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 mechanism responsible for the accumulation of heme oxygenase and erythropoietin (epo) transcripts due to cobalt chloride (CoCl2) administration was investigated in rat kidney using a rat heme oxygenase and mouse epo probes. We found an increase of heme oxygenase transcripts in kidney in response to CoCl2. Quantitative evaluation of the heme oxygenase mRNA changes, by scanning densitometry, indicated that the levels of mRNA encoding heme oxygenase were increased by about fiftyfold in rat kidney after administration of CoCl2. That the increase in heme oxygenase mRNA levels resulted from enhanced transcription of the heme oxygenase gene was confirmed by nuclear runoff using isolated rat kidney nuclei after CoCl2 administration. Transcription of the heme oxygenase gene is greatly increased in rat kidney within 1 hr of administration of CoCl2 as evidenced from the levels of 32P-UTP incorporation into the specific transcript. Time course studies showed that stimulation of transcription was increased about fortyfold 3 hr after CoCl2 administration. This stimulation is the most rapid transcriptional response to heavy metals yet described. In addition, Northern blot analysis demonstrated that epo mRNA was first detected 4 hr following CoCl2 administration and reached a maximum at 5 hr. On the other hand, PCR analysis indicated that epo mRNA was increased as early as 1 hr following CoCl2 administration. The fact that CoCl2 caused increased transcription of both the epo and heme oxygenase genes suggests that a common mechanism may be involved in the regulation of these two genes by the heavy metal ion.
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PMID:Co-regulation of heme oxygenase and erythropoietin genes. 193 65

Heme metabolism and in vitro erythropoietic growth (CFU-E, BFU-E) were examined in bone marrow cells taken from two siblings with apparent familial hypochromic microcytic anemia. Bone marrow cells from both patients grew adequate numbers of CFU-E and BFU-E colonies in culture in the presence of erythropoietin. In addition, small numbers of endogenous CFU-E were seen in 7-day cultures. Assays on bone marrow cells taken from both patients revealed that baseline delta-aminolevulinic synthase activity was considerably reduced, but increased six to seven fold (to normal levels) when patients' cells were exposed to pyridoxal phosphate (PLP). In both cases, ferrochelatase and delta-aminolevulinic acid dehydratase activities were normal. Bone marrow heme oxygenase showed no significant differences in activities between normals and patients values in the absence or presence of PLP. In contrast, heme synthesis by patients' bone marrow was less than that of normals. This study demonstrates that bone marrow cells from patients with this rare disorder have some disturbances in heme metabolism, whereas erythropoiesis appeared to be normal when cultured with adequate nutrients in vitro.
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PMID:Heme metabolism and in vitro erythropoiesis in anemia associated with hypochromic microcytosis. 335 54

Heme metabolism was examined in developing in vitro erythroid colonies (CFUE) and in bone marrow samples taken directly from four normal donors and four patients with sideroblastic anemia. As previously reported, sideroblastic anemia bone marrow cells grew large numbers of CFUE in methylcellulose culture in the absence or presence of erythropoietin. Maximum activities of delta-aminolevulinic acid synthase (ALAS), ALA dehydratase (ALAD), and 14C-ALA incorporation into heme were achieved in normal marrow CFUE after 8 days of culture, whereas heme oxygenase progressively decreased to low levels of activity during the same period. Assays on nucleated bone marrow cells taken directly from patients revealed that ALAS activity was considerably reduced in idiopathic sideroblastic anemia (IASA) and X-linked sideroblastic anemia (X-SA) bone marrow specimens, whereas the activity increased more than twofold (normal levels) when cells were assayed from 8-day CFUE. In all cases, ALAD activity appeared to be within normal levels. Measurement of heme synthesis revealed that normal levels of 14C-ALA incorporation into heme were achieved in IASA cells but were reduced in X-SA cells. In marked contrast to levels in normal cells, heme oxygenase was found to be significantly elevated (two- to fourfold) in bone marrow cells taken directly from patients with IASA and X-SA. Results from this study demonstrate that IASA and X-SA bone marrow cells have disturbances in ALAS and heme metabolism, and that erythropoiesis (CFUE) can be restored to normal levels when cells are cultured in methylcellulose.
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PMID:Regulation of heme metabolism in normal and sideroblastic bone marrow cells in culture. 398 52

Liver delta-aminolevulinic acid synthetase activity was measured in mice living under abnormal atmospheric pressure conditions for 15 h. In the group living under low atmospheric pressure (51 kPa) the enzymic activity, either basal or induced by starvation and/or allylisopropylacetamide, was significantly (p less than 0.001) lower than that of the control group. In the group living under high atmospheric pressure (153 kPa) the enzymic activity was significantly (p less than 0.001) higher than the one of the controls. Our results might possibly be explained by changes in the cellular redox state, the heme oxygenase activity or the serum erythropoietin levels.
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PMID:Effect of abnormal atmospheric pressure conditions upon mouse liver delta-aminolevulinic acid synthetase activity. 408 57

Heme oxygenase activity was measured in tissues of rats killed after administration of NiCl2 or Ni3S2. Induction of renal heme oxygenase activity occurred 6 hr after NiCl2 injection (0.25 mmol/kg, sc), reached a maximum of five to six times the baseline activity at 17 hr, and remained significantly increased at 72 hr. Heme oxygenase activities were also increased in liver, lung, and brain at 17 hr after the NiCl2 injection; heme oxygenase activities in spleen and intestinal mucosa were unchanged. The effects of NiCl2 on heme oxygenase activities in kidney and liver were dose-related from 0.06 to 0.75 mmol/kg, sc. Three Ni chelators were administered (1 mmol/kg, im) prior to injection of NiCl2 (0.25 mmol/kg, sc); d-penicillamine partially prevented Ni induction of renal heme oxygenase activity; triethylenetetramine had no effect; sodium diethyldithiocarbamate enhanced the Ni induction of renal heme oxygenase activity (three times greater than NiCl2 alone). Intrarenal injection of Ni3S2 (10 mg/rat) caused induction of renal heme oxygenase activity at 1 week but not at 2, 3, or 4 weeks; no correlation was observed between induction of renal heme oxygenase activity and erythropoietin-mediated erythrocytosis. Hypoxia (10% O2, 12 hr/day, 7 days) did not affect renal heme oxygenase activity. Induction of renal heme oxygenase activity was observed in mice, hamsters, and guinea pigs killed 17 hr after injection of NiCl2 (0.25 mmol/kg, sc). These studies established (a) the time course, dose-effect, organ selectivity, and species susceptibility relationships for Ni induction of microsomal heme oxygenase activity, (b) the effects of Ni chelators, and (c) the lack of relationship between induction of renal heme oxygenase activity and the erythrocytosis that develops after intrarenal injection of Ni3S2.
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PMID:Nickel induction of microsomal heme oxygenase activity in rodents. 630 52

Exposure of Hep3B cells to metalloporphyrins (tinprotoporphyrin and heme) or cobalt chloride resulted in the production of a significant number of heme oxygenase transcripts, erythropoietin transcripts or both, as indicated by in situ hybridization. Exposure to heme 10 mumol/L resulted in a 30-fold to 40-fold increase in cells expressing erythropoietin messenger RNA (erythropoietin-positive cells) by 6 hr; this increased level remained elevated for 24 hr. Tin-protoporphyrin (10 mumol/L) produced an eightfold to 10-fold increase in erythropoietin RNA within 40 min. This value then returned to control levels by 60 min. Exposure to cobalt chloride (100 mumol/L) resulted in a 20-fold to 30-fold increase in erythropoietin expression for 5 to 20 min, returning to control by 40 min. Additionally, nuclear runoff assays demonstrated that the increase in heme oxygenase or erythropoietin messenger RNA accumulation by cobalt chloride appeared to be a result of stimulated transcription of the heme oxygenase and erythropoietin genes. However, the pattern for heme oxygenase messenger RNA induction was different from that for erythropoietin expression. Heme produced an immediate expression of heme oxygenase RNA (50-fold within 5 min) and a second sustained response during the next 24 hr. Tin-protoporphyrin also produced an immediate response (40-fold within 5 min) and remained elevated (20-fold) for 6 hr. Cobalt chloride produced a 22-fold increase within 20 min and returned to the control value by 1 hr. Thus both erythropoietin and heme oxygenase genes appear to be expressed after treatment with tin-protoporphyrin, heme or cobalt chloride; however, the time and patterns of expression are different.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coexpression of erythropoietin and heme oxygenase genes in Hep3B cells. 838 47

The effects of selected heme analogues on heme oxygenase activity in tissues and on human and rabbit bone marrow hematopoietic colony growth were examined. Zinc protoporphyrin (ZnPP) and zinc mesoporphyrin (ZnMP), at concentrations ranging between 1 and 20 microM, produced significant inhibition of human and rabbit bone marrow erythroid (CFU-E, BFU-E) and myeloid (CFU-GM) colony growth. The growth inhibition produced by ZnPP or ZnMP was not overcome with exposure of cultures to elevated levels of the growth factors erythropoietin and granulocyte-macrophage colony stimulating factor. In contrast, tin protoporphyrin and tin mesoporphyrin did not display any significant bone marrow toxicity when used at similar concentrations. In other studies, differential effects of tin mesoporphyrin and ZnMP administered intravenously on kidney heme oxygenase were demonstrated. Chromium mesoporphyrin administered intravenously proved lethal to animals. These results indicate that exposure of bone marrow to ZnPP and ZnMP can be deleterious to hematopoietic cells and raise the possibility that ZnPP, which is endogenously formed and found in high concentration in red blood cells in lead-poisoned children, may itself participate in the bone marrow toxicity produced by this metal.
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PMID:Zinc porphyrins: potent inhibitors of hematopoieses in animal and human bone marrow. 903 70

One of the most remarkable revolutions during the history of animal kingdom is the adaptation to oxygen, a highly toxic gas produced by plants. Based on the high affinity of heme toward oxygen, it has been believed that heme itself and/or hemoprotein should play significant roles in the processes of adaptation. Recently, two novel functions of heme and its metabolites were identified; namely, hemoprotein is an oxygen sensor and biliverdin and bilirubin, catabolites of heme, are antioxidants. Thus, heme is a key molecule in the responses to environmental stress, including oxygen. Although activation of hypoxia inducible factor-1, which induces expression of genes encoding erythropoietin and heme oxygenase (HO-1), is generally accepted to be controlled by oxygen sensor, the precise signaling pathway has not yet been well elucidated. Various stresses such as hypoxia are known to activate the HO-1 gene, the key enzyme of heme degradation, resulting in the marked conversion of pro-oxidant (heme) into its antioxidative catabolites. The induction is, therefore, supposed to have protective effects. Recent reports on HO-1 deficiency also support this hypothesis that the activation of the HO-1 gene is one of the most important defense mechanisms against environmental stress.
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PMID:[Heme as a signaling molecule under environmental stress]. 1062 38

Haptoglobin (Hp), a conserved plasma glycoprotein, forms very stable soluble complexes with free plasma haemoglobin. Haemoglobin binding by haptoglobin is thought to be important in the rapid hepatic clearance of haemoglobin from the plasma and in the inhibition of glomerular filtration of haemoglobin. It is thought to reduce haemoglobin-induced renal damage during haemolysis. To evaluate these functions, Hp knockout (Hp-/-) mice were created. The Hp-/- mouse was generated by a standard gene replacement technique in mouse embryonic stem cells. These mice were evaluated with and without haemolysis using several parameters: mortality, haemoglobin clearance, renal tissue damage and function. Hp-/- mice were viable but had a small, significant reduction in postnatal viability. The lack of Hp did not impair clearance of free plasma haemoglobin. Induction of severe haemolysis by phenylhydrazine caused extensive haemoglobin precipitation in the renal tubular cells. However, haemoglobin precipitation in the kidney was not increased in Hp-/- mice. Nevertheless, Hp-/- mice were more susceptible to phenylhydrazine with a mortality rate of 55% in Hp-/- mice versus 18% in Hp+/+ mice. In general, phenylhydrazine-treated Hp-/- mice suffered greater tissue damage, as evidenced by the induction of a hepatic acute phase response, resulting in increased plasma alpha1-acidic glycoprotein (AGP) levels and higher plasma malonaldehyde (MDA) and 4-hydroxy-2(E)-nonenal (HNE) levels. Gross pathological analysis indicated that the kidney was the most affected tissue in phenylhydrazine-treated Hp-/- and Hp+/+ mice, and Hp-/- mice were more severely affected. They had lower mitotic indices in their kidneys, higher basal levels of renal lipid peroxidation, as evidenced by levels of malonaldehyde and 4-hydroxy-2(E)-nonenal (MDA/HNE) and elevated levels of 8-hydroxyguanine (but not other products of oxidative DNA damage). There also was increased induction of haem oxygenase-1. The more severe renal damage in Hp-/- mice was also evident in the delayed erythropoietin gene expression and poorer renal clearance of [3H]-inulin. The reduction in glomerular filtration function in Hp+/+ and Hp-/- mice could be restored to baseline by vasodilators (prazosin or diazoxide), implicating renal vasoconstriction as a major mechanism of acute renal failure during induced haemolysis. These data suggest that Hp plays a pivotal role in reducing renal oxidative damage during haemolysis.
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PMID:Consequences of haemolysis without haptoglobin. 1186 80

Recent studies have established that erythropoietin (EPO) is a pleiotropic cytokine. In this study we investigated whether pleiotropic effects of EPO may involve regulation of heme oxygenase (HO)-1, an anti-oxidative stress protein. A stimulatory effect of EPO on HO-1 expression was demonstrated in cultured renal endothelial cells, in which EPO decreased intracellular oxidative stress and provided cytoprotection against H(2)O(2). These beneficial effects were partially reversed by a HO-1 inhibitor. We then evaluated whether EPO induces HO-1 and ameliorates renal injury in vivo. Administration of EPO to Dahl salt-sensitive (DS) rats with low salt diet, a model of chronic tubulointerstitial injury, reduced proteinuria, and renal injury including peritubular capillaries rarefaction as compared to vehicle-treated DS rats. This renoprotection was associated with up-regulation of HO-1 in the kidney. In conclusion, EPO-induced HO-1 expression is likely to provide cytoprotection against oxidative stress.
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PMID:Erythropoietin induces heme oxygenase-1 expression and attenuates oxidative stress. 1756 Sep 35


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