UNIPROT:P30044 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Undernutrition may exacerbate hyperoxia-induced lung injury, a finding that may be of significance in the early clinical management of the premature human infant. Addressing this specific problem, we found that 72 h of food restriction in guinea pig pups delivered 3 days preterm increased mortality rates among pups exposed to 95% oxygen (8/18) and yet had no effect on 21% oxygen (air)-exposed pups (0/10). Reduced tolerance of hyperoxic conditions was not, however, associated with increased lung injury, assessed as pulmonary microvascular leakage. Pulmonary antioxidant enzyme activities [Cu,Zn superoxide dismutase (SOD), Mn SOD, glutathione peroxidase, and catalase] were unaltered by starvation or hyperoxia. Lung glutathione concentration was slightly decreased after food restriction, whereas hyperoxic exposure did not change either lung or bronchoalveolar lavage fluid glutathione concentrations or lung antioxidant enzyme activities. Increased susceptibility to the lethal effects of oxygen in the starved preterm guinea pig pup could not be attributed to a deficiency of pulmonary antioxidant defenses.
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PMID:Effect of food restriction on hyperoxia-induced lung injury in preterm guinea pig. 141 61

The authors have shown recently that coeruloplasmin deficiency was associated with severe respiratory distress in premature neonates. In the present study they measured the serum cortisol and coeruloplasmin levels in 58 intrauterine growth retarded infants. The results were compared to the data of 44 appropriate for gestational age neonates. Both parameters showed association with the fetal distress in term babies (cortisol: 17.2 vs 12.3 ug/100 ml, coeruloplasmin: 29.7 vs 11.9 U/l). Coeruloplasmin activity was also higher in growth retarded prematures (48.5 vs 16.5 U/l), while cortisol concentration increased irrespective of intrauterine malnutrition. There was a significant positive correlation between serum cortisol and coeruloplasmin in dysmaturity. This is the first report suggesting a possible role for coeruloplasmin, an important extracellular antioxidant enzyme in the precocious development of intrauterine growth retarded infants.
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PMID:[Serum cortisol and ceruloplasmin determination in neonates with intrauterine growth retardation]. 219 9

Tissue antioxidant status may be compromised under conditions of dietary restriction, either as the result of a deficiency in a specific cofactor required by a particular antioxidant enzyme or of more complex alterations of a generalized nature triggered by metabolic responses to starvation. Many similarities exist between insulin-reversible abnormalities in tissue antioxidant enzyme activities seen in experimental diabetes and in animals subjected to food deprivation-induced weight loss which is associated with hypoinsulinemia. The complex alterations in tissue antioxidant enzyme activities resulting from nutritional deficiency states, disease or drug administration may have important clinical consequences. Free radical-related processes have been implicated in the pathology of certain conditions in which weight loss is frequently recommended (e.g., diabetes and atherosclerosis). It will be important to investigate the possible adverse effects of this intervention on the underlying disease process involved. Glutathione-dependent hepatic detoxification processes are impaired under conditions of nutritional deficiency. This finding not only has important clinical implications but the standard practice of fasting small laboratory animals overnight to ensure reliable drug absorption can markedly influence the results of pharmacological/toxicological experiments. Further studies of the influence of nutritional status on free radical-related processes are likely to yield valuable information which may be applicable to a variety of research and clinical problems.
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PMID:Nutritional deficiency, starvation, and tissue antioxidant status. 307 49

Undernutrition was found to compromise the tolerance of newborn rat pups to hyperoxia (greater than 95% O2 for 7 days). Survival rate for the normally nourished pups (11 pups/dam) was 56 of 77 (73%) but only 47 of 108 (44%) for the undernourished (18 pups/dam) group (P less than 0.005). Body growth, lung growth, and lung DNA content were significantly reduced by undernutrition. Hyperoxia inhibited these same parameters in both groups of pups. The growth inhibitory effects of O2 and undernutrition were additive, with an especially marked depression of lung DNA content (decreases 65%). Lung maturation was also markedly inhibited by O2 but to a similar extent in both nutrition groups. Despite the disparity in their O2 tolerance, 18/litter and 11/litter pups in O2 responded with equivalent increases in lung antioxidant enzymes. We suggest that the additive depressive effects of neonatal undernutrition and hyperoxia on lung DNA may compromise repair of ongoing O2-induced lung damage and help account for the compromised O2-tolerance we consistently observed even in the presence of significantly elevated antioxidant enzyme defenses.
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PMID:Oxygen toxicity in newborn rats: the adverse effects of undernutrition. 717 19

This hypothesis states that magnesium and copper (Cu) deficiency as well as high arterial oxygen pressure may contribute to the pathogenesis of retinopathy of prematurity (ROP), a major cause of blindness in very low birthweight preterm infants. Infants at highest risk have severe respiratory distress with hypoxia and require prolonged oxygen supplements. The retina is a multilayer sheet of neural tissue very rich in polyunsaturated fatty acids (PUFAs), oxygen, and mitochondria, with the highest oxygen consumption of all body tissues. Oxygen free radicals which are generated during metabolism cause lipid peroxidation of the PUFA-rich membranes, impairing retinal function. Magnesium and copper deficiencies provide less protection from oxidative injury which damages neurosensory tissue critical for photodetection. Protective antioxidant enzyme activity is reduced in magnesium and copper deficiency. There is some evidence for a raised level of vasoconstrictor thromboxane A2 (TXA2) in respect to vasodilator prostacyclin (PGI2), which would promote vasoconstriction. Deficiency of magnesium and of copper increase synthesis of TXA2 and decreases synthesis of PGI2. Sustained vasoconstriction leads to vascular occlusion, retinal ischaemia, reactive proliferation of retinal vasculature, and the final stages of ROP. Abundant magnesium and copper may protect the retina from developing ROP.
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PMID:Hypothesis: the possible role of magnesium and copper deficiency in retinopathy of prematurity. 884 91

There is now increasing evidence that an oxidant/antioxidant imbalance, in favor of oxidants, occurs in chronic obstructive pulmonary disease (COPD). Evidence is also accumulating that oxidative stress is a critical event in the pathogenesis of this condition. A large number of studies have demonstrated an increased oxidant burden and consequently increased markers of oxidative stress in the airspaces, breath, blood, and urine of smokers and of patients with COPD. There are several events related to oxidative stress, which are important in the pathogenesis of COPD. These include oxidative inactivation of antiproteinases, airspace epithelial injury, increased sequestration of neutrophils in the pulmonary microvasculature, and gene expression of proinflammatory mediators. Oxidative processes have a fundamental role in the inflammation of smokers and patients with COPD, through redox-sensitive transcription factors such as NF-kappaB and AP-1, which regulate the genes for proinflammatory mediators and protective mechanisms, such as antioxidant gene expression. In addition to the oxidative stress produced by cigarette smoking, dietary deficiency in antioxidants is related to the development of airflow limitation, and hence dietary supplementation may be a beneficial therapeutic intervention in this condition. The use of antioxidants with good bioavailability or molecules that have antioxidant enzyme activity may be treatments that not only protect against the direct injurious effects of oxidants, but may fundamentally alter the inflammatory events that are thought to play an important part in the pathogenesis of COPD. MacNee W, Rahman I. Oxidants and antioxidants as therapeutic targets in chronic obstructive pulmonary disease.
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PMID:Oxidants and antioxidants as therapeutic targets in chronic obstructive pulmonary disease. 1055 72

Oxidative stress results from an oxidant/antioxidant imbalance, an excess of oxidants and/or a depletion of antioxidants. Oxidative stress is thought to play an important role in the pathogenesis of a number of lung diseases, not only through direct injurious effects, but by involvement in the molecular mechanisms that control lung inflammation. A number of studies have shown an increased oxidant burden and consequently increased markers of oxidative stress in the airspaces, breath, blood, and urine in smokers and in patients with COPD. The presence of oxidative stress has important consequences for the pathogenesis of COPD. These include oxidative inactivation of antiproteinases, airspace epithelial injury, increased sequestration of neutrophils in the pulmonary microvasculature, and gene expression of proinflammatory mediators. With regard to the latter, oxidative stress has a role in enhancing the inflammation that occurs in smokers and patients with COPD, through the activation of redox-sensitive transcriptions factors such as nuclear factor-kappaB and activator protein-1, which regulate the genes for proinflammatory mediators and protective antioxidant gene expression. The sources of the increased oxidative stress in patients with COPD are derived from the increased burden of oxidants present in cigarette smoke, or from the increased amounts of reactive oxygen species released from leukocytes, both in the airspaces and in the blood. Antioxidant depletion or deficiency in antioxidants may contribute to oxidative stress. The development of airflow limitation is related to dietary deficiency of antioxidants, and hence dietary supplementation may be a beneficial therapeutic intervention in this condition. Antioxidants that have good bioavailability or molecules that have antioxidant enzyme activity may be therapies that not only protect against the direct injurious effects of oxidants, but may fundamentally alter the inflammatory events that play an important part in the pathogenesis of COPD.
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PMID:Oxidants/antioxidants and COPD. 1084 65

There is now considerable evidence for an increased oxidant burden in smokers, particularly in those smokers who develop chronic obstructive pulmonary disease (COPD), as shown by increased markers of oxidative stress in the airspaces, breath, blood and urine. The presence of increased oxidative stress is a critical feature in the pathogenesis of COPD, since it results in inactivation of antiproteinases, airspace epithelial injury, mucus hypersecretion, increased sequestration of neutrophils in the pulmonary microvasculature, and gene expression of pro-inflammatory mediators. The sources of the increased oxidative stress in patients with COPD derive from the increased burden of oxidants present in cigarette smoke, or from the increased amounts of reactive oxygen species released from leukocytes, both in the airspaces and in the blood. Antioxidant depletion or deficiency in antioxidants also contributes to oxidative stress. The development of airflow limitation is related to dietary deficiency of antioxidants and hence dietary supplementation may be a beneficial therapeutic intervention in this condition. Oxidative stress also has a role in enhancing the airspace inflammation, which occurs in smokers and patients with COPD through the activation of redox-sensitive transcriptions factors such as NF-kappa B and AP-1, which regulate the genes for pro-inflammatory mediators and protective antioxidant gene expression. Antioxidants that have good bioavailability or molecules that have antioxidant enzyme activity are therefore therapies that not only protect against the direct injurious effects of oxidants, but also may fundamentally alter the inflammatory events which have a central role in the pathogenesis of COPD.
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PMID:Oxidants/antioxidants and chronic obstructive pulmonary disease: pathogenesis to therapy. 1119 95

Reactive oxygen species (ROS)-mediated cell injury contributes to the pathophysiology of cardiovascular disease and myocardial dysfunction. Protection against ROS requires maintenance of endogenous thiol pools, most importantly, reduced glutathione (GSH), by NADPH. In cardiomyocytes, GSH resides in two separate cellular compartments: the mitochondria and cytosol. Although mitochondrial GSH is maintained largely by transhydrogenase and isocitrate dehydrogenase, the mechanisms responsible for sustaining cytosolic GSH remain unclear. Glucose-6-phosphate dehydrogenase (G6PD) functions as the first and rate-limiting enzyme in the pentose phosphate pathway, responsible for the generation of NADPH in a reaction coupled to the de novo production of cellular ribose. We hypothesized that G6PD is required to maintain cytosolic GSH levels and protect against ROS injury in cardiomyocytes. We found that in adult cardiomyocytes, G6PD activity is rapidly increased in response to cellular oxidative stress, with translocation of G6PD to the cell membrane. Furthermore, inhibition of G6PD depletes cytosolic GSH levels and subsequently results in cardiomyocyte contractile dysfunction through dysregulation of calcium homeostasis. Cardiomyocyte dysfunction was reversed through treatment with either a thiol-repleting agent (L-2-oxothiazolidine-4-carboxylic acid) or antioxidant treatment (Eukarion-134), but not with exogenous ribose. Finally, in a murine model of G6PD deficiency, we demonstrate the development of in vivo adverse structural remodeling and impaired contractile function over time. We, therefore, conclude that G6PD is a critical cytosolic antioxidant enzyme, essential for maintenance of cytosolic redox status in adult cardiomyocytes. Deficiency of G6PD may contribute to cardiac dysfunction through increased susceptibility to free radical injury and impairment of intracellular calcium transport. The full text of this article is available online at http://www.circresaha.org.
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PMID:Glucose-6-phosphate dehydrogenase modulates cytosolic redox status and contractile phenotype in adult cardiomyocytes. 1456 10

Epidemiologic data suggest a strong association between low birth weight and increased risk of metabolic syndrome in adult life. However, the underlying mechanisms are largely unknown. To test the hypothesis that mitochondrial changes may serve as a link between poor nutrition in early life and insulin resistance in later life, we investigated the effect of protein malnutrition during gestation and lactation on mitochondria of the liver and skeletal muscle. Female offspring of Sprague-Dawley rats fed a low protein diet (casein, 80 g/kg) were randomly divided into two groups and weaned onto either the low protein diet or a control diet (casein, 180 g/kg). As a control group, offspring of rats fed the control diet were weaned onto the control diet. The rats in each group were randomly divided into four groups that were killed at 5, 10, 15 and 20 wk of age. Both mitochondrial DNA content and the expression of mitochondrial DNA-encoded genes in liver and muscle were measured. Mitochondrial transcription factor A and antioxidant enzyme activities were also determined. The mitochondrial DNA content of the liver and skeletal muscle were reduced in fetal and early postnatal malnourished rats even when proper nutrition was supplied after weaning. These changes were accompanied by a decrease in mitochondrial DNA-encoded gene expression; however, they were not dependent on mitochondrial transcriptional factor A. Our findings indicate that poor nutrition in early life causes long-lasting changes in mitochondria that may contribute to the development of insulin resistance in later life.
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PMID:Fetal and early postnatal protein malnutrition cause long-term changes in rat liver and muscle mitochondria. 1451 89

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