vacuoles in different stages of their development. To investigate whether endosomal compartments were also labeled by MDC, we coincubated PaTu 8902 cells with MDC and the fluid-phase markers, RITC-dextran and ferritin, respectively. Fluorescence measurements after subcellular fractionations as well as fine structural analysis indicated that MDC-labeled autophagic vacuoles did not contain fluid-phase markers and were spatially separated from endosomal compartments. We further could demonstrate, after subcellular fractionation procedures, that MDC-labeled organelles contained the lysosomal enzymes acid phosphatase and the mature form of cathepsin D. Membrane markers of rough endoplasmic reticulum (TRAM and sec61 beta), and for smooth endoplasmic reticulum (cytochrome P450) were not detected in the same fractions. These results indicate that MDC accumulates as a selective fluorescent marker for autophagic vacuoles under in vivo conditions and is not present in the early and late endosome.
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PMID:Monodansylcadaverine (MDC) is a specific in vivo marker for autophagic vacuoles. 775 May 17

Using a subtractive hybridization method, we have cloned cDNAs corresponding to 10 different mRNAs which share the property of being expressed in the intestine of adult but not baby rabbits. Four could be identified as coding for previously known gene products (sucrase-isomaltase, a glutathione S-transferase, a cytochrome P450, and a long form of ferritin mRNA), while six code for previously unknown proteins. One clone, AdRab-B, codes for a protein of 1458 amino acids, including (i) a putative signal sequence at the NH2 terminus, (ii) four internal repeats, 308-346 amino acids in length, (iii) a hydrophobic stretch near the COOH terminus, which represents a potential membrane anchor, and (iv) a short hydrophilic stretch at the very COOH terminus. The corresponding protein was studied with the aid of antibodies prepared against polypeptides expressed from segments of the cDNA in Escherichia coli. The protein was shown to be proteolytically processed in the intestine (but not when expressed in COS cells) and to be targeted to the brush border membrane of the enterocytes. Finally, the protein was found to have esterase and phospholipase A/lysophospholipase activity.
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PMID:Messenger RNAs expressed in intestine of adult but not baby rabbits. Isolation of cognate cDNAs and characterization of a novel brush border protein with esterase and phospholipase activity. 850 24

Administration in the drinking water of the orally-active iron chelator 1,2-diethyl-3-hydroxypyridin-4-one (CP94) to C57BL/10ScSn mice caused the development of hepatic protoporphyria. This was detected after 1 week and continued as long as the chelator was given (15 weeks). The more hydrophilic 1,2-dimethyl- and 1-hydroxyethyl,2-ethyl-analogues (CP20 and CP102) were also tested, but they were both inactive in inducing accumulation of protoporphyrin in the liver. Restriction of in vivo iron supply for ferrochelatase seemed a likely mode of action, but an approximately 30% decrease in activity of this enzyme was also observed when measured in vitro. Extracts of livers from mice given CP20, CP94, and CP102 showed no potential to inhibit mouse ferrochelatase, in contrast to the findings with an extract from mice treated with the known porphyrogenic chemical 4-ethyl-3, 5-diethoxycarbonyl-2,6-dimethyl-1,4-dihydropyridine, indicating that ferrochelatase inhibition did not occur by the formation of an N-ethyl-protoporphyrin derived from metabolism by cytochrome P450, CP20, CP94, CP102, and CP117 (the pivoyl ester of CP102) all caused significant depression of the levels of ferritin-iron and total nonheme iron, but only CP94 caused the significant accumulation of protoporphyrin. Protoporphyria did not occur with iron overloaded C57BL/10ScSn mice or in SWR mice that had elevated basal iron status. Although the protoporphyrin had only a small effect on the total levels of the hemoprotein cytochrome P450 in C57BL/10ScSn mice, the activity of the CYP2B isoforms of cytochrome P450 was actually induced in both strains. The results show that CP94 could cause protoporphyria in individuals of low iron status, perhaps through specifically targeting particular iron pools available to ferrochelatase and by concomitantly stimulating heme synthesis.
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PMID:Protoporphyria induced by the orally active iron chelator 1,2-diethyl-3-hydroxypyridin-4-one in C57BL/10ScSn mice. 902 37

Experiments were carried out to evaluate the effect of nitric oxide exposure on the ability of NADPH-dependent microsomal electron transfer to mobilize iron from ferritin. Such interactions could play a role in potential antioxidant actions of nitric oxide (NO). Preincubation of the microsomes from phenobarbital-treated rats with NO donors such as S-nitroso-D,L-N-acetyl penicillamine (SNAP), S-nitroso-L-glutathione, SIN-1, and DETANONOate followed by centrifugation, washing, and resuspension of the microsomes resulted in a decrease in the ferritin-dependent oxidation of 2',7'-dichlorofluorescein diacetate (DCFDA) or ferritin-catalyzed chemiluminescence compared to microsomes pretreated with buffer. The ferritin-stimulated rate of oxidation of DCFDA or of chemiluminescence was completely restored if the microsomal preincubation with NO donors was performed in the presence of hemoglobin. In contrast to results with ferritin, ferric-stimulated oxidation of the dye was not affected by any of the tested NO donors. The microsomal oxidation of aminopyrine was inhibited after SNAP treatment, indicating that NO inhibited cytochrome P450 catalyzed activity. Inhibition of cytochrome P450 also resulted in an inhibition of microsomal production of superoxide. Similar results were obtained using microsomes from a cloned cell line which express the CYP2E1 isoform. Since superoxide is required for the mobilization of iron from ferritin by microsomes, inhibition of superoxide production as a consequence of NO interaction with cytochrome P450 is likely to be responsible for the prevention of ferritin-catalyzed formation of reactive oxygen species by NO donors. The results suggest that NO could exhibit an antioxidant capacity through its ability of decreasing the activity of iron-heme compounds, such as cytochrome P450, preventing the release of catalytically active iron from ferritin, and thus decreasing the ability to generate oxygen free radicals involved in cytotoxicity.
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PMID:Inhibition of ferritin-stimulated microsomal production of reactive oxygen intermediates by nitric oxide. 912 72

NADPH-P450 oxidoreductase (CPR) is essential for the activity of cytochrome P450 (P450). Previous studies demonstrated that CPR regulates the levels of various P450 isoforms in vitro. We investigated the mechanistic basis for this regulation. By transfection of Chinese hamster ovary DUKXB11 cells we obtained the cell line DUKX/2D6, which expressed human CYP2D6, a P450 isoform. Subsequently, DUKX/2D6 cells were transfected with human CPR cDNA to generate the cell line DUKX/2D6/CPR-3. Expression of recombinant CPR decreased the level of spectrally detectable CYP2D6 holoprotein in DUKX/2D6/CPR-3 cells by 70%, whereas the level of immunodetectable apoprotein remained unchanged. Addition of the radical scavenger DMSO increased levels of CYP2D6 holoenzyme in DUKX/2D6/CPR-3 cells but not in DUKX/2D6 cells. A similar effect was noted when cells were grown in the presence of hemin. Importantly, combined treatment with DMSO and hemin increased levels of CYP2D6 holoenzyme in DUKX/2D6/CPR-3 but not in DUKX/2D6 cells even further than either treatment alone. None of these treatments affected the level of immunodetectable CYP2D6. This demonstrates that expression of CPR increases production of damaging radicals but also that CPR may alter haem homoeostasis. In agreement with this, the activity of haem oxygenase, a rate-limiting enzyme in haem metabolism, was compared with that in DUKX/DHFR control cells (expressing dihydrofolate reductase), and was 3-fold higher in DUKX/2D6/CPR-3 but similar in DUKX/2D6 cells. Furthermore, treatment of cells with sodium arsenite increased levels of haem oxygenase concomitant with a marked decrease of spectrally detectable CYP2D6 and a rise in levels of ferritin, which sequesters free iron released from the destruction of haem. These data demonstrate that CPR regulates P450 activity by supplying electrons and also by altering P450 levels via radical-and haem oxygenase-mediated pathways.
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PMID:Human NADPH-P450 oxidoreductase modulates the level of cytochrome P450 CYP2D6 holoprotein via haem oxygenase-dependent and -independent pathways. 1136 92

Approximately 12% of Americans do not consume the estimated average requirement for zinc and could be at risk for zinc deficiency. Since zinc has proposed antioxidant function, inadequate zinc consumption may lead to an enhanced susceptibility to oxidative stress through several mechanisms, including altered antioxidant defenses. In this study, we hypothesized that dietary zinc restriction would result in lower antioxidant status and increased oxidative damage. We fed weanling Sprague-Dawley rats (n=12 per group) a zinc-adequate (50 mg/kg of zinc) diet, a zinc-deficient (<0.05 mg/kg of zinc) diet or a pair-fed diet for 3 weeks and then assessed their antioxidant status and oxidative stress parameters. Rats were zinc deficient as indicated by a significant (P<.05) reduction in body weight (49%) and 19% lower (P<.05) hepatic zinc (20.6+/-2.1 mg/kg) as compared with zinc-adequate rats (24.6+/-2.2 mg/kg). Zinc deficiency resulted in elevated (P<.05) plasma F(2) isoprostanes. Zinc deficiency-mediated oxidative stress was accompanied by a 20% decrease (P<.05) in the ferritin-reducing ability of plasma assay and a 50% reduction in plasma uric acid (P<.05). No significant change in plasma ascorbic acid or in plasma alpha-tocopherol and gamma-tocopherol was observed. However, hepatic alpha-tocopherol and gamma-tocopherol concentrations were decreased by 38% and 27% (P<.05), respectively, as compared with those in zinc-adequate rats. Hepatic alpha-tocopherol transfer protein levels were unaltered (P>.05) by zinc deficiency, but cytochrome P450 (CYP) 4F2 protein levels were elevated (P<.05) as compared with those in zinc-adequate rats. Collectively, zinc deficiency increased oxidative stress, which may be partially explained by increased CYP activity and reductions in hepatic alpha-tocopherol and gamma-tocopherol and in plasma uric acid.
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PMID:Dietary zinc restriction in rats alters antioxidant status and increases plasma F2 isoprostanes. 1714 32

The use of animal models in pharmaceutical research is a costly and sometimes misleading method of generating toxicity data and hence predicting human safety. Therefore, in vitro test systems, such as primary rat hepatocytes, and the developing genomics and proteomics technologies, are playing an increasingly important role in toxicological research. Gene and protein expression analysis were investigated in a time series (up to 5 days) of primary rat hepatocytes cultured on collagen coated dishes. Especially after 24h, a significant down-regulation of many important Phase I and Phase II enzymes (e.g., cytochrome P450's, glutathione-S-transferases, sulfotransferases) involved in xenobiotic metabolism, and antioxidative enzymes (e.g., catalase, superoxide dismutase, glutathione peroxidase) was observed. Acute-phase-response enzymes were frequently up-regulated (e.g., LPS binding protein, alpha-2-macro-globulin, ferritin, serine proteinase inhibitor B, haptoglobin), which is likely to be a result of cellular stress caused by the cell isolation procedure (perfusion) itself. A parallel observation was the increased expression of several structural genes (e.g., beta-actin, alpha-tubulin, vimentin), possibly caused by other proliferating cell types in the culture, such as fibroblasts or alternatively by hepatocyte dedifferentiation. In conclusion, the careful interpretation of data derived from this in vitro system indicates that primary hepatocytes can be successfully used for short-term toxicity studies up to 24h. However, culturing conditions need to be further optimized to reduce the massive changes of gene and protein expression of long-term cultured hepatocytes to allow practical applications as a long-term toxicity test system.
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PMID:Genomics and proteomics analysis of cultured primary rat hepatocytes. 1776 30


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