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 trace metals nickel and platinum, which are not substrates for ferrochelatase and thus do not form heme in biological systems, were found to act similaryl to cobalt, and heme itself, in regulating heme metabolism in liver and kidney. These metals induced heme oxygenase activity in both organs with the peak of induced enzyme activity reached approximately 16 hr after single injections in rats. Both metals caused transient depression of cellular glutathione content followed by increases above normal after 12 hr in liver. Nickel and platinum were more potent inducers of heme oxygenase in kidney than in liver (10-13 times normal versus 5-6 times normal). At high concentrations, they inhibited heme oxygenase [heme, hydrogen-donor:oxygen oxidoreductase (alpha-methene-oxidizing, hydroxylating), EC 1.14.99.3] in vitro. Both were active in regulating heme metabolism only when administered in the ionic form. Complexing of the metals with sulfhydryl agents completely blocked their actions on heme metabolism. Administration of cysteine orally prior to or shortly after administration of the metals had a similar blocking effect. Nickel and platinum produced depression of delta-aminolevulinate synthase [succinyl-CoA:glycine c-succinyltransferase (decarboxylating), EC 2.3.1.37] activity in liver, but neigther inhibited this rate-limiting ennzyme for heme synthesis in vitro. Furthermore, despite the substantial decreases in cellular heme and hemoprotein contents mediated by the metal, production of delta-amimolevulinate synthase did not undergo the compensatory increase that would be expected if there were a direct reciprocal feedback relationship between cellular heme level and synthesis of this enzyme. These findings indicate that it is not necessary for metal ions to be chelated in the porphyrin ring in order to regulate the enzymes of heme synthesis and heme oxidation. Accordingly, it is suggested that the iron atom of heme is the proximately active regulator of delta-aminolevulinate synthase and heme oxygenase--actions generally ascribed to the iron-tetrapyrrole complex itself--and that the tetrapyrrole moiety of the complex functions primarily as a means of transport of the metal to regulatory sites in cells.
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PMID:Regulation of heme pathway enzymes and cellular glutathione content by metals that do not chelate with tetrapyrroles: blockade of metal effects by thiols. 26 10

Selenium was found to be a novel regulator of cellular heme methabolism in that the element induced both the mitochondrial enzyme delta-aminolevulinate synthase [succinyl-CoA:glycine C-succinyltransferase (decarboxylating); EC 2-3-1-37] and the microsomal enzyme heme oxygenase [heme, hydrogen-donor:oxygen oxidoreductase(alpha-methene-oxidizing, hydroxylating); EC 1-14-99-3] in liver. The effect of selenium on these enzyme activities was prompt, reaching a maximum within 2 hr after a single injection. Other changes in parameters of hepatic heme metabolism occurred after administration of the element. Thirty minutes after injection the cellular content of heme was significantly increased; however, this value slightly decreased below control values within 2 hr, coinciding with the period of rapid induction of heme oxygenase. At later peroids heme content returned to normal values. Selenium treatment caused only a slight decrease in microsomal cytochrome P-450 content. However, drug-metabolizing activity was severely inhibited by higher doses of the element. Unlike other inducers of delta-aminolevulinate synthase, which as a rule are also porphyrinogenic agents, selenium induction of this enzyme was not accompanied by an increase in the cellular content of prophyrins. When rats were pretreated with selenium 90 min before administration of heme, a potent inhibitor of delta-aminolevulinate synthase production, the inhibitory effect of heme of formation of this mitochondrial enzyme was completely blocked. Selenium, at high concentrations in vitro, was inhibitory to delta-aminolevulinate synthase activity. It is postulated that selenium may not be a direct inducer of heme oxygenase as is the case with trace metals such as cobalt, but may mediate an increase in heme oxygenase through increased production and cellular availability of "free" heme, which results from the increased heme synthetic activity of hematocytes. Subsequently, the increased heme oxygenase activity is in turn responsible for the lack of increase in the microsomal heme content, thus maintaining heme levels at normal values despite the highly increased activities of both heme oxygenase and delta-aminolevulinate synthase. It is further suggested that the increase in delta-aminolevulinate synthase activity is not due to a decreased rate of enzyme degradation or an activation of preformed enzyme, but to increased rate of synthesis of enzyme protein. Although selenium in trace amounts has been postulated to be involved in microsomal electron transfer process, the data from this study indicate that excess selenium can substantially inhibit microsomal drug metabolism.
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PMID:Selenium regulation of hepatic heme metabolism: induction of delta-aminolevulinate synthase and heme oxygenase. 82 7

Catalytic activity of heme oxygenase (heme, hydrogen-donor:oxygen oxidoreductase, EC 1.14.99.3) isozymes, HO-1 and HO-2, permits production of physiologic isomers of bile pigments. In turn, bile pigments biliverdin and bilirubin are effective antioxidants in biological systems. In the rat brain we have identified only the HO-1 isozyme of heme oxygenase as a heat shock protein and defined hyperthermia as a stimulus that causes an increase in brain HO-1 protein. Exposure of male rats to 42 degrees C for 20 min caused a rapid and marked increase in brain 1.8-kilobase HO-1 mRNA. Specifically, a 33-fold increase in brain HO-1 mRNA was observed within 1 h and sustained for at least 6 h posttreatment. In contrast, the two HO-2 homologous transcripts (1.3 and 1.9 kilobases) did not respond to heat shock; neither the ratio nor the level of the two messages differed from that of the control when measured either at 1, 6, or 24 h after hyperthermia. The induction of a 1.8-kilobase HO-1 mRNA resulted in a pronounced increase in HO-1 protein 6 h after hyperthermia, as detected by both Western immunoblot and RIA. Immunocytochemistry of rat brain showed discrete localization of HO-1-like protein only in neurons of select brain regions. Six hours after heat shock, an intense increase in HO-1-like protein was observed in both Purkinje cells of the cerebellum and epithelial cells lining the cerebral aqueduct of the brain. We suggest that the increase in HO-1 protein, hence increased capacity to form bile pigments, represents a neuronal defense mechanism against heat shock stress.
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PMID:Rapid induction of heme oxygenase 1 mRNA and protein by hyperthermia in rat brain: heme oxygenase 2 is not a heat shock protein. 205 13

The levels of hepatic mRNAs for several enzymes involved in drug metabolism were measured following administration to rats of either phenobarbitone or 2-allyl-2-isopropylacetamide. There was a substantial elevation in the mRNA levels for cytochromes P450 IIB1, IIB2, and IIIA1, epoxide hydrolase, glutathione-S-transferase Ya/Yc subunit, UDP-glucuronosyltransferase isoenzyme (UDPGTr-2), NADPH-cytochrome P450 oxidoreductase, and 5-aminolevulinate synthase. When rats were treated with hemin, together with inducing drug, there was a marked reduction in the induced levels of these mRNAs, with decreases in the range of 55-95%. Basal levels of these mRNAs in the noninduced rat liver were also lowered by hemin administration. Nuclear run-on transcriptional experiments showed that hemin administration substantially lowered both the basal and drug-induced transcriptional activities of the genes for cytochrome P450IIB1/IIB2 and 5-aminolevulinate synthase. In contrast, the mRNA for heme oxygenase was elevated by hemin treatment, whereas the mRNA levels of beta-actin, albumin, and ornithine transcarbamylase, used as controls, were not affected. Treatment of rats with clofibrate resulted in increased levels of mRNA for cytochrome IVA1 and, in addition, those for cytochromes P450IIB1 and P450IIB2. Hemin administration repressed the induction of mRNA levels for cytochromes P450IIB1 and IIB2 but not that for cytochrome P450 IVA1. Additionally, the induction of P450IAI by beta-naphthoflavone was not affected by hemin. The results suggest that heme may negatively control the induction of cytochromes P450IIB1 and IIB2 and other hepatic enzymes by phenobarbitone and phenobarbitone-like drugs and perhaps play a role in regulating drug metabolism. There is, however, no evidence at present as to whether heme has a direct role in such a mechanism or whether injected hemin promotes a secondary response.
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PMID:Hemin administration to rats reduces levels of hepatic mRNAs for phenobarbitone-inducible enzymes. 223 90

Oxidative stress of human skin fibroblasts by treatment with ultraviolet A (UVA) radiation has been shown to lead to an increase in levels of the heme catabolizing enzyme heme oxygenase 1 [heme, hydrogen-donor:oxygen oxidoreductase (alpha-methene-oxidizing, hydroxylating), EC 1.14.99.3] and the iron storage protein ferritin. Here we show that human skin fibroblasts, preirradiated with UVA, sustain less membrane damage during a subsequent exposure to UVA radiation than cells that had not been preirradiated. Pretreating cells with heme oxygenase 1 antisense oligonucleotide inhibited the irradiation-dependent induction of both the heme oxygenase I enzyme and ferritin and abolished the protective effect of preirradiation. Inhibition of the UVA preirradiation-dependent increase in ferritin, but not heme oxygenase, with desferrioxamine also abolished the protection. This identifies heme oxygenase 1 as a crucial enzymatic intermediate in an oxidant stress-inducible antioxidant defense mechanism, involving ferritin, in human skin fibroblasts.
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PMID:Heme oxygenase 1 mediates an adaptive response to oxidative stress in human skin fibroblasts. 814 61

A dose-dependent and transiently elevated expression of a cytoplasmic 32 kDa protein was observed in Swiss albino 3T3 fibroblasts exposed to mainstream cigarette smoke (CS) trapped in phosphate-buffered saline solutions (smoke-bubbled PBS). The protein was identified as heme oxygenase (HO) (heme, hydrogen donor:oxygen oxidoreductase, EC 1.14.99.3) by Western blotting using an anti-rodent HO-specific antibody. Kinetic investigations revealed that HO protein and its mRNA were detectable in smoke-bubbled PBS-treated cells between 1 and 24 h after exposure to 0.03 puffs (approximately 1 cm3) CS per ml medium. As a result of transcriptional activation, a nearly 50-fold increase in the amount of HO mRNA was determined after 8 h exposure compared to control levels. Since literature data indicate that there is a link between glutathione depletion and HO expression, the same was assumed for cells exposed to smoke-bubbled PBS, as a decrease of more than 60% in glutathione levels was observed after the exposure. This was further supported by the observation that no elevated amounts of HO mRNA appeared in smoke-bubbled PBS-treated cells when cysteine was exogenously added. However, although these effects may be attributable to the formation of hydroxyl radicals (which have been shown to induce HO and to deplete glutathione levels and which appear in aqueous smoke-containing solutions via the iron-catalysed Fenton reaction) neither catalase nor the iron cation chelating agent o-phenanthroline were able to suppress or even to reduce HO expression in smoke-bubbled PBS-treated cells. On the contrary, at comparable concentrations both compounds were found to be potent inhibitors of smoke-dependent DNA strand breaks. Hence, reactive species other than Fenton reaction-derived hydroxyl radicals are responsible for the effects observed in the present study.
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PMID:Heme oxygenase expression in Swiss 3T3 cells following exposure to aqueous cigarette smoke fractions. 829 50

Tissue specific changes in the cytochrome P-450 (P-450) monooxygenase system were observed following a single subcutaneous dose of sodium arsenite (75 mumol/kg), a known inducer of stress proteins. P-450 monooxygenase activities were assayed with several isozyme selective substrates; 7-ethoxyresorufin, 7-pentoxyresorufin, 4-aminobiphenyl and erythromycin. Both tissue selective and isozyme selective changes in monooxygenase activity were noted. For example, the rate of 4-aminobiphenyl N-hydroxylation (ABH) was increased by arsenite administration in lung but not in liver. Arsenite inhibited 7-ethoxyresorufin O-deethylation (ERF) in all tissues of control animals, but to a lesser extent in lung. However, increases of ERF activity occurred after arsenite treatment in lung of beta-naphthoflavone (beta NF)-treated guinea pigs whereas arsenite decreased ERF activities in the kidney and liver of these animals. These complex effects on ERF activity may in part be modulated by induction of heme oxygenase, whose activity was increased 2.5-3.5-fold in these organs by arsenite. The highest heme oxygenase activity was found in kidney with lower activities being present in liver and lung, respectively. These data are consistent with the decreased P-450 content observed in kidney and liver microsomes of arsenite treated guinea pigs. On the other hand there was either no change or a slight increase (about 2-fold) in the pulmonary microsomal P-450 content of these animals. A complex pattern of induction for the non-heme, Ah locus associated enzyme, NAD(P)H:quinone acceptor oxidoreductase (QOR) was also observed. With menadione as substrate arsenite treatment increased QOR activity in all tissues studied. However, with dichlorophenolindophenol (DCPIP) as substrate a significant arsenite effect was observed only in the kidney. Significant differences between the QOR substrates were also observed in beta NF-treated guinea pigs and control animals. Our results are consistent with the presence of more than one form of QOR in the guinea pig. Arsenite treatment also caused an increase in glutathione S-transferase activity, with 2,4-dinitro-1-chlorobenzene (DNCB) as substrate, of guinea pig kidney but not liver or lung.
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PMID:Effects of acute sodium arsenite administration on the pulmonary chemical metabolizing enzymes, cytochrome P-450 monooxygenase, NAD(P)H:quinone acceptor oxidoreductase and glutathione S-transferase in guinea pig: comparison with effects in liver and kidney. 843 65

Microsomal heme oxygenase (HO) is a cytochrome P-450-assisted oxidoreductase, which catalyzes the NADPH-dependent decomposition of heme to carbon monoxide (CO), biliverdin, and iron. Recent evidence suggests that CO, similar to nitric oxide (NO), may serve as gaseous biological signalling molecule, which acts by stimulating soluble guanylate cyclase in target cells. In the present investigation, we report the HO-like immunoreactivity (LIR) pattern of the constitutive HO isozyme, HO-2, and compare the results with recently published data on constitutive NO-producing nitric oxide synthase (NOS) in rat tissues. HO-2-LIR was most consistently observed in connective tissue elements (fibrocytes/-blasts and fibroblast-like cells, such as interstitial cells in the bowel), blood vessel wall constituents (arterial and venous endothelial cells, vascular smooth muscle cells), visceral smooth muscle cells (airway musculature, myometrium, muscularis mucosae of the small intestine), mesothelial cells of serous membranes and in select epithelial cell populations. HO-2-LIR was absent from the striated (skeletal and cardiac) musculature. HO-2 had a more widespread distribution and its expression largely differs from that of NOS. HO-2-LIR and NOS appear to be co-expressed in vascular endothelial cells and in selected nerve cell populations of certain parasympathetic and probably sensory ganglia. Our data suggest potential CO and NO systems as interrelated regulatory pathways in the local paracrine and autocrine control of diverse functional systems.
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PMID:Expression of heme oxygenase-2 (HO-2)-like immunoreactivity in rat tissues. 873 5

NADPH-cytochrome P450 oxidoreductase (CYPOR), a flavoprotein localized in the nuclear envelope and endoplasmic reticulum of most cell types, is responsible for transferring electrons from NADPH to the cytochromes P450 as well as heme oxygenase, squalene epoxidase, and cytochrome b(5). CYPOR is encoded by a single gene and, similar to many housekeeping genes, has a TATA-less, GC-rich promoter with multiple Sp1 consensus sites. The current work has delineated the importance of multiple cis-acting elements contained within the proximal promoter for basal expression of the CYPOR gene. Transcription factor binding sites within this region included two upstream Sp1 motifs, a SEC element containing overlapping Sp1/Egr-1/CACCC box motifs, and a novel site designated the OxidoReductase Upstream element (ORU). Mutational modification of the ORU element, leading to a loss of protein binding, resulted in an approximately 90% decrease in transcriptional activity in H4IIE cells. Similarly, inactivation of the Egr-1/CACCC segment of the SEC element dramatically reduced promoter activity to less than 10% of wild-type, while mutagenesis of the contiguous Sp1 site did not affect basal transcription. Although both Sp1 sites contained within the minimal promoter were required for optimal expression in H4IIE cells, loss of these sites was compensated for by those Sp1 motifs located upstream of position 206, suggesting that Sp1 was acting as a position-independent enhancer. Hence, the CYPOR promoter was distinguished from the majority of TATA-less promoters in that Sp1 was not a primary transcriptional regulator and by the fact that the Sp1 binding site closest to the transcription start site was nonfunctional. Furthermore, both the SEC and ORU elements were essential for basal expression; however, the ORU element exhibited cell-specific differences in regulatory activity. Thus, several mechanisms appear to be in place to selectively alter the expression of the CYPOR gene.
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PMID:Molecular basis for cell-specific regulation of the NADPH-cytochrome P450 oxidoreductase gene. 1086 47

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


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