Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Arsenic (As) is an environmental chemical of high concern for human health. Acute toxicity of arsenic is dependent on its chemical forms and proximity to high local arsenic concentrations is one of the mechanisms for cell death. This study was designed to define acute arsenic-induced stress-related gene expression in vivo. Mice were injected sc with either sodium arsenite [As(III), 100 micromol/kg], sodium arsenate [As(V), 300 micromol/kg], or saline. To examine stress-related gene expression, livers were removed 3 h after arsenic injection for RNA and protein extraction. The Atlas Mouse Stress/Toxicology array revealed that the expression of genes related to stress, DNA damage, and metabolism was altered by acute arsenic treatments. Expression of
heme oxygenase
1 (HO-1), a hallmark for arsenic-induced stress, was increased 10-fold, along with increases in heat shock protein-60 (HSP60), DNA damage inducible protein GADD45, and the DNA excision repair protein ERCC1. Downregulation of certain cytochrome P450 enzymes occurred with arsenic treatment. Multiprobe
RNase
protection assay revealed the activation of the c-Jun/AP-1 transcription complex after arsenic treatments. Western blot analysis further confirmed the enhanced production of arsenic-induced stress proteins such as HO-1, HSP70, HSP90, metallothionein, the metal-responsive transcription factor MTF-1, nuclear factor kappa B and c-Jun/AP-1. Increases in caspase-1 and cytokines such as tumor necrosis factor-alpha (TNF-alpha) and macrophage inflammatory protein-2 were also evident. In summary, this study profiled the gene expression pattern in mice treated with inorganic arsenicals, which adds to our understanding of acute arsenic poisoning and toxicity.
...
PMID:Stress-related gene expression in mice treated with inorganic arsenicals. 1135 40
In the present study, we examined whether the human immunodeficiency virus type I (HIV-I) gp120 coat protein can modulate corticotropin releasing factor (CRF) secretion by using the incubation of rat hypothalamic explants as an in vitro model. Treatment of the hypothalamic fragments with recombinant gp120 resulted in a time- and concentration-dependent increase in CRF release. The maximal dose of 10 nM gp120 increased CRF release by 56.4% after 1 h, and 78.4% after 3 h, as compared with their respective controls. The intra-hypothalamic amount of CRF was also increased by 54.7% and 77.3% vs. controls after 1 and 3 h, respectively. Moreover, the action of gp120 was blocked by pretreatment with cycloheximide, suggesting that the viral protein modulates CRF secretion via an increase in its synthesis. We also investigated the effects of gp120 on CRF gene expression.
RNase
protection analyses of total RNA isolated from the explants indicated that 10 nM gp120 significantly increases CRF mRNA in a time-dependent manner. Furthermore, gp120 did not modify CRF mRNA stability, suggesting that the viral protein modulates CRF gene expression at the transcriptional level. Analysis of the mechanisms that mediate gp120-induced CRF synthesis was conducted. The incubation of the explants with recombinant interleukin-1 (IL-1) type I receptor antagonist (hrIL-1 ra) did not antagonize the actions of gp120 at 1 and 3 h, indicating that the effect of the latter is independent of IL-1 mediated mechanisms. The involvement of some second messenger pathways was also investigated. Specific inhibitors of cAMP-PKA, cyclo-oxygenase or
heme oxygenase
pathways failed to antagonize the gp120-induced increase in CRF production. By contrast, incubation with nonselective inhibitors of nitric oxide synthase (NOS), L-NAME and L-NNA, or aminoguanidine (AG), a selective inhibitor of inducible NOS (iNOS), blocked CRF release and, AG, its mRNA accumulation, stimulated by gp120, whereas selective inhibitors of endothelial and neuronal NOS had no effect. In addition, only L-NAME, L-NNA and AG were able to inhibit the gp120-stimulated production of nitrites. These results indicate that gp120 directly stimulates CRF gene expression and peptide synthesis from the rat hypothalamus in vitro via the activation of iNOS. Therefore, the actions of this viral protein on the HPA axis may, in part, reflect its ability to modulate CRF synthesis.
...
PMID:HIV-1 Gp120 protein modulates corticotropin releasing factor synthesis and release via the stimulation of its mRNA from the rat hypothalamus in vitro: involvement of inducible nitric oxide synthase. 1149 61
Epithelial cells derived from the mammalian kidney medulla are responsive to urea at the levels of signal transduction and gene regulation. Hybridization of RNA harvested from control- and urea-treated murine inner medullary collecting duct (mIMCD3) cells with a cDNA expression array encoding stress-responsive genes suggested that
heme oxygenase
(HO)-1 mRNA was upregulated by urea.
RNase
protection assay confirmed this upregulation; hypertonicity also increased HO-1 mRNA expression but neither hypertonic NaCl nor urea were effective in the nonrenal 3T3 cell line. The effect on HO-1 expression appeared to be transcriptionally mediated on the basis of mRNA half-life studies and reporter gene analyses using the promoters of both human and chicken HO-1. Although urea signaling resembles that of heavy metal signaling in other contexts, the effect of urea on HO-1 transcription was independent of the cadmium response element in this promoter. Urea-inducible HO-1 expression was sensitive to antioxidants but not to scavengers of nitric oxide. Urea also upregulated HO-1 protein expression and pharmacological inhibition of HO-1 action with zinc protoporphyrin-sensitized mIMCD3 cells to the adverse effects of hypertonicity but not to urea. Coupled with the prior observation of others that HO-1 expression increases along the renal corticomedullary gradient, these data suggest that HO-1 expression may comprise an element of the adaptive response to hypertonicity and/or urea in renal epithelial cells.
...
PMID:Urea and hypertonicity increase expression of heme oxygenase-1 in murine renal medullary cells. 1159 56
