Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.14.99.3 (heme oxygenase)
 4,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The enzymatic oxidations of [alpha-14C]deuterohemin IX, [alpha-14C]hematohemin IX and 2,4-diacetyl[alpha-14C]deuterohemin IX were carried out by using a microsomal heme oxygenase system from rat liver in combination with the biliverdin reductase from the same origin. In every case the bilirubins formed were devoid of radioactivity, indicating the alpha-selective oxidation of the three hemins. Hematohemin IX was oxidized at the highest rate, followed by deuterohemin IX and 2,4-diacetyldeuterohemin. When the three hemins were preincubated with microsomal heme oxygenase in the absence of NADPH, and the latter was added after the preincubation period, it was found that the enzymatic oxidation of the hemins was inhibited. Therefore, for the maximal rate of oxidation both hemin and NADPH must be present simultaneously. In the presence of hemin IX (the natural substrate), the enzymatic oxidation of the synthetic hemins was inhibited. The oxidation of 2,4-diacetyldeuterohemin IX was the most inhibited, while the oxidation of hematohemin IX was affected to a much lesser degree. These results are in agreement with the higher affinity (Km = 150 microM) of hematohemin IX for the enzyme, as compared to 2,4-diacetyldeuterohemin IX (Km = 660 microM) and deuterohemin IX (Km = 330 microM).
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PMID:Specific alpha-bridge cleavage by heme oxygenase of [alpha-14C]deuterohemin IX, [alpha-14C]hematohemin IX and 2,4-diacetyl[alpha-14C]deuterohemin IX. 689 62

Rat aorta was homogenized and the 13000 x g supernatant fraction was tested for heme oxygenase (HO) activity by using a sensitive gas chromatographic method to measure carbon monoxide (CO), one of the products of the HO reaction. The rate of NADPH-dependent CO formation, an index of HO activity, was 1.41 +/- 0.40 nmol CO.mg(-1)protein. h(-1) in the rat aorta supernatant fraction and 2.05 +/- 0.55 nmol CO.mg(-1) protein.h(-1) in the rat liver 13000 x g supernatant fraction, a tissue known to contain HO activity. Chromium mesoporphyrin (0.05 mM), an inhibitor of rat liver HO, significantly decreased HO activity by 26% in the aorta supernatant fraction and 50% in the liver supernatant fraction. On the basis of the results of this study, which demonstrated HO-catalyzed CO formation in aortic tissue, and previous observations that CO relaxes vascular smooth muscle, we suggest that a physiological role for CO in vascular smooth muscle relaxation should be further investigated.
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PMID:Heme oxygenase activity in the adult rat aorta and liver as measured by carbon monoxide formation. 767 Nov 94

A human heme oxygenase (hHO-1) gene without the sequence coding for the last 23 amino acids has been expressed in Escherichia coli behind the pho A promoter. The truncated enzyme is obtained in high yields as a soluble, catalytically-active protein, making it available for the first time for detailed mechanistic studies. The purified, truncated hHO-1/heme complex is spectroscopically indistinguishable from that of the rat enzyme and converts heme to biliverdin when reconstituted with rat liver cytochrome P450 reductase. A self-sufficient heme oxygenase system has been obtained by fusing the truncated hHO-1 gene to the gene for human cytochrome P450 reductase without the sequence coding for the 20 amino acid membrane binding domain. Expression of the fusion protein in pCWori+ yields a protein that only requires NADPH for catalytic turnover. The failure of exogenous cytochrome P450 reductase to stimulate turnover and the insensitivity of the catalytic rate toward changes in ionic strength establish that electrons are transferred intramolecularly between the reductase and heme oxygenase domains of the fusion protein. The Vmax for the fusion protein is 2.5 times higher than that for the reconstituted system. Therefore, either the covalent tether does not interfere with normal docking and electron transfer between the flavin and heme domains or alternative but equally efficient electron transfer pathways are available that do not require specific docking.
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PMID:Expression and characterization of truncated human heme oxygenase (hHO-1) and a fusion protein of hHO-1 with human cytochrome P450 reductase. 770 55

Biliverdin reductase regulates heme oxygenase activity by removing the inhibitory product of the oxygenase activity, biliverdin; and reducing it to bilirubin. The other products of the oxygenase are carbon monoxide and Fe. To date, biliverdin reductase remains unique among all enzymes described by using 2 different cofactors (NADPH and NADH) at different pH ranges. The present study reports on the developmentally regulated changes in the pattern of protein expression and the level of biliverdin reductase transcript in rat brain. Biliverdin reductase activity of the brain cytosol with both NADPH (pH 8.7) and NADH (pH 6.7) exhibited developmental changes with the activity increasing after birth, reaching an adult level by day 28 postpartum. When analyzed by Western blotting the immunoreactive protein detected increased as the animal matured (day 1 to 28 postparturition). Northern blot hybridization of RNA isolated from rat brain revealed the presence of approximately 1.5 kb biliverdin reductase transcript at all stages of development ranging from 1 day post partum to 20 months. The level of the transcript was developmentally regulated and a gradual increase ( approximately 4-fold) was observed from day 1 after birth to adulthood and was maintained in 20 month old animals. Cellular localization, using immunohistochemical technique, revealed age-related pattern of expression of the reductase in select regions such as the cortex, substantia nigra, hippocampus and in the cerebellum; the changes, however, did not follow the same pattern. To elaborate, in the cortex, the reductase expression increased when 7-day-old animals were compared with young adults (2 months old) and then declined in the 20-month-old animals. In the substantia nigra the level of reductase expression progressively declined with age when 7-day-old neonate, 2- and 20-month-old animals were compared. In the hippocampus, a distinct reductase-expressing cell population residing between CA1 and the dentate gyrus was observed in the 7-day-old animals; these cells were not detected in the adults (2 or 20 months old). In the cerebellum, the expression of the reductase reflected the developmental organization of this region. We postulate that age-dependent increase of the brain reductase at the transcript and protein levels in the course of maturation serves to control heme oxygenase activity which also displays a developmental pattern in the organ. As such, the reductase modulates generation of biologically active heme degradation products; bilirubin, carbon monoxide and Fe.
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PMID:Immunohistochemical localization of biliverdin reductase in rat brain: age related expression of protein and transcript. 774 51

A truncated, soluble rat heme oxygenase-1 lacking its C-terminal, membrane-anchoring segment, and its His25-->Ala and His132-->Ala mutants have been prepared by site-directed mutagenesis and expression in Escherichia coli. We found that wild-type enzyme can degrade heme to biliverdin, but its specific activity was about one-fifth that of the native, full-length enzyme, suggesting that the C-terminal segment is important for accepting electrons from NADPH cytochrome P450 reductase. His132-->Ala mutant had an enzyme activity comparable to that of the wild-type enzyme; hence, the highly conserved His132 is not essential for the display of the heme oxygenase activity. In contrast, His25-->Ala mutation completely abolished the enzyme's catalytic activity. A five-coordinate type ferrous NO EPR spectrum was observed for the heme-heme oxygenase H25A complex. Hence, we conclude that His25 is the proximal axial ligand of the heme iron and is essential for the heme degradation activity of the enzyme.
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PMID:Demonstration that histidine 25, but not 132, is the axial heme ligand in rat heme oxygenase-1. 787 92

Previous studies have established that reaction of the rat heme-heme oxygenase complex with H2O2 proceeds normally to give verdoheme, whereas reaction of the complex with meta-chloroperbenzoic acid yields a ferryl (FeIV = O) species and a protein radical but no verdoheme. The heme-heme oxygenase complex is shown here to react regiospecifically with ethyl hydroperoxide to give alpha-meso-ethoxyheme. Formation of this product exactly parallels the formation of alpha-meso-hydroxyheme in the normal reaction supported by cytochrome P450 reductase/NADPH or H2O2. These results rule out a nucleophilic mechanism for the alpha-meso-hydroxylation catalyzed by heme oxygenase and indicate that it involves electrophilic (or possibly radical) addition of the distal oxygen of iron-bound peroxide (FeIII-OOH) to the porphyrin ring.
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PMID:Heme oxygenase (HO-1). Evidence for electrophilic oxygen addition to the porphyrin ring in the formation of alpha-meso-hydroxyheme. 796 40

A rat heme oxygenase (HO-1) gene without the sequence coding for the last 23 amino acids has been constructed and expressed behind the pho A promoter in Escherichia coli. The enzyme is expressed at high levels as a soluble catalytically active protein that causes the bacterial cells to accumulate biliverdin. The purified truncated heme-heme oxygenase complex is spectroscopically indistinguishable from the complex with the native enzyme and converts heme to biliverdin when reconstituted with rat liver cytochrome P450 reductase. Reaction of the recombinant heme-heme oxygenase complex with H2O2 produces a species with the spectroscopic properties of verdoheme. Unidentified products are obtained when this intermediate is directly extracted from the protein, but biliverdin is obtained if the verdoheme-protein complex is exposed to cytochrome P450 reductase and NADPH before the extraction step. In contrast, reaction of the heme-heme oxygenase complex with meta-chloroperbenzoic acid (mCPBA), tert-butylhydroperoxide, or cumene hydroperoxide yields a ferryl (FeIV = O) complex. Reaction of the heme-heme oxygenase complex with mCPBA also produces an EPR-detectable protein radical. In accord with formation of a ferryl intermediate, recombinant heme oxygenase catalyzes the mCPBA- and alkylhydroperoxide-dependent peroxidation of 2-methoxyphenol (guaiacol). Guaiacol oxidation is not observed during turnover of the enzyme by cytochrome P450 reductase/NADPH or H2O2. Conversely, biliverdin is not formed with tert-butylhydroperoxide or mCPBA. H2O2 thus supports the first step of the normal catalytic oxidation of heme by heme oxygenase, but alkyl and acyl hydroperoxides do not. These results suggest that the alpha-meso-hydroxylation required for biliverdin formation is mediated by the distal of the two oxygens in the iron-dioxygen intermediate (Fe-O-O) engendered by reaction with either cytochrome P450 reductase/NADPH or H2O2.
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PMID:Rat liver heme oxygenase. High level expression of a truncated soluble form and nature of the meso-hydroxylating species. 822 46

Two heme oxygenase (HO) isozymes--HO-1, which is a heat shock protein (HSP32), and HO-2--catalyze the isomer-specific production of biliverdin IX alpha and carbon monoxide. The latter has the potential of functioning as a neurotransmitter, whereas the reduced form of biliverdin, bilirubin, has potent antioxidant activity. Formation of bilirubin is catalyzed by biliverdin reductase (BVR). The reductase is a unique enzyme in being dual pyridine nucleotide and dual pH dependent. Here, we show that the reductase is resistant to thermal stress at both the protein and message level. We further demonstrate that the reductase is coexpressed in cells that display HO-1 and/or HO-2 under normal conditions, as well as in regions and cell types that have the potential to express heat shock-inducible HO-1 protein. Exposure of male rats to 42 degrees C for 20 min did not decrease brain BVR activity, but caused a slight increase in NADPH- and NADH-dependent activities at 1 and 6 h following hyperthermia. High levels of the approximately 1.5-kb BVR mRNA were detected in control brain; it too displayed thermal tolerance. Similarly, the pattern of multiplicity of net charge variants of the enzyme purified from brain of heat-shocked rats did not differ from the control pattern. Immunochemical localization of BVR protein in normal brain correlated well with the presence of HO-1 and/or HO-2 throughout the forebrain, diencephalon, cerebellum, and brainstem regions. There were select neuronal and nonneuronal cells in the substantia nigra and cerebellum that did express the reductase under normal conditions, wherein no HO isozymes could be detected.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biliverdin reductase is heat resistant and coexpressed with constitutive and heat shock forms of heme oxygenase in brain. 836 Jun 69

His-25 and His-132 are the primary candidates for the proximal heme iron ligand in heme oxygenase isozyme-1 (HO-1). The unambiguous spectroscopic demonstration that His-25 is the proximal iron ligand leaves the role of His-132 uncertain. Absorption and resonance Raman spectroscopy are used here to establish that mutation of His-132 to an alanine, glycine, or serine does not alter the histidine-iron bond, but results in the loss of the water molecule coordinated to the distal side of the iron in the wild-type enzyme-substrate complex. The His-132 mutations also (a) destabilize the ferrous-O2 complex with respect to autoxidation, which should result in partial uncoupling of NADPH consumption from heme oxidation, and (b) decrease the affinity of the enzyme for heme. The catalytic activity of the protein is decreased but not suppressed by these mutations: the H132G and H132A mutants retain 40-50% and the H132S mutant 20% of the activity of the wild-type protein. His-132, however, is required for catalytic turnover of the protein with H2O2. These results place His-132 close to the iron on the distal side of the heme pocket and indicate that His-132 facilitates, but is not absolutely required for, the catalytic turnover of HO-1.
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PMID:Heme oxygenase (HO-1): His-132 stabilizes a distal water ligand and assists catalysis. 854 75

Untreated rabbit liver microsomes demonstrated the highest content of cytochrome P450 and activity of NADPH cytochrome c reductase compared to rat and monkey. The sodium dodecyl sulfate polyacrylamide gel electrophoresis of microsomes from untreated rabbit demonstrated a greater quantity of 50 KDa polypeptide than in rat and monkey. The activity of glutathione-S-transferase towards 1-chloro-2,4-dinitrobenzene and the band intensity of 26 KDa polypeptide was found to be at maximum in untreated rabbits, while rat liver demonstrated the highest activity of glutathione-S-transferase towards ethacrynic acid. The extent of hepatic microsomal lipid peroxidation was at maximum in untreated rats. The activity of catalase was higher in untreated monkeys compared to untreated rats and rabbits. Lindane at a dose of 10 mg kg-1 body weight for a period of six days increased the hepatic content of cytochrome P450 and the activities of NADPH cytochrome c reductase, aminopyrine N-demethylase, glutathione-S-transferases, haem oxygenase and lipid peroxidation, decreased non-protein thiols and concomitantly intensified the 50 and 26 KDa polypeptides in the microsomes and 100,000 x g supernatants respectively, in the rat but not in the rabbit or monkey. The results demonstrate that lindane is a bifunctional inducer in the rat and non-functional in rabbit and monkey. It also increased the activities of hepatic drug metabolizing enzymes with concomitant production of oxidative stress in the rat, whereas in rabbit and monkey it did not alter the drug metabolizing enzymes nor produced any oxidative stress.
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PMID:Differences in hepatic drug metabolizing enzymes and their response to lindane in rat, rabbit and monkey. 858 4


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