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Query: UNIPROT:P06889 (Mol)
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We have presently investigated the putative protective role of hemin against the inhibitory actions of the cytokine interleukin-1 beta (IL-1 beta) on isolated rat pancreatic islets. For this purpose, islets were isolated from adult rats, pre-cultured for 3-7 days in RPMI 1640 medium + 10% fetal calf serum and then exposed to IL-1 beta (5 ng/ml), hemin for 1, 7 or 24 h after which islet nitrite production, aconitase activity, glucose oxidation rates, glucose-stimulated insulin release and medium insulin accumulation were determined. It was found that hemin did not prevent IL-1 beta induced nitrite production. On the other hand, hemin partially counteracted the IL-1 beta induced decrease in aconitase activity, glucose oxidation, insulin release and medium insulin accumulation. This protective effect was present at a hemin concentration of 10 microM and most pronounced at 100 microM. Furthermore, hemin induced the synthesis of a 31 kDa protein, which was shown to be heme oxygenase as demonstrated by Western blot analysis. Finally, the protease inhibitor N-alpha-tosyl-L-lysine chloromethyl ketone (TLCK), which protects against IL-1 beta by decreasing nitric oxide production, was found to act additively in combination with hemin in alleviating the IL-1 beta effects. It is proposed that the beneficial effects of hemin against IL-1 beta could be related to scavenging of nitric oxide and/or an increased resistance to nitric oxide production.
Mol Cell Endocrinol 1994 Jul
PMID:Protective action by hemin against interleukin-1 beta induced inhibition of rat pancreatic islet function. 795 87

Tyrosinase is a rate-limiting enzyme in melanin biosynthesis and is specifically expressed in differentiated melanocytes. We have identified the enhancer element in the 5'-flanking region of the human tyrosinase gene that is responsible for its pigment cell-specific transcription and have termed it tyrosinase distal element (TDE) (positions -1861 to -1842). Transient expression assays showed that TDE confers efficient expression of a firefly luciferase reporter gene linked to the tyrosinase gene promoter in MeWo pigmented melanoma cells but not in HeLa cells, which do not express tyrosinase. TDE was specifically bound by nuclear proteins of MeWo and HeLa cells, the binding properties of which were indistinguishable in gel mobility shift assays. TDE contains the CATGTG motif in its center, and mutation analysis indicates that the CA dinucleotides of this motif are crucial for protein binding and pigment cell-specific enhancer function. The CATGTG motif is consistent with the consensus sequence recognized by a large family of transcription factors with a basic helix-loop-helix structure, which prompted us to examine the possible involvement of a ubiquitous transcription factor, USF, and a novel factor, microphthalmia-associated transcription factor (MITF), recently cloned as the human homolog of the mouse microphthalmia (mi) gene product. The mi phenotype is associated with a mutant mi locus and characterized by small eyes and loss of melanin pigments. Both USF and MITF are predicted to contain a basic helix-loop-helix structure and a leucine zipper structure. We provide evidence that USF binds to TDE, whereas we were unable to detect the DNA-binding activity of MITF. Transient coexpression assays showed that MITF specifically transactivates the promoter activity of the tyrosinase gene through the CATGTG motif of TDE but not the promoter of the ubiquitously expressed heme oxygenase gene, while USF is able to activate both promoters. These results indicate that MITF is a cell-type-specific factor that is capable of activating transcription of the tyrosinase gene.
Mol Cell Biol 1994 Dec
PMID:Microphthalmia-associated transcription factor as a regulator for melanocyte-specific transcription of the human tyrosinase gene. 786 73

Enterally administered, heme is a good source of iron in humans and other animals, but the metabolism of heme by enterocytes has not been fully characterized. Caco-2 cells in culture provide a useful model for studying cells that resemble small intestinal epithelium, both morphologically and functionally. In this paper we show that heme oxygenase, the rate-controlling enzyme of heme catabolism, is present in abundance in Caco-2 cells, and that levels of its mRNA and activity can be increased by exposure of the cells to heme or metal ions (cadmium, cobalt). Caco-2 cells also contain biliverdin reductase activity which, in the basal state, is similar to that of heme oxygenase (approximately 40 pmole of product per mg protein per minute); however, when heme oxygenase is induced, biliverdin reductase may become rate-limiting for bilirubin production.
Mol Cell Biochem 1993 Dec 08
PMID:Induction of heme oxygenase in intestinal epithelial cells: studies in Caco-2 cell cultures. 817 32

The human monocytic leukemia cell line THP-1 differentiates into macrophage-like cells when treated with a variety of agents, including 12-O-tetradecanoylphorbol-13-acetate (TPA). We show here that during this process, the expression of heme oxygenase, a rate-limiting enzyme in heme catabolism, is induced. Treatment with TPA increases heme oxygenase mRNA in other myelomonocytic cell lines also, but not in cell lines of other lineages, such as HeLa cells. Increased heme oxygenase activity may represent one of the functions of activated macrophages, which sequestrate senescent erythrocytes and degrade heme derived from hemoglobin. This cell-type-specific induction by TPA treatment further investigated with respect to transcriptional regulation. We defined a cis-regulatory element, 5'-GTCATATGAC-3', located in the 5'-flanking region (positions -156 to -147) of the human heme oxygenase gene, which confers inducibility by TPA in THP-1 cells but not in HeLa cells. Nuclear proteins that bind to this element, which may be responsible for the cell specificity, were identified in THP-1 nuclear extracts. This element contains the consensus motif CANNTG, to which a large family of basic helix-loop-helix proteins binds. Our results suggest a novel mechanism of TPA-mediated transcriptional regulation in myelomonocytic cell lines.
Mol Cell Biol 1993 Dec
PMID:Identification of a cis-regulatory element and putative trans-acting factors responsible for 12-O-tetradecanoylphorbol-13-acetate (TPA)-mediated induction of heme oxygenase expression in myelomonocytic cell lines. 824 3

The effects of the metabotropic glutamate receptor agonist (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid [(1S,3R)-ACPD] on ionic current responses produced by ionotropic glutamate and gamma-aminobutyric acid (GABA)A receptor activation in the nucleus of the tractus solitarius (NTS) were examined. Recordings were made in the dorsomedial subdivision of the NTS adjacent to the area postrema in transverse brainstem slices of the rat. (1S,3R)-ACPD produced a small inward current (IACPD) associated with a decrease in conductance in approximately 50% of recordings. Monosynaptic excitatory postsynaptic currents (EPSCs) evoked by electrical stimulation in the region of the tractus solitarius in the presence of D-amino-5-phosphonopentanoic acid and bicuculline were reversibly reduced by (1S,3R)-ACPD in > 90% of cells. The inward current evoked by pressure application of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) (IAMPA) was potentiated in the presence of (1S,3R)-ACPD, whereas the outward current evoked by the GABAA receptor agonist muscimol (IMUSC) was inhibited. We have previously demonstrated that these effects may involve the activation of soluble guanylate cyclase. The diffusible second messengers nitric oxide and carbon monoxide are known to activate soluble guanylate cyclase. The nitric oxide synthase inhibitor L-omega-nitroarginine failed to inhibit responses to (1S,3R)-ACPD. The selective heme oxygenase inhibitor Zn-protoporphyrin-IX, which would be expected to block the production of carbon monoxide, antagonized the effects of (1S,3R)-ACPD on EPSCs, IAMPA, and IMUSC. However, IACPD was not blocked. A relatively inactive metalloprotoporphyrin, Cu-protoporphyrin-IX was ineffective. A cell-permeant form of cGMP, 8-Br-cGMP inhibited EPSCs, IAMPA, and IMUSC in the presence of Zn-protoporphyrin-IX but did not induce an inward current. These results further support the hypothesis that multiple metabotropic glutamate receptors exist in the NTS, and they suggest that one of these may be coupled to the activation of a soluble guanylate cyclase via the liberation of an easily diffusible second messenger such as carbon monoxide.
Mol Pharmacol 1993 Jun
PMID:Zinc protoporphyrin-IX blocks the effects of metabotropic glutamate receptor activation in the rat nucleus tractus solitarii. 839 Nov 21

Redox regulation of DNA-binding proteins through the reversible oxidation of key cysteine sulfhydryl groups has been demonstrated to occur in vitro for a range of transcription factors. The direct redox regulation of DNA binding has not been described in vivo, possibly because most protein thiol groups are strongly buffered against oxidation by the highly reduced intracellular environment mediated by glutathione, thioredoxin, and associated pathways. For this reason, only accessible protein thiol groups with high thiol-disulfide oxidation potentials are likely to be responsive to intracellular redox changes. In this article, we demonstrate that zinc finger DNA-binding proteins, in particular members of the Sp-1 family, appear to contain such redox-sensitive -SH groups. These proteins displayed a higher sensitivity to redox regulation than other redox-responsive factors both in vitro and in vivo. This effect was reflected in the hyperoxidative repression of transcription from promoters with essential Sp-1 binding sites, including the simian virus 40 early region, glycolytic enzyme, and dihydrofolate reductase genes. Promoter analyses implicated the Sp-1 sites in this repression. Non-Sp-1-dependent redox-regulated genes including metallothionein and heme oxygenase were induced by the same hyperoxic stress. The studies demonstrate that cellular redox changes can directly regulate gene expression in vivo by determining the level of occupancy of strategically positioned GC-binding sites.
Mol Cell Biol 1996 Mar
PMID:Physical and functional sensitivity of zinc finger transcription factors to redox change. 862 48

Using hyperoxia as a model of oxidant-induced lung injury in the rat, we explored the regulation of heme oxygenase-1 (HO-1) expression in vivo and in vitro. We demonstrate marked increase of HO-1 messenger ribonucleic acid (mRNA) levels in rat lungs after hyperoxia. Increased HO-1 mRNA expression correlated with increased HO-1 protein and enzyme activity. Immunohistochemical studies of the rat lung after hyperoxia showed increased HO-1 expression in a variety of cell types, including the bronchoalveolar epithelium and interstitial and inflammatory cells. We then examined the regulation of HO-1 expression in vitro after hyperoxia and observed increased HO-1 gene expression in various cultured cells including epithelial cells, fibroblasts, macrophages, and smooth muscle cells. Increased HO-1 mRNA expression correlated with increased HO-1 protein in vitro, and resulted from increased gene transcription and not from increased mRNA stability. We show that transcriptional activation of the HO-1 gene by hyperoxia requires cooperation between the HO-1 promoter and an enhancer fragment located 4 kb upstream from its transcription site. Increased HO-1 gene transcription was associated with increased activator protein-1 (AP-1) binding activity and supershift of the AP-1 complex by antibodies to c-Fos and c-Jun after hyperoxia. Taken together, our data suggest that AP-1 activation may represent one mechanism mediating hyperoxia-induced HO-1 gene transcription.
Am J Respir Cell Mol Biol 1996 Jun
PMID:Regulation of heme oxygenase-1 expression in vivo and in vitro in hyperoxic lung injury. 865 84

Accumulating evidence suggests that oxidative stress plays a central role in the pathogenesis of many pulmonary diseases including adult respiratory distress syndrome, emphysema, asthma, bronchopulmonary dysplasia, and interstitial pulmonary fibrosis. The morbidity and mortality of these diseases remain high even with optimal medical management. In our attempts to devise new therapies for these disorders, it is crucial to improve our understanding of the basic mechanism(s) of oxidant-induced lung injury. A major line of investigation seeks to characterize the cellular and molecular responses of the lung to oxidant insults. Much progress has been made in our understanding of the role of the "classic" antioxidant enzymes (e.g., superoxide dismutase, catalase, glutathione peroxidase) in mediating the lung's resistance against oxidant lung injury. However, it is becoming clear that other oxidant-induced gene products may also play vital roles in the lung's adaptive and/or protective response to oxidative stress. One such stress-response protein is heme oxygenase-1, HO-1. Since the identification of HO-1 in 1968, many of the studies involving this enzyme were understandably focused on the regulation and function of HO-1 in heme metabolism. This emphasis is self-evident as HO-1 catalyzes the first and rate-limiting step in heme degradation. Interestingly, however, evidence accumulated over the past 25 years demonstrates that HO-1 is induced not only by the substrate heme but also by a variety of non-heme inducers such as heavy metals, endotoxin, heat shock, inflammatory cytokines, and prostaglandins. The chemical diversity of HO-1 inducers led to the speculation that HO-1, besides its role in heme degradation, may also play a vital function in maintaining cellular homeostasis. Further support for this hypothesis was provided by Tyrrell and colleagues who showed in 1989 that HO-1 is also highly induced by a variety of agents causing oxidative stress. Subsequently, many investigators have focused their attention on the function and regulation of HO-1 in various in vitro and in vivo models of oxidant-mediated cellular and tissue injury. The magnitude of HO-1 induction after oxidative stress and the wide distribution of this enzyme in systemic tissues coupled with the intriguing biological activities of the catalytic byproducts, carbon monoxide, iron, and bilirubin, makes HO-1 a highly attractive and interesting candidate stress-response protein which may play key role(s) in mediating protection against oxidant-mediated lung injury. This review will focus on the current understanding of the physiological significance of HO-1 induction and the molecular regulation of HO-1 gene expression in response to oxidative stress. We hope that this discussion will stimulate interest and investigations into a field which is still largely uncharted in the pulmonary research community.
Am J Respir Cell Mol Biol 1996 Jul
PMID:Heme oxygenase-1: function, regulation, and implication of a novel stress-inducible protein in oxidant-induced lung injury. 867 27

The induction of the heme oxygenase-1 (HO-1) protein, also called HSP32, was compared to HSP70 heat shock protein induction following focal ischemia. Adult Sprague-Dawley male rats (n = 14) were subjected to either 30 min or 2 h of focal cerebral ischemia using the suture, middle-cerebral-artery (MCA) occlusion model. Controls (n = 4) had sham surgery. Following 24 h of reperfusion, subjects were killed and their brains stained immunocytochemically for HO-1 and the HSP70 heat shock proteins. One day following 30 min of ischemia, HO-1 and HSP70 staining in striatum occurred mainly in endothelial cells in infarcts and in glial cells surrounding the areas of infarction. Following the 30 min ischemia HO-1 was not induced in cortex whereas HSP70 was induced in cortical neurons in the MCA distribution. One day following 2 h of MCA ischemia, both HO-1 and HSP70 were induced in neurons in cortex in the MCA distribution. HO-1, however, was induced in glial cells throughout ipsilateral cortex, inside as well as outside the MCA distribution. This suggests that translation and/or transcription of the HO-1 and HSP70 genes are blocked in neurons and glia destined to die within infarcts, whereas translation of these stress genes continues in the endothelial cells. The duration of ischemia required to induce HSP70 in cortical neurons appears to be less than that required to induce HO-1 in cortical glia. Prolonged spreading depression and/or diffuse hemispheric ischemia may induce HO-1 in glia throughout the ipsilateral cortex via immediate early gene activation of the AP-1 site in the HO-1 promoter. Since HO-1 degrades heme, a pro-oxidant, to antioxidant molecules, the induction of HO-1 may augment oxidative defense mechanisms compromised by cerebral ischemia.
Brain Res Mol Brain Res 1996 Apr
PMID:Heme oxygenase-1 (HO-1) protein induction in rat brain following focal ischemia. 873 52

To examine the intracellular signaling mechanism of NO in ischemic myocardium, isolated working rat hearts were made ischemic for 30 min followed by 30 min of reperfusion. A separate group of hearts were pre-perfused with 3 mM L-arginine in the presence or absence of 650 microM of protoporphyrin, a heme oxygenase inhibitor for 10 min prior to ischemia. The release of NO was monitored using an on-line amperometric sensor placed into the right atrium. The aortic flow and developed pressure were examined to determine the effects of L-arginine on ischemic/reperfusion injury. Induction for the expression of heme oxygenase was studied by Northern hybridization. For signal transduction experiments, sarcolemmal membranes were radiolabeled by perfusing the isolated hearts with [3H] myoinositol and [14C] arachidonic acid. Biopsies were processed to determine the isotopic incorporation into various phosphoinositols as well as phosphatidic acid and diacylglycerol. cGMP was assayed by radioimmunoassay and SOD content was determined by enzymatic analysis. The release of NO was diminished following ischemia and reperfusion and was augmented by L-arginine. L-arginine reduced ischemic/reperfusion injury as evidenced by the enhanced myocardial functional recovery. Protoporphyrin modulated the effects of L-arginine. cGMP, which was remained unaffected by ischemia and reperfusion, was stimulated significantly after L-arginine treatment. The NO-mediated augmentation of cGMP was reduced by protoporphyrin suggesting that part of the effects may be mediated by CO generated through the heme oxygenase pathway. Reperfusion of ischemic myocardium resulted in significant accumulation of radiolabeled inositol phosphate, inositol bisphosphate, and inositol triphosphate. Isotopic incorporation of [3H] inositol into phosphatidylinositol, phosphatidylinositol-4-phosphate, and phosphatidylinositol-4,5-bisphosphate was increased significantly during reperfusion. Reperfusion of the ischemic heart prelabeled with [14C] arachidonic acid resulted in modest increases in [14C] diacylglycerol and [14C] phosphatidic acid. Pretreatment of the heart with L-arginine significantly reversed this enhanced phosphodiesteratic breakdown during ischemia and early reperfusion. However, at the end of the reperfusion the inhibitory effect of L-arginine on the phosphodiesterases seems to be reduced. In L-arginine treated hearts, SOD activity was progressively decreased with the duration of reperfusion time. The results suggests for the first time that NO plays a significant role in transmembrane signaling in the ischemic myocardium. This signaling appears to be on- and off- nature, and linked with SOD content of the tissue. The signaling is transmitted via cGMP and opposes the effects of phosphodiesterases by inhibiting the ischemia/reperfusion-induced phosphodiesteratic breakdown. Our results also suggest that NO activates heme oxygenase which further stimulates the production of cGMP presumably by CO signaling. Thus, NO not only potentiates cGMP mediated intracellular signaling, it also functions as a retrograde messenger for CO signaling in heart.
Mol Cell Biochem
PMID:Nitric oxide--a retrograde messenger for carbon monoxide signaling in ischemic heart. 873 31


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