EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Succinate-cytochrome c reductase activity in rat liver decreased to about 60% of the control value after a single injection of cobalt or in a steady state of intoxication, but the activity in the spleen was unaltered. 2. Incorporation of radioactive glycine and 5-aminolevulinate into heme of the liver was markedly inhibited by cobalt treatment. 3. 5-Aminolevulinate synthase [EC 2.3.1.37] activity in the liver decreased to 40% of the control value 4 hr after cobalt injection, and completely recovered 20 hr later. Phenylhydrazine-induced 5-aminolevulinate synthase activity in the spleen was not decreased by cobalt injection. 4. Porphobilinogen synthase [EC 4.2.1.24] activity in the liver decreased and reached its minimum value (42% of the control) 12 hr after cobalt injection. On the other hand, the activity in the spleen showed a marked increase 24 hr after coblat injection. 5. Ferrochelatase [EC 4.99.1.1] activity in the liver was essentially unaltered by cobalt treatment, while the activity in the spleen was elevated dramatically after 24 hr. 6. Concentrations of cobalt after a single injection were about 0.3 mM and 0.03 mM in the liver and spleen, respectively. 7. Inhibitions of 5-aminolevulinate synthase and porphobilinogen synthase activities by cobalt in vitro were not as marked as expected from in vivo experiments.
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PMID:Effect of cobalt on heme biosynthesis in rat liver and spleen. 122 74

The location of ferrochelatase in bovine heart mitochondria has been studied. When the mitochondria were fractionated into Complexes I, II and III, ferrochelatase activity was only found in Complex I. Complex I also showed heme synthesis from ferric ion in the presence of NADH as an electron donor. Immunoblot experiments confirmed the presence of ferrochelatase in Complex I, but not in Complexes II or III. Some phospholipids, including phosphatidylserine and cardiolipin, stimulated NADH-dependent heme synthesis from ferric ion. When purified ferrochelatase was incubated with the low molecular weight form of NADH dehydrogenase prepared from Complex I, heme synthesis from ferric ion occurred by the addition of NADH. FMN markedly elevated the synthesis. These results indicate that ferrous ion is produced by NADH oxidation in Complex I and is then utilized for heme synthesis by ferrochelatase.
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PMID:Association of ferrochelatase with Complex I in bovine heart mitochondria. 309 Oct 80

We examined the activity of heme synthesis when ferrochelatase purified from rat liver mitochondria was incubated with ferric chloride and mesoporphyrin IX as substrates in the absence of reducing reagents. In the presence of the NADH dehydrogenase-rich fraction and NAD(P)H, mesoheme was synthesized; the addition of FMN or FAD markedly enhanced the activity. These results indicate that the NAD(P) H-oxidizing system reduces ferric ion to ferrous ion. This ferrous ion is then utilized for heme synthesis by ferrochelatase. The effect of lead on NAD(P)H-dependent heme synthesis was also examined. Lead reduced NAD(P)H-dependent heme synthesis by 50% at 10(-5) M, but had no effect when ferrous ion was used as substrate. Zn-Porphyrin synthesis was not changed in the presence of Pb2+ at 10(-5) M. Thus, heme synthesis from ferric ion was more susceptible to Pb2+ than heme synthesis from ferrous ion.
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PMID:Reconstitution of heme-synthesizing activity from ferric ion and porphyrins, and the effect of lead on the activity. 393 55

Sonicated mitochondria catalyse the reduction of ferric salts, and the subsequent incorporation of Fe(2+) into haem, when provided with a reducing substrate such as succinate or NADH. The rate of haem synthesis was low under aerobic conditions and, after a short lag period, accelerated once anaerobic conditions were achieved; it was insensitive to antimycin A. The lag period was decreased by preincubating the mitochondria with NADH and Fe(3+). Newly formed Fe(2+) was autoxidized rapidly and the consequent O(2) uptake was measured with an oxygen electrode to determine the rate of enzymic formation of Fe(2+) from FeCl(3); this reaction was rapid in sonicated mitochondria provided with NADH or succinate and was insensitive to antimycin A. The reaction was very slow in intact mitochondria, suggesting a permeability barrier to Fe(3+) ions. This system was used to test the permeability of the mitochondrial membrane to various iron complexes of biological importance. Of the compounds tested only ferrioxamine G appeared to penetrate readily and the iron of this complex was reduced when intact mitochondria were supplied with succinate or NADH-linked substrates. The reduction was insensitive to rotenone or antimycin A. Both ferrioxamine G and ferrioxamine B were, however, reduced by particles. The membrane fraction of sonicated mitochondria was necessary for the reduction. The rate of ferrioxamine B reduction by sonicated mitochondria was measured by a dual-wavelength spectrophotometric assay and was found to be stimulated in conditions where the Fe(2+) produced was utilized for haem synthesis. The addition of FeCl(3) to anaerobic particles caused an oxidation of cytochrome b when this region of the respiratory chain was isolated by treatment with rotenone and antimycin A. These results suggest that the reduction of ferric iron and its complexes occurs inside the inner mitochondrial membrane in proximity to ferrochelatase. Possible sites for this reduction are the flavoproteins, succinate and NADH dehydrogenase.
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PMID:The utilization of iron and its complexes by mammalian mitochondria. 434 50

Application of delta-aminolevulinic acid (ALA) results in the endogenous accumulation of protoporphyrin IX and is a useful approach in the photodynamic therapy (PDT) of cancers. To investigate the role of nitric oxide (NO) in the specific accumulation of protoporphyrin and ALA-induced PDT of cancerous cells, we transfected inducible-nitric oxide synthase (NOS2) cDNA into human embryonic kidney (HEK) 293T cells and examined the ALA-induced photo-damage as well as the accumulation of porphyrin in the cells. When the NOS2-expressing HEK293T cells were treated with ALA and then exposed to visible light, they became more sensitive to the light with accumulating porphyrins, as compared with the ALA-treated control cells. An increase in the generation of NO in transfected cells led to the accumulation of protoporphyrin with a concomitant decrease of ferrochelatase, the final step enzyme of heme biosynthesis. When mouse macrophage-like RAW264.7 cells were cultured with lipopolysaccharide and interferon-gamma, the expression of NOS2 was induced. The addition of ALA to these cells led to the accumulation of protoporphyrin and cell death upon exposure to light. The treatment of cells with an NOS inhibitor, NG-monomethyl-L-arginine acetate, resulted in the inhibition of protoporphyrin accumulation and cell death. The levels of mitochondrial ferrochelatase and rotenone-sensitive NADH dehydrogenase in the NOS2-induced cells decreased. These results indicated that the generation of NO augments the ALA-induced accumulation of protoporphyrin IX and subsequent photo-damage in cancerous cells by decreasing the levels of mitochondrial iron-containing enzymes. Based on the fact that the production of NO in cancerous cells is elevated, NO in the cells is responsible for susceptibility with ALA-induced PDT.
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PMID:The role of nitric oxide in delta-aminolevulinic acid (ALA)-induced photosensitivity of cancerous cells. 1719 60

Within-litter uniformity in pigs is a major factor affecting piglet survival and growth performance. We know that Meishan (MS) gilts have higher piglet survival rate than Large White (LW) gilts because their foetal weight is less varied. To understand the molecular basis for placental nutritional transport during the late stages of gestation in LW and MS, we employed the isobaric tags for relative and absolute quantification (iTRAQ) method to investigate alterations in the placental proteomes of LW and MS gilts on gestational day 90. Investigation of foetal weight at different uterine positions revealed that the foetal and placental weights as well as the foetal concentration of glucose were significantly higher in LW gilts positioned towards the utero-tubal junction than in those positioned toward the cervix; however, no such differences were observed in MS gilts, and MS gilts had a greater uniformity in foetal weight on day 90 of gestation. Comparisons of the proteomes between placentas positioned toward the cervix and those positioned toward the utero-tubal junction identified 38 differentially expressed proteins in the two breeds. These proteins play a central role in nutrient transport and metabolism, as well as in transcriptional and translational regulation. Of particular interest is the finding that the placentas of LW gilts showed 14 differential expression of proteins mainly related to lipid transport and energy metabolism (including solute carrier family 27, mitochondrial trifunctional protein, and NADH dehydrogenase [ubiquinone] flavoprotein 2), but only 2 proteins in MS gilts. In contrast, the differentially expressed proteins in MS gilts were primarily involved in transcriptional and translational regulation (such as ribosome-sec61 and 40S ribosomal protein S23), with a few related to glucose and coenzyme transport and metabolism (including glucose transport protein and ferrochelatase). Our results revealed that placental lipid and energy metabolism might play a crucial role in the regulation of foetal weight, based on uterine position in two distinct pig breeds. These findings provide a deeper understanding of placental efficiency that can be utilized to provide a new method to enhance the efficiency of livestock production.
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PMID:Detection of Placental Proteomes at Different Uterine Positions in Large White and Meishan Gilts on Gestational Day 90. 2793 87