Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Presently we have investigated the carbon monoxide generating capacity of the cardiovascular system under normal and stress conditions by examining the microsomal heme oxygenase system at the transcript, protein and activity levels; and have assessed response of heart nitric oxide (NO) synthase activity and cyclic GMP levels to stress. Heme oxygenase (HO) isozymes, HO-1 (HSP32) and HO-2, catalyze the rate limiting step in the only known pathway in eukaryotes for the generation of the potential cellular message, carbon monoxide, and the antioxidant, bilirubin. We show expression of HO-1 and HO-2 at both the transcription and protein levels under normal conditions in the heart and descending aorta, and demonstrate the sensitivity of only the HO-1 isozyme to heat stress in these tissues. The ratio of the two HO-2 homologous transcripts (approximately 1.9 and 1.3 Kb) present in the atrium, ventricles and descending aorta and their levels were not altered by hyperthermia (42 degrees C, 20 min) when measured 1 or 6 hr after treatment. In contrast, hyperthermia caused a rapid, robust and coordinate increase of approximately 10- to 32-fold in the approximately 1.8-Kb HO-1 mRNA in these tissues when measured 1-hr post-treatment. Hyperthermia also caused a significant increase in both HO-1 protein and heme degradation capacity in the heart. Furthermore, the induction of HO-1 protein in the heart was accompanied by a significant elevation in tissue cyclic GMP level first detected 1-hr post-treatment and was sustained 6 hr after heat shock.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of heart heme oxygenase-1 (HSP32) by hyperthermia: possible role in stress-mediated elevation of cyclic 3':5'-guanosine monophosphate. 752 27

Previous studies demonstrated the specific association of heme oxygenase (HO)-1 protein to the neurofibrillary pathology of Alzheimer's disease (AD). In this study, we used reverse transcription-polymerase chain reaction methods to show the increased expression of HO-1 but not HO-2 mRNA transcripts in cerebral cortex and cerebral vessels from subjects with AD compared with age-matched non-AD controls. Neither the HO-1 nor the HO-2 mRNA levels was altered in the cerebellum, a brain region usually spared from the pathological alterations of AD. There was no clear evidence that the expression of HO-1 in these tissues was related to postmortem interval, cause of death, or the age of the subjects studied. Using immunoblotting methods, we further showed that HO-1 protein content was increased in neocortical and vascular samples from AD subjects compared with controls. Our findings suggest the specific induction of HO-1 mRNA and protein in the cerebral cortex and cerebral vessels but not HO-2 mRNA or protein in association with the pathological lesions of the disease.
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PMID:Induction of heme oxygenase-1 mRNA and protein in neocortex and cerebral vessels in Alzheimer's disease. 754 35

We have generated mice deficient in HO-2, the major cerebral isoform of heme oxygenase, in order to assess the potential role of carbon monoxide as a retrograde messenger in hippocampal LTP. Cerebral HO catalytic activity was markedly reduced in the HO-2 mutant mice, yet no differences were found between wild types and mutants in gross neuroanatomical structure, in basal hippocampal synaptic transmission, or in the amount of potentiation produced by various LTP induction protocols. Furthermore, zinc protoporphyrin IX, an inhibitor of HO, had nearly identical inhibitory effects on LTP in wild-type and HO-2 mutant hippocampal slices. Our data indicate that carbon monoxide produced endogenously by HO is unlikely to be a neuromodulator required for LTP in the hippocampus.
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PMID:Hippocampal long-term potentiation is normal in heme oxygenase-2 mutant mice. 757 35

Activation of expression of the heme oxygenase (HO) gene appears to be involved in a cellular defense system in mammalian cells. We now demonstrate that while HO-1 mRNA levels are strongly inducible in dermal fibroblasts they are barely inducible in human epidermal keratinocytes following oxidative stress (UVA radiation and hydrogen peroxide). Paralleling this result was the observation that HO-2 mRNA levels were low in dermal fibroblasts but were high in epidermal keratinocytes. In neither case was the HO-2 gene inducible. The expression of the two HO genes led to enzymatic activity in both types of skin cells with an approximately 2.5-fold higher level of enzymatic activity present in keratinocytes compared with fibroblasts derived from the same biopsy. In addition, ferritin levels, which have been found to be augmented via the HO-dependent release of iron from endogenous heme sources, were two- to three-fold higher in keratinocytes compared with matching fibroblasts. This higher ferritin pool would result in an enhancement of cellular iron sequestering capacity that may confer increased resistance to oxidative stress. Indeed, keratinocytes showed less UVA radiation-dependent cell membrane damage than fibroblasts. These results are consistent with the hypothesis that HO expression in human epidermis and dermis is related to cellular defense mechanisms that operate in human skin.
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PMID:Two genes contribute to different extents to the heme oxygenase enzyme activity measured in cultured human skin fibroblasts and keratinocytes: implications for protection against oxidant stress. 771 90

The heme oxygenase isozymes, HO-1 and HO-2, oxidatively cleave the heme molecule to produce antioxidants, the bile pigments, the gaseous cellular messenger, CO, and iron, a regulator of transferrin, ferritin, and nitric oxide synthase gene expression. HO-1 (hsp32) is a stress-inducible enzyme, whereas HO-2 is constitutively expressed at high levels in the testes and brain. In the present study, using immunohistochemical and in situ hybridization techniques, we report for the first time the cellular distribution of HO-1 and HO-2 in the testes of normal and heat-shocked rats and define a cell-specific expression of the isozymes and a stage-specific expression of HO-2 in the organ. In normal tissue, HO-1 was present at low levels in the Sertoli cells and could not be detected in germ or Leydig cells. HO-2, on the other hand, was most prominently expressed in residual bodies and was not detected in spermatogonia. Modest levels of HO-2 were observed in spermatocytes, spermatids, and select Leydig cells. In contrast, prominent expression of HO-2 messenger RNAs (mRNAs) was detected by in situ hybridization in spermatogonia, as well as spermatocytes, spermatids, and residual bodies of the seminiferous epithelium. The expression pattern of HO-2 protein and transcript in testes of heat-stressed (42 C; 20 min) rats did not differ from that in the control animals, whereas the expression pattern of HO-1 differed from that in the controls, in which distinct populations of Leydig and Sertoli cells displayed intense immunoreactivity. Thermal stress also resulted in an increase (2.8-fold) in the testicular HO-1 mRNA level within 1 h after treatment, followed by a significant increase (32%) in total microsomal heme oxygenase activity 6 h after treatment. Notably, this increase followed a significant depression (36%) in enzyme activity, which was detected 1 h after hyperthermia. The disparity between HO-2 mRNA and protein distribution clearly indicates cell-specific differences in the translational efficiency of HO-2 transcripts. It appears that HO-2 mRNA translation is linked to the maturation and expression of a factor(s) that regulates this process. This, in turn, appears to coincide with sperm development. HO-1 activity, on the other hand, which has a transcriptional component to its regulation, may have a role in maintenance of the conditions required for spermatogenesis.
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PMID:Distribution of constitutive (HO-2) and heat-inducible (HO-1) heme oxygenase isozymes in rat testes: HO-2 displays stage-specific expression in germ cells. 772 Jun 78

The effect of intense visible light (light damage) on the expression of heme oxygenase 1 (HO-1), a protein induced by oxidative stress, was investigated in the rat retina. A sensitive reverse transcription-PCR assay demonstrated the expression of mRNA for HO-1 as well as HO-2, the noninducible HO form, in the normal retina. As analyzed by Northern blotting, however, HO-1 mRNA was barely detectable under normal circumstances. After exposure to intense visible light, retinas had markedly higher HO-1 mRNA levels than unexposed controls, with increases up to 52- and 98-fold at 12 and 24 hr of exposure, respectively. Intense light exposure also resulted in an increase in HO-1 protein. In contrast, no appreciable change in HO-2 mRNA or protein was observed. The increase in HO-1 message was more pronounced in rats previously reared in the dark than in those reared in a weak cyclic-light environment. A marked decrease from the high level of HO-1 mRNA induced by light insult was observed when the animals were allowed to recover in the dark for 24 hr after light exposure. Most important, treatment of animals with 1,3-dimethylthiourea, a synthetic antioxidant, prior to light exposure effectively blocked the increase in HO-1 mRNA. Thus, HO-1 is a sensitive marker for assessing light-induced insult in the retina. Since increased expression of HO-1 is thought to be a cellular defense against oxidative damage, its expression may play an important role in protecting the retina against light damage.
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PMID:Induction of heme oxygenase 1 in the retina by intense visible light: suppression by the antioxidant dimethylthiourea. 786 56

Overlapping phage lambda clones were utilized to determine the complete nucleotide (nt) sequence of the rat gene encoding HO-2, the major heme oxygenase isozyme in the brain. This isozyme is the constitutive cognate of HSP32 (HO-1). The 12,563-bp gene consists of five exons and four introns, the first two exons are separated by a large intron of 8429 nt. The minus strand of intron 1 contains a nested sequence of 1046 nt with 87% identity to the cDNAs encoding the mouse and human non-histone chromosomal protein, HMG-17. In addition to the coding region, the similarity includes 40 bp upstream from the putative start codon and 800 bp of 3' untranslated sequence. The HO-2 gene lacks a conventional TATA box, but a TATA-like sequence (TAACTA) is found 26 nt upstream from the major transcription start point (tsp), as determined by primer extension. Upstream of the tsp, only a glucocorticoid-response element is found. The structure of the regulatory region is consistent with the previously demonstrated refractory nature of this isozyme to common inducers of gene expression and its apparent response to developmental changes in the adrenal steroid hormone profile. HO-2 is encoded by two transcripts (approx. 1.3 and approx. 1.9 kb), the larger of which is translated less efficiently than the smaller. Presently, we show that the transcripts are the products of a single gene and differ in the use of the polyadenylation signal.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The structure, organization and differential expression of the gene encoding rat heme oxygenase-2. 811 99

Heme oxygenase isozymes, HO-1 and HO-2, catalyze the cleavage of heme b (Fe-protoporphyrin-IX) at the alpha-meso carbon bridge to form the antioxidant, biliverdin IX alpha, and the putative cellular messenger, carbon monoxide. HO-1 is a heat shock (HSP32) or stress protein, while HO-2 is a noninducible enzyme. Presently, we have examined the time course of expression of HSP32 in liver, kidney, and heart of rats exposed to hyperthermia and investigated the mechanism of induction of HO-1 by hyperthermia. We report a coordinated induction response of all organs to elevated ambient temperature (42 degrees C, 20 min). Specifically, the maximum induction of the 1.8 kb HO-1 mRNA was observed 1 h after hyperthermia and reached a value 20-40-fold that of the control; the transcript level approximated the control value by 6 h after heat stress. In contrast, the levels and the ratio of the 1.3 and 1.9 kb HO-2 transcripts were not affected by hyperthermia. As judged by in vitro nuclear transcription run-on assays, thermal stress caused the stimulation of HO-1 gene transcription. The increase in HO-1 mRNA transcription was accompanied by an increase in binding of nuclear factor(s) to the heat shock element in the promoter region of the gene. The increase of the HO-1 mRNA was reflected in increases in both heme oxygenase activity and in immunoreactive HO-1 protein. We suggest that the induction of heme oxygenase by heat stress is a physiologically relevant defense mechanism whereby both the degradation of heme of denatured hemoproteins and the generation of biologically active products of heme catabolism are enhanced.
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PMID:Coordinated expression and mechanism of induction of HSP32 (heme oxygenase-1) mRNA by hyperthermia in rat organs. 814 72

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

In mammalian systems, the heme oxygenase (HO) isozymes HO-1 (HSP32) and HO-2 oxidatively cleave the heme molecule to produce bile pigments and carbon monoxide. Although HO-1 is inducible by various chemicals in systemic organs and cell culture systems, this communication reports for the first time the induction of this stress protein and its transcript by a chemical in the brain. In addition, this study demonstrates expression of HO-1 in select populations of cells in the brain in response to GSH depletion. Specifically, treatment of adult rats with diethyl maleate (DEM; 4.7 mmol/kg) caused a pronounced decrease in brain GSH content within 1 h. GSH levels remained significantly depressed for at least 24 h postinjection. Northern blot analysis of brain poly(A)+ mRNA following DEM treatment revealed on the average a sixfold increase in the 1.8-kb HO-1 mRNA level compared with that of controls; concomitant with this change was a decrease in GSH levels. Total brain HO activity was not significantly altered along with the increase in HO-1 mRNA level. The increase in transcription of HO-1 was a direct response to GSH depletion, as judged by the observation that treatment of neonatal rats with L-buthionine-(S,R)-sulfoximine (BSO) (3 mmol/kg, twice daily, for 2 days), a selective inhibitor of GSH synthesis, caused a marked depression in total brain GSH level and a concomitant increase in brain 1.8-kb HO-1 mRNA content. The magnitude of the increase was up to approximately 11.5-fold that of the control level, as evidenced by northern blot analysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glutathione depletion induces heme oxygenase-1 (HSP32) mRNA and protein in rat brain. 845 37


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