EC:1.9.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of heme synthetase (ferrochelatase), the enzyme(s) which catalyzes the formation of heme from iron and protoporphyrin IX, was studied in the various fractions of a cell-free reticulocyte system which synthesizes hemoglobin. The ribosomal fraction contained heme synthetase activity and its characteristics were similar to that described in avian erythrocytes, human and rat liver, and rabbit reticulocytes. It has a pH optimum of 7.5, required sulfhydryl reagents, was denatured by heat and was unstable on freezing. Heme synthetase is a mitochondrial enzyme. Fragments of mitochondrial membrane were identified in the ribosome fraction by both electron microscopy and the presence of cytochrome oxidase activity.
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PMID:Hemoglobin synthesis in a rabbit ribosomal system: localization of heme synthetase activity. 90 76

Ferrochelatase is an enzyme bound to the inner mitochondrial membrane, which is important in heme biosynthesis. Activity of purified ferrochelatase is affected by the presence of certain fatty acids. In the present study, we examined whether the activity of ferrochelatase is altered by dietary manipulation of the composition of mitochondrial membrane phospholipid fatty acyl groups. Rats were fed diets containing triolein, safflower or menhaden oil as 5% (w/w) of the diet. After 3 weeks, the animals were killed and liver mitochondria were isolated. Phospholipid fatty acid composition and ferrochelatase activity were assayed in the isolated mitochondria. Marked differences were seen. The proportion of oleic acid was highest in the triolein oil-fed group, that of linoleic and arachidonic acid was highest in the safflower oil-fed group and the proportion of eicosapentaenoic acid was highest in the menhaden oil-fed group. Ferrochelatase activity was greatest in the triolein oil-fed group and lowest in the menhaden oil-fed group regardless of whether the mitochondria were intact, sonicated or sonicated and treated with Tween 20. Mixing of mitochondria from menhaden oil-fed rats with triolein oil resulted in a significant increase in ferrochelatase activity. Membrane fluidity and activities of the mitochondrial membrane enzymes succinic dehydrogenase and cytochrome oxidase did not differ among the groups. We conclude that dietary manipulation of mitochondrial membrane phospholipid fatty acyl group composition can directly modulate hepatic ferrochelatase activity. This has potential application in the treatment of protoporphyria, the genetic disorder in which ferrochelatase activity is deficient.
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PMID:Modulation of hepatic ferrochelatase activity by dietary manipulation of mitochondrial phospholipid fatty acyl groups. 292 61

1. Anaerobic conditions are normally necessary for incorporation of iron into haems and only ferrous iron is used. After addition of succinate to an incubation mixture containing intact or ultrasonically treated mitochondria, Fe(3+) is used, but only if no inhibitors prevent the transfer of electrons from the mitochondrial respiratory chain to oxygen. 2. A dual-wavelength spectrophotometric assay for ferrochelatase is described that has been used for the continuous assay of incorporation of metal ions into porphyrins. Constants are given for the determination of rates of formation of protohaem and cobalt protoporphyrin, mesohaem, cobalt mesoporphyrin and zinc mesoporphyrin. For cobalt mesoporphyrin formation the K(m) for Co(2+) is 11x10(-6)m and that for mesoporphyrin is 5x10(-6)m. 3. An improved method for the separation of inner and outer membranes of mitochondria is described. Mitochondria swollen in hypo-osmotic media were contracted in hyperosmotic potassium chloride solution containing ATP and the outer membranes detached by mild ultrasonic treatment. Sucrose inhibited the ATP-induced contraction and decreased the yield of outer membranes. 4. Ferrochelatase is associated with cytochrome oxidase, which is used as a marker for inner mitochondrial membranes. 5. By using as substrate porphyrin dissolved in phospholipid micelles, ferrochelatase activity of intact mitochondria was shown to be latent, and to be liberated by ultrasonic treatment. 6. No ferrochelatase was detectable in microsomes or soluble cell components.
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PMID:The structural organization of haem synthesis in rat liver mitochondria. 430 46

Sudden infant death syndrome (SIDS) occurs silently usually during sleep and, though remaining unexplained after autopsy, leaves footprints creating a pattern analogous to that which follows a flood of nitric acid (NO). These footprints in SIDS are associated with serious pathological changes, viz. elevated hepatic iron, bone marrow hyperplasia, hypomyelinated respiratory control centres, elevated lung immunoglobulins, cerebral hypoperfusion resembling lesions induced by chronic hypoxemia, ischemia, congenital heart disease and congenital myopathy. Hypoxia stimulates the immune response and the over-arousal of the immune response triggers a flood of NO. Adenosine triggers sleep. NO and adenosine are additive as dilators of coronary blood vessels. Blood pressure collapses. Selenium increases the activity of the enzyme ferrochelatase during incorporation of heme into cytochrome oxidase. NO binds to cytochrome oxidase, inhibiting respiration. When NO reaches dangerous levels, the cell turns on production of heme oxygenase. Heme is broken down to iron (Fe) carbon monoxide (CO) and bile pigments. NO has a huge affinity for hemoglobin which catalyses NO degradation to nitrate. Furthermore, NO is a product of smoke and SIDS incidence is higher in smoking mothers.
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PMID:Association of sudden infant death syndrome with grossly deranged iron metabolism and nitric oxide overload. 1079 Jul 39

Heme deficiency was studied in young and old normal human fibroblasts (IMR90). Regardless of age, heme deficiency increased the steady-state level of oxidants and lipid peroxidation and sensitized the cells to fluctuations in intracellular Ca(2+). Heme deficiency selectively decreased the activity and protein content of mitochondrial complex IV (cytochrome c oxidase) by 95%, indicating a decrease in successful assembly. Complexes I-III and catalase remained intact under conditions of heme deficiency, whereas ferrochelatase was up-regulated. Complex IV is the only hemeprotein in the cell that contains heme a, which may account for its susceptibility. The rate of removal and assembly of complex IV declines with age. These findings are relevant to worldwide iron deficiency in women and children and to an age-related decline in complex IV in Alzheimer's disease patients.
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PMID:Heme deficiency selectively interrupts assembly of mitochondrial complex IV in human fibroblasts: revelance to aging. 1159 32

Heme, a major functional form of iron in the cell, is synthesized in the mitochondria by ferrochelatase inserting ferrous iron into protoporphyrin IX. Heme deficiency was induced with N-methylprotoporphyrin IX, a selective inhibitor of ferrochelatase, in two human brain cell lines, SHSY5Y (neuroblastoma) and U373 (astrocytoma), as well as in rat primary hippocampal neurons. Heme deficiency in brain cells decreases mitochondrial complex IV, activates nitric oxide synthase, alters amyloid precursor protein, and corrupts iron and zinc homeostasis. The metabolic consequences resulting from heme deficiency seem similar to dysfunctional neurons in patients with Alzheimer's disease. Heme-deficient SHSY5Y or U373 cells die when induced to differentiate or to proliferate, respectively. The role of heme in these observations could result from its interaction with heme regulatory motifs in specific proteins or secondary to the compromised mitochondria. Common causes of heme deficiency include aging, deficiency of iron and vitamin B6, and exposure to toxic metals such as aluminum. Iron and B6 deficiencies are especially important because they are widespread, but they are also preventable with supplementation. Thus, heme deficiency or dysregulation may be an important and preventable component of the neurodegenerative process.
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PMID:Heme deficiency may be a factor in the mitochondrial and neuronal decay of aging. 1241 55

Heme is a common factor linking several metabolic perturbations in Alzheimer's disease (AD), including iron metabolism, mitochondrial complex IV, heme oxygenase, and bilirubin. Therefore, we determined whether heme metabolism was altered in temporal lobes obtained at autopsy from AD patients and age-matched nondemented subjects. AD brain demonstrated 2.5-fold more heme-b (P < 0.01) and 26% less heme-a (P = 0.16) compared with controls, resulting in a highly significant 2.9-fold decrease in heme-a/heme-b ratio (P < 0.001). Moreover, the strong Pearson correlation between heme-a and heme-b measured in control individuals (r(2) = 0.66, P < 0.002, n = 11) was abolished in AD subjects (r(2) = 0.076, P = 0.39, n = 12). The level of ferrochelatase (which makes heme-b in the mitochondrial matrix) in AD subjects was 4.2 times (P < 0.04) that in nondemented controls, suggesting up-regulated heme synthesis. To look for a possible connection between these observations and established mechanisms in AD pathology, we examined possible interactions between amyloid beta (A beta) and heme. A beta((1-40)) and A beta((1-42)) induced a redshift of 15-20 nm in the spectrum of heme-b and heme-a, suggesting that heme binds A beta, likely to one or more of the histidine residues. Lastly, in a tissue culture model, we found that clioquinol, a metal chelator in clinical trials for AD therapy, decreased intracellular heme. In light of these observations, we have proposed a model of AD pathobiology in which intracellular A beta complexes with free heme, thereby decreasing its bioavailability (e.g., heme-a) and resulting in functional heme deficiency. The model integrates disparate observations, including A beta, mitochondrial dysfunction, cholesterol, and the proposed efficacy of clioquinol.
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PMID:A role for heme in Alzheimer's disease: heme binds amyloid beta and has altered metabolism. 1526 70

Deficiency of the frataxin mRNA alters the transcriptome, triggering neuro- and cardiodegeneration in Friedreich's ataxia. We microarrayed murine frataxin-deficient heart tissue, liver tissue and cardiocytes and observed a transcript down-regulation to up-regulation ratio of nearly 2:1 with a mitochondrial localization of transcriptional changes. Combining all mouse and human microarray data for frataxin-deficient cells and tissues, the most consistently decreased transcripts were mitochondrial coproporphyrinogen oxidase (CPOX) of the heme pathway and mature T-cell proliferation 1, a homolog of yeast COX23, which is thought to function as a mitochondrial metallochaperone. Quantitative RT-PCR studies confirmed the significant down-regulation of Isu1, CPOX and ferrochelatase at 10 weeks in mouse hearts. We observed that mutant cells were resistant to aminolevulinate-dependent toxicity, as expected if the heme pathway was inhibited. Consistent with this, we observed increased cellular protoporphyrin IX levels, reduced mitochondrial heme a and heme c levels and reduced activity of cytochrome oxidase, suggesting a defect between protoporphyrin IX and heme a. Fe-chelatase activities were similar in mutants and controls, whereas Zn-chelatase activities were slightly elevated in mutants, supporting the idea of an altered metal-specificity of ferrochelatase. These results suggest that frataxin deficiency causes defects late in the heme pathway. As ataxic symptoms occur in other diseases of heme deficiency, the heme defect we observe in frataxin-deficient cells could be primary to the pathophysiological process.
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PMID:Frataxin deficiency alters heme pathway transcripts and decreases mitochondrial heme metabolites in mammalian cells. 1623 44

The incorporation of radioactive amino acids and of delta-amino[2,3-(3)H(2)]laevulinate into rat liver cytochromes b(5) and c and cytochrome oxidase has been examined with and without protein-synthesis inhibitors. Cycloheximide promptly inhibits labelling of both haem and protein for cytochrome c in parallel fashion. Although incorporation of (14)C-labelled amino acid into microsomal cytochrome b(5) is also rapidly inhibited, cycloheximide incompletely inhibits haem labelling of cytochrome b(5) and cytochrome a+a(3), and inhibition occurs only after repeated antibiotic injections. The possibility of apo-protein pools, or of haem exchange, with a rapidly renewed ;free' haem pool, is considered. Consistent with this model is the observation of non-enzymic haem exchange in vitro between cytochrome b(5) and methaemoglobin. Chloramphenicol, injected intravenously over 5h, results in a 20-40% decrease in incorporation of delta-amino[2,3-(3)H(2)]laevulinate into haem a+a(3) and haem of cytochromes b(5) and c. With the dosage schedule of chloramphenicol studied, amino acid labelling of total liver protein and of cytochrome c was not inhibited. Similarly, ferrochelatase activity was not decreased.
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PMID:Studies of cytochrome synthesis in rat liver. 1674 96

Mutations in the frataxin gene cause neurodegeneration and demyelination in Friedreich's ataxia. We showed earlier that frataxin deficiency causes primary iron-sulfur cluster defects, and later causes defects in heme and cytochrome c hemoprotein levels. Iron-sulfur (Fe/S) clusters are required in two enzymes of heme biosynthesis in humans i.e. in ferrochelatase and adrenodoxin. However, decreases in ferrochelatase activity have not been observed in frataxin-deficient HeLa cells or patient lymphoblasts. We knocked down frataxin in oligodendroglioma cells using siRNA, which produced significant defects in the activity of the Fe/S cluster enzymes adrenodoxin and aconitase, the adrenodoxin product heme a, and cytochrome oxidase, for which heme a serves as a prosthetic group. Exogenous hemin produced a significant rescue of adrenodoxin, aconitase, heme a levels and cytochrome oxidase activity. Thus hemin rescues iron-sulfur cluster defects that are the result of frataxin-deficiency, perhaps as a consequence of increasing the pool of bioavailable iron, and thus should be more fully tested for beneficial effects in Friedreich's ataxia models.
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PMID:Hemin rescues adrenodoxin, heme a and cytochrome oxidase activity in frataxin-deficient oligodendroglioma cells. 1749 76

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