EC:1.14.99.3 - FACTA Search

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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)

Degradation of cytochrome P-450 was studied in adult rat liver parenchymal cells in primary monolayer culture. In cells incubated in standard culture medium, the amount of cytochrome P-450 decreased at an accelerated rate relative to either the rate of degradation of total protein in the cells or the turnover of cytochrome P-450 in vivo. This change was succeeded by a spontaneous increase in the activity of haem oxygenase, an enzyme system that converts haem into bilirubin in vitro, measured in extracts from the cultured cells. This finding suggests that the rate of cytochrome P-450 breakdown may be controlled by factor(s) other than the activity of haem oxygenase. The decline in cytochrome P-450 and the subsequent increase in haem oxygenase activity was prevented by incubation of hepatocytes in medium containing an inhibitor of protein synthesis such as cycloheximide, puromycin, actinomycin D, or azaserine. The effect of cycloheximide appeared to be due to decreased breakdown of microsomal (14)C-labelled haem. By contrast, cycloheximide was without effect on the degradation of total protein, measured either in homogenates or in microsomal fractions prepared from the cultured cells. These results suggest that the conditions of cell culture stimulate selective degradation of cytochrome P-450 by a process that is inhibited by cycloheximide and hence may require protein synthesis. The findings in culture were verified in parallel studies of cytochrome P-450 degradation in vivo. After administration of bromobenzene, the degradation of the haem moiety of cytochrome P-450 was accelerated in vivo in a manner resembling that observed in cultured hepatocytes. Administration of cycloheximide to either bromobenzene-treated rats or to untreated rats decreased the degradation of the haem moiety of cytochrome P-450. However, the drug failed to affect degradation of haem not associated with cytochrome P-450, suggesting that cycloheximide is not a general inhibitor of haem oxidation in the liver. These findings confirm that the catabolism of hepatic cytochrome P-450 haem is controlled by similar cycloheximide-sensitive processes in the basal steady state in vivo, as stimulated by bromobenzene in vivo, or in hepatocytes under the conditions of cell culture. We conclude that the rate-limiting step in this process appears to require protein synthesis and precedes cleavage of the haem ring.
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PMID:Inhibition by cycloheximide of degradation of cytochrome P-450 in primary cultures of adult rat liver parenchymal cells and in vivo. 48 36

We report on the detection and characterization of two forms of heme oxygenase in rabbit tissues and provide data suggesting that heme oxygenases in rat and rabbit are not identical and constitute a group of heterogenous proteins. Certain molecular properties, however, are shared by the isozymes in rat and rabbit; the predominant form of the enzyme in control liver and testis is HO-2, in the liver HO-1 is the inducible form, and in the brain HO-1 is not detectable. HO-1 was purified from liver of rabbits treated with bromobenzene to near homogeneity with a specific activity of 8,270 nmol of bilirubin/mg/h and compared with a homogenous preparation of rat HO-1 with a specific activity of 6,220, also obtained from bromobenzene-treated animals. Rat and rabbit HO-1, on sodium dodecyl sulfate-polyacrylamide gel, had molecular weights of 30,000 and 30,700, respectively. Rabbit HO-2 was partially purified from testis to a specific activity of 386 nmol of bilirubin/mg/h and compared with a purified preparation of rat testis HO-2 with a specific activity of 5,700. Using Western immunoblotting, rabbit HO-2 displayed intense cross-reactivity with antibody raised in rabbit to sodium dodecyl sulfate-denatured rat HO-2, and had a substantially larger molecular weight than the rat HO-2 (42,000 versus 36,000). Rabbit HO-1 did not cross-react with antibody to rat HO-1 which was also raised in rabbit. Unlike the rat enzymes, rabbit HO-1 and HO-2 did not differ in thermolability. It is speculated that HO-1 in rat and rabbit, and possibly HO-2, have evolved from divergent evolution of a common ancestral gene(s).
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PMID:Multiplicity of heme oxygenase isozymes. HO-1 and HO-2 are different molecular species in rat and rabbit. 291 Aug 57

The present report describes, for the first time, the identification of two constitutive forms of heme oxygenase, designated as HO-1 and HO-2, in rat liver microsomal fractions. HO-1 was purified to homogeneity and exhibited a specific activity of up to 4000 nmol of bilirubin/mg of protein/h. HO-2 was partially purified to a specific activity of 250 nmol of bilirubin/mg of protein/h. In the native state, the relative activity of HO-2 surpassed that of HO-1 by 2-3-fold. However, a remarkable difference existed in the regulatory mechanism(s) for the production of the two enzyme forms. Whereas the activity of HO-1 was increased up to 100-fold in response to cobalt, cadmium, hematin, phenylhydrazine, and bromobenzene, that of HO-2 was fully refractory to these agents. The two forms differed in their apparent Km, thermolability, ammonium sulfate precipitation, antigenicity, electrophoretic mobility under nondenaturing conditions, and chromatographic behavior. Specifically, for HO-1 the apparent Km value was 0.24 microM, whereas that for HO-2 was 0.67 microM. HO-2 preparation was more susceptible to heat inactivation; nearly 65% activity was retained by HO-1 preparation after exposure to 60 degrees C for 10 min, whereas under the same conditions only about 25% of HO-2 activity was retained. When subjected to ammonium sulfate precipitation the bulk of HO-1 activity precipitated between 0 and 35% saturation, whereas that of HO-2 was precipitated between 35 and 65% saturation. The two forms appeared as immunologically different entities, in so far as a crossreactivity between antibody raised against HO-1 in rabbit and HO-2 could not be detected. Similarities were observed in respect to cofactor requirements for activity, sensitivity to inhibitors, as well as their reactivity towards the substrates used in this study, i.e. hematin, hematoheme, and cytochrome c. Specifically both forms of the enzyme required NADPH-cytochrome c (P-450) reductase, NADPH or NADH, and O2 for activity, and reactions were inhibited by KCN, NaN3, and CO. Both forms cleaved the tetrapyrrole molecule exclusively at the alpha-meso bridge to form biliverdin IX alpha isomer. HO-1 and HO-2 utilized hematin and hematoheme as substrates but not intact cytochrome c.
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PMID:Characterization of two constitutive forms of rat liver microsomal heme oxygenase. Only one molecular species of the enzyme is inducible. 307 57

The concerted activity of two microsomal enzymes, heme oxygenase and NADPH-cytochrome c (P-450) reductase, is required for isomer-specific oxidation of heme molecule; heme oxygenase is commonly believed to be rate limiting in this activity. In this report, we provide evidence strongly suggesting the rate-limiting role of the reductase in oxidation of heme molecule in rat testis. In the testis and the liver of rats treated with Cd (20 mumol/kg, sc, 24 h) heme oxygenase activity, assessed by the formation of bilirubin, was decreased by 50% and increased by 7-fold, respectively. In these animals, the reductase activity was decreased by nearly 75% in the testis, but remained unchanged in the liver. Similarly, the reductase activity in the liver was not altered when heme oxygenase activity was increased by 20-fold in response to bromobenzene treatment. Addition of purified testicular reductase preparation (purified over 4000-fold), or hepatic reductase, to the testicular microsomes of Cd-treated rats obliterated the Cd-mediated inhibition of heme oxygenase activity. The chromatographic separation of heme oxygenase and the reductase of the testicular microsomal fractions revealed that the reductase activity was markedly decreased (75%) while the heme oxygenase activity, when assessed in the presence of exogenous reductase, was not affected by in vivo Cd treatment. In vitro, the membrane-bound reductase preparation obtained from the testis was more sensitive to the inhibitory effect of Cd than the liver preparation. However, the purified reductase preparations from the testis and the liver exhibited a similar degree of sensitivity to Cd. Based on the molar ratio of heme oxygenase to the reductase in the microsomal membranes of the liver and the testis it appeared that the testicular heme oxygenase, which is predominantly HO-2 isoform, interacts with the reductase less effectively than HO-1; in the induced liver, heme oxygenase is predominantly the HO-1 isoform. It is suggested that due to the low abundance of NADPH-cytochrome c (P-450) reductase and the apparently lower affinity of the enzyme for HO-2, the reductase exerts a regulatory action on heme oxygenase activity in the testis.
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PMID:Cadmium-mediated inhibition of testicular heme oxygenase activity: the role of NADPH-cytochrome c (P-450) reductase. 309 74

Heme oxygenase is rate-limiting in the heme degradative pathway, and its activity is induced by a host of chemicals. In K562 human erythroleukemic cells, heme oxygenase activity was not increased by exposure to potent inducers, such as cobalt chloride, bromobenzene, and heme. Indeed heme treatment severely suppressed the enzyme activity, and at 18 h the activity measured less than 5% of the control. Heme and cobalt chloride did not inhibit activities of NADPH-cytochrome c (P-450) reductase and biliverdin reductase to a marked degree. In contrast, treatment of cells with thymidine/hypoxanthine alone, or in combination with cobalt chloride, caused an increase in the activity of three enzymes of heme degradation. It is suggested that with thymidine, which is a committing inducer of hemoglobin synthesis, the induction of activity of the three enzymes of the heme degradation pathway is coupled with cell differentiation. On the other hand, in the case of heme, a noncommitting inducer of hemoglobin synthesis, induction of hemoglobin synthesis and increase in heme degradation activity may be independent.
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PMID:Regulation of the activity of heme degradative enzymes in K562 erythroleukemic cells: induction by thymidine. 311 93

Recently, we have reported on the presence of two forms of heme oxygenase in rat liver and testis microsomes, referred to as HO-1 and HO-2 (M. D. Maines, G. M. Trakshel, and R. K. Kutty (1986) J. Biol. Chem. 261, 411-419; G. M. Trakshel, R. K. Kutty, and M. D. Maines (1986) J. Biol. Chem. 261, 11131-11137). Although the two forms differed in several biochemical properties, we could not ascertain whether they represented two isozymes or whether they were isoforms of heme oxygenase. In the present study, we provide evidence suggesting that the two forms are isozymes and represent different gene products. We also provide data suggesting that HO-1 is the commonly known heme oxygenase form. The molecular weight and immunochemical properties of HO-1 and HO-2 did not vary depending on the tissue source examined, i.e. liver and testis. Major differences, however, were noted in the amino acid composition of the two forms including the presence of 3 cysteine/cystine residues in HO-2 only. Using antibody to HO-2, four testis clones and two liver clones were isolated, and one liver and one testis clone were sequenced. Both clones revealed a 274-base-pair insert, and the sequence of both inserts was the same. The validity of assignment was confirmed by matching a 14-amino-acid peptide obtained from purified HO-2 with the sequence. Approximately 43% amino acid homology was detected between the HO-2 insert and the published amino acid sequence of heme oxygenase. However, amino acid homology search revealed the presence of two regions of homology: one 22-mer sequence with only one unmatched amino acid, and one 10-mer sequence with one unmatched amino acid. Heme oxygenase appeared to be the HO-1 form, an assignment based on its amino acid sequence matching the sequence of 2 peptides obtained from purified HO-1 and the immunochemical properties of the cobalt-, hematin-, and bromobenzene-induced rat liver enzyme. The secondary structure prediction analysis revealed an area of 100% structural homology with only 72% sequence homology. We predict this region may represent the catalytic site of the enzyme.
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PMID:Evidence suggesting that the two forms of heme oxygenase are products of different genes. 334 48

Pretreatment of rats with zinc-protoporphyrin, which has shown to be a potent competitive inhibitor of heme oxygenase, resulted in the inhibition of bromobenzene-mediated induction of heme oxygenase and decreases of the cytochrome P-450 content, aminopyrine demethylase and aniline hydroxylase activities. Such an inhibitory effect of zinc-protoporphyrin on the induction of heme oxygenase and concomitant decreases of drug-metabolizing enzymes occurred in a dose-dependent manner with complete inhibition of these effects at a dose of 40 mumol/kg. The effects of zinc-protoporphyrin were also observed in thioacetamide- and BCG-treated rats and ascitic tumor AH 66-bearing rats. Likewise, a decrease of cytochrome b5 content observed under these experimental conditions was also restored significantly by zinc-protoporphyrin. These results strongly suggest that the induction of heme oxygenase is a primarily important early event which consequently leads to the decrease in cytochrome P-450 content and associated enzyme activities.
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PMID:Inhibitory effect of zinc-protoporphyrin on the induction of heme oxygenase and the associated decrease in cytochrome P-450 content in rats. 338 37

A specific antibody was prepared against rat liver heme oxygenase which had been induced by bromobenzene treatment. Immunochemical studies with this antibody (IgG) revealed that heme oxygenases from livers of rats treated with hemin, Cd2+, Co2+, or bromobenzene from rat spleen and also from kidney of Sn2+-treated rats were all immunochemically identical. Cell-free synthesis of heme oxygenase was performed in a rabbit reticulocyte lysate system using polysomes isolated from livers of rats treated with either hemin, Cd2+, or bromobenzene, and it was found that translatable mRNA specific for heme oxygenase was actually increased in the liver of rats treated with any of those inducers. Also, the ability of liver polysomes to direct cell-free synthesis of heme oxygenase was apparently proportional to the activity of heme oxygenase in the liver from which polysomes were prepared. The heme oxygenase protein synthesized either in vivo or in vitro showed a molecular weight of 31,000 when examined by sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis and fluorography. This value is essentially identical with the molecular weight of heme oxygenase purified from rat liver and indicates that a precursor form of heme oxygenase may not be involved in the heme oxygenase synthesis.
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PMID:Induction of heme oxygenase in rat liver. Increase of the specific mRNA by treatment with various chemicals and immunological identity of the enzymes in various tissues as well as the induced enzymes. 640 24

Leydig and Sertoli cells of the rat testes differ with respect to the activities of the enzymes of the heme and hemoprotein degradative pathway and in their responses to Cd2+ treatment. The microsomal heme oxygenase activity in the Leydig cell preparations was nearly 9- to 10-fold greater than in Sertoli cell preparations, but the characteristics of the enzyme appeared to be similar in both cell populations, as judged by the cofactor requirements and the inhibitory action of heme ligands. Differences between the two cell preparations also were detected in the activity of NADPH-cytochrome c (P-450) reductase and in the contents of cytochrome P-450 and heme, with Leydig cells possessing the higher values. The activities of the cytosolic biliverdin reductase were comparable in both cell preparations. The significantly higher levels of porphyrins and the activities of delta- aminoleuvinate synthetase and uroporphyrinogen-I synthetase suggest that Leydig cells constitute the primary site of heme and hemoprotein biosynthetic activities. The mode of regulation of heme oxygenase activity in the testes and in the liver was compared. The responses of heme oxygenase to Cd2+ treatment (20 mumoles/kg, 24 hr) in the two testicular cell populations were dissimilar and both differed from that of the liver. In Leydig cells, heme oxygenase activity was decreased dramatically, whereas in the liver the activity was greatly increased. Heme oxygenase activity in Sertoli cells was refractory to Cd2+. The Cd2+-mediated decrease in heme oxygenase activity in Leydig cells did not reflect a direct inhibitory action of Cd2+ on the enzyme or a decreased total content of the microsomal protein. The dissimilarity between the mode of regulation of heme metabolic activities in the testes, when determined in Leydig cells, and that in the liver involved the inability of bromobenzene to evoke an increase in heme oxygenase activity and the age-related changes in the activities of heme oxygenase and delta- aminoleuvinate synthetase. In contrast to heme oxygenase activity, the heme concentration in Sertoli cells was remarkably sensitive to Cd2+ treatment, where a 7-fold increase in heme concentration was observed. The same treatment caused only a 2-fold increase in heme concentration in Leydig cells. In the latter cells, however, the increase in heme concentration was accompanied by a marked reduction in cytochrome P-450 levels. The cytochrome could not be measured in Sertoli cell preparations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of heme oxygenase activity in Leydig and Sertoli cells of the rat testes. Differential distribution of activity and response to cadmium. 642 20

Biliverdin reductase catalyzes the reduction of biliverdin, the product of heme oxygenase (HO) activity, to bilirubin. The reductase is unique among all enzymes characterized to date in being dual pH/cofactor-dependent. Until now the enzyme was assumed to be a noninducible cytosolic protein. This report, for the first time, demonstrates induction and nuclear localization of reductase in rat kidney in response to HO-1 inducers: bacterial lipopolysaccharide (LPS) and bromobenzene. The study also demonstrates that nuclear localization requires an intact nuclear localization signal and is responsive to cGMP. Specifically 16 h after treatment of rats (i.p.) with LPS (5 mg/kg), there was an increase in nuclear biliverdin reductase as determined by immunostaining, Western blotting, and activity analysis. Induction and nuclear localization of the reductase in kidney was also observed in bromobenzene-treated rats (2 mmol/kg, s.c., 24 h). The reductase message levels, however, were not increased in response to either treatment, suggesting post-transcriptional activation of the reductase by LPS and bromobenzene. The mechanism of nuclear transport of the reductase was examined using HeLa cells transfected with the hemagglutinin-tagged reductase construct. When cells were treated with 8-Br-cGMP the protein translocated into the nucleus. Mutation of the putative nuclear localization signal domain of the reductase blocked nuclear transport of the protein. We suggest the significance of nuclear localization of the reductase may relate to: 1) chain-breaking antioxidant activity of bilirubin; 2) inhibition of superoxide formation by bilirubin; and 3) modulation of the signal transduction pathways.
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PMID:Nuclear localization of biliverdin reductase in the rat kidney: response to nephrotoxins that induce heme oxygenase-1. 1118 45

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