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)

Reactive oxygen species have been implicated both in the ageing process and in degenerative diseases, including arthritis and cancer. Bacteria adapt to the lethal effects of oxidants such as hydrogen peroxide by inducing the expression of protective stress genes. Analogous responses have been identified in human cells. For example, haem oxygenase is a major stress protein in human cells treated with oxidants, and reactive oxygen intermediates activate NF-kappa B, a transcriptional regulator of genes involved in inflammatory and acute-phase responses. We report here the isolation and characterization of a novel complementary DNA (CL100) corresponding to a messenger RNA that is highly inducible by oxidative stress and heat shock in human skin cells. The cDNA contains an open reading frame specifying a protein of M(r) 39.3K with the structural features of a non-receptor-type protein-tyrosine phosphatase and which has significant amino-acid sequence similarity to a Tyr/Ser-protein phosphatase encoded by the late gene H1 of vaccinia virus. The purified protein encoded by the CL100 open reading frame expressed in bacteria has intrinsic phosphatase activity. Given the relationship between the levels of protein-tyrosine phosphorylation, receptor activity, cellular proliferation and cell-cycle control, the induction of this gene may play an important regulatory role in the human cellular response to environmental stress.
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PMID:Oxidative stress and heat shock induce a human gene encoding a protein-tyrosine phosphatase. 140 96

Solar UVB (290-320 nm) and particularly UVA (320-380 nm) radiations have a capacity to generate reactive chemical species, including free radicals, in cells. These intermediates have been shown to be involved in various biological effects in cultured human skin cells (e.g. cell death) and skin (e.g. erythema). Endogenous glutathione is a critical molecule in protection against the cytotoxic effects of both wavelength ranges. Although there is evidence from cellular studies for the involvement of an oxidative component of UVC/UVB radiations in activation of several genes, the doses used are generally extremely cytotoxic and could cause aberrant signalling. Genes activated by sublethal doses of UVA radiations (e.g. haem oxygenase 1 and the CL100 phosphatase) are clearly redox regulated. The strong induction of haem oxygenase 1 in human fibroblasts has been implicated in an adaptive response to oxidative membrane damage that involves increased synthesis of the iron storage protein, ferritin.
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PMID:Ultraviolet radiation and free radical damage to skin. 866 Apr 2

The ultraviolet A (UVA, 320-400 nm) component of sunlight has the potential to generate an oxidative stress in cells and tissue so that antioxidants (both endogenous and exogenous) strongly influence the biological effects of UVA. The expression of several genes (including heme oxygenase-1, HO-1; collagenase; the CL100 phosphatase and the nuclear oncogenes, c-fos and c-jun) is induced following physiological doses of UVA to cells and this effect can be strongly enhanced by removing intracellular glutathione or enhancing singlet oxygen lifetime. We have observed that heme is released from microsomal heme-containing proteins by UVA and other oxidants and that activation of HO-1 expression by UVA correlates with levels of heme release. UVA radiation also leads to an increase in labile iron pools (either directly or via HO-1) and eventual increases in ferritin levels. The role of heme oxygenase in protection of skin fibroblasts is probably an emergency inducible defense pathway to remove heme liberated by oxidants. The slower increase in ferritin levels is an adaptive response which serves to keep labile iron pools low and thereby reduce Fenton chemistry and oxidant-induced chain reactions involving lipid peroxidation. In keratinocytes, the primary target of UVA radiation, heme oxygenase levels are constitutively high (because of HO-2 expression). Since there is a corresponding increase in basal levels of ferritin the epidermis appears to be well protected constitutively against the oxidative stress generated by UVA.
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PMID:Redox regulation and oxidant activation of heme oxygenase-1. 1051 38

A number of phenotypes persist in the progeny of irradiated cells for many generations including delayed reproductive death, cell transformation, genomic instability, and mutations. It appears likely that persistent phenotypes are inherited by an epigenetic mechanism, although very little is known about the nature of such a mechanism or how it is established. One hypothesis is that radiation causes a heritable increase in oxy-radical activity. In the present study, intracellular levels of reactive oxygen species (ROS) in human lymphoblast clones derived from individually X-irradiated cells were monitored for about 55 generations after exposure. A number of clones derived from irradiated cells had an increase in dichlorofluorescein (DCF) fluorescence at various times. Cells with abrogated TP53 expression had a decreased oxidant response. Flow cytometry analysis of clones with increased fluorescence did not detect increases in the sub-G(1) fraction or decreased cell viability compared to nonirradiated clones, indicating that increased levels of apoptosis and cell death were not present. The oxidative stress response protein heme oxygenase 1 (HO1) was induced in some cultures derived from X-irradiated cells but not in cultures derived from unirradiated cells. The expression of the dual specificity mitogen-activated protein (MAP) kinase phosphatase (MPK1/CL100), which is inducible by oxidative stress and has a role in modulating ERK signaling pathways, was also increased in the progeny of some irradiated cells. Finally, there was an increase in the phosphorylated tyrosine content of a prominent protein band of about 45 kDa. These results support the hypothesis that increased oxy-radical activity is a persistent effect in X-irradiated mammalian cells and further suggest that this may lead to changes in the expression of proteins involved in signal transduction.
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PMID:Increases in oxidative stress in the progeny of X-irradiated cells. 1544 41

Alterations in KEAP1/ NF-E2 p45-related factor 2 (NFE2L2/Nrf2) signaling pathway have been reported in 23% lung adenocarcinoma patients, suggesting that deregulation of the pathway is a major cancer driver. Here we report that mitogen-activated protein (MAP) kinase phosphatase 1 (MKP-1) drives tumor growth and drug resistance by up regulating transcription factor Nrf2. In non-small cell lung cancer (NSCLC) cells and xenografts, MKP-1 knockdown triggered the down-regulation of the metabolic enzymes and cytoprotective proteins, which are the target genes of Nrf2. Consequently, the cell growth was markedly inhibited with decrease of tumor metabolisms and GSH contents. Moreover, MKP-1 silencing sensitized NSCLC cells to cisplatin treatment. Mechanistically, MKP-1 inhibited the ubiquitylation of Nrf2 via a direct interaction with the transcription factor. Nrf2 was hence stabilized and its transcriptional program was activated. Notably, Nrf2 elevated MKP-1 expression at transcriptional level. In human lung adenoma tumor samples, high levels of expression of MKP-1, Nrf2, and its target gene heme oxygenase 1 were closely correlated. Thus, MKP-1 and Nrf2 form a forward feedback loop in lung cancer cells, which stabilizing and activating Nrf2 to promote anabolic metabolism and GSH biosynthesis. This study uncovers a novel role of MKP-1 in the malignant evolution of cancers.
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PMID:Interplay of MKP-1 and Nrf2 drives tumor growth and drug resistance in non-small cell lung cancer. 3181 Nov 10