UNIPROT:P30044 - FACTA Search

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Query: UNIPROT:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats and guinea pigs were exposed to 0.8 mg ozone (O3)/m3 (approximately 0.4 ppm) for 12 hr during the daytime, 12 hr during the nighttime, or continuously to investigate circadian variation in O3-induced pulmonary toxicity during single and repeated O3 exposures. Biomarkers in bronchoalveolar lavage (BAL) fluid and lung tissues were measured as indicators of biochemical and inflammatory responses. Nighttime O3 exposure of rats resulted in larger increases of protein, albumin, and inflammatory cells in BAL fluid compared to those after daytime O3 exposure and this daytime-nighttime difference was statistically significant (p < 0.05). Single daytime or nighttime O3 exposure of guinea pigs resulted in comparable increases of BAL fluid proteins and inflammatory cells without a daytime-nighttime difference. Nighttime and continuous O3 exposure of rats for 3 days resulted in comparable increases in lung antioxidant enzyme activities, both of which differed statistically from effects from daytime O3 exposures (p < 0.05). Continuous O3 exposure of guinea pigs for 3 days caused, in general, statistically larger increases in lung tissue parameters compared to nighttime O3 exposures (p < 0.05). These results suggest that the extent of O3-induced acute pulmonary biochemical and inflammatory responses is directly related to the level of physical and respiratory activity. For rats, effects from continuous O3 exposure appear to be controlled by the nighttime, physically active period. In guinea pigs, the comparable responses following daytime or nighttime O3 exposure seem in accordance with their random behavioral daily activity pattern. This study supports the view that physical activity-related increases in inhaled dose significantly enhance the pulmonary O3 responses.
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PMID:Differences in pulmonary biochemical and inflammatory responses of rats and guinea pigs resulting from daytime or nighttime, single and repeated exposure to ozone. 141 65

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

To determine if an enhancement in the fetal antioxidant enzyme (AOE) system by maternal dexamethasone (DEX) is specific to organ and dose, the lung and kidney of pups, whose mother received DEX (0.2 or 2 mg/kg) twice, were obtained on days 19 and 20 of gestation. Low-dose DEX increased the four AOE in the day-19 lung, but not in day-20 lung. High-dose DEX decreased the copper-zinc superoxide dismutase (SOD) and glutathione peroxidase in the lungs. Thus, the DEX-induced maturation of lung AOE is dependent on dose and timing. DEX enhanced the four AOE in the day-19 kidney at both doses. In the day-20 kidney, DEX enhanced the manganese SOD at the low dose and also catalase at the high dose, suggesting that DEX accelerates the maturation of kidney AOE as well.
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PMID:Effect of dexamethasone on antioxidant enzymes in fetal rat lungs and kidneys. 142 Jun 13

Injury to the gastrointestinal tract by oxygen dependent processes is important in ischemia, inflammatory bowel disease, and necrotizing enterocolitis. The Caco-2 cell line is an important tool in assessing various gastrointestinal functions and offers a unique opportunity to assess gastrointestinal oxidant metabolism on a cellular level. However, some Caco-2 cell functions change with time after confluence. To determine if antioxidant enzyme activity changes during differentiation, Caco-2 cells were grown to confluence, and superoxide dismutase, glutathione peroxidase, glutathione reductase, and catalase activities and specific mRNA content were quantitated. With time after confluence the enzymes demonstrated a small, but statistically significant increase in activity. Neither superoxide dismutase nor glutathione peroxidase mRNA levels correlated with enzyme activity changes. Catalase mRNA levels increased as catalase activity increased. Thus, differentiated Caco-2 cells express superoxide dismutase, glutathione peroxidase, glutathione reductase, and catalase activities and the superoxide dismutase, glutathione peroxidase, and catalase genes. Superoxide dismutase activity and glutathione peroxidase activity do not correlate with mRNA levels, and suggest that regulation may be at a level other than transcription. The correlation between catalase activity and catalase mRNA suggests differentiation may occur at transcription. If Caco-2 cells are used to elucidate oxidative metabolism, changes in activities of antioxidant enzymes as a function of cell differentiation should be considered.
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PMID:Antioxidant enzymes in the differentiated Caco-2 cell line. 142 66

Enzyme activities of superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GSH-Px) were determined in the liver as well as several specific brain regions of young and old Fischer-344 rats of both sexes. In the liver of male rats, activities of CAT as well as Mn-SOD were lower, while activities of Cu Zn-SOD were higher in old (30-month-old) rats than in young (7-month-old) ones. Activities of total SOD as well as GSH Px were comparable for young and old male rat livers. In contrast to male rats, in female rat livers, activities of CAT were significantly higher in old (28-months-old) rats, while activities of Mn-SOD were slightly (but significantly) higher in old rat livers. In old male rats, activities of Mn-SOD were significantly higher than in young males in several specific regions of the brain (the substantia nigra (s. nigra), striatum, hippocampus) but lower in the cerebellum. In particular, SOD activities in s. nigra, striatum and hippocampus in old male rats were several fold higher than corresponding values in young male rats. Activities of Cu Zn-SOD were generally unchanged with age. Activities of CAT as well as GSH-Px (both Se-dependent and non-Se-dependent forms) were also relatively unaffected by age. In female rat brains, activities of Mn-SOD as well as those of others all remained mostly unaffected by aging, although there was a general tendency of slightly higher activities in most cerebral regions for Mn-SOD in old female rats. Thus, age-related changes of these antioxidant enzymes in the liver and brain are markedly sex dependent and some enzyme activities (such as CAT in the liver) change in an opposite direction with age. Changes of Mn-SOD in the brain were markedly region-specific in male rats. Results suggest that the significance of the changes of these antioxidant enzyme activities during aging needs to be carefully interpreted, taking into consideration the fact that changes are markedly variable depending on sex as well as the organs and brain regions examined.
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PMID:Age-related changes in antioxidant enzyme activities are region and organ, as well as sex, selective in the rat. 143 48

Newborn rats prenatally treated with TRH or the combination of TRH + DEX have lower lung antioxidant enzyme activities at birth than control newborns but are able to induce an adaptive antioxidant enzyme response to hyperoxic exposure of similar or even greater magnitude compared to O2 control offspring. Because of this greater antioxidant enzyme response, we hypothesized that the hormonally pretreated newborns might demonstrate superior tolerance to prolonged high O2 exposure. However, when placed in greater than 95% O2 at birth, the survival rates were consistently lower in the TRH- and TRH + DEX-treated pups at all time periods in hyperoxia from 9 d [control = 74 of 92 (80%); TRH + DEX = 32 of 47 (68%); TRH = 29 of 48 (60%); p less than 0.05] to 14 d [control = 43 of 92 (47%); TRH + DEX = 11 of 47 (23%); TRH = nine of 48 (19%); (p less than 0.05)]. Other evidence of poorer O2 tolerance in the prenatal hormone-treated pups included a greater incidence of intraalveolar edema and elevated lung conjugated dienes, an index of lipid peroxidation, at 3, 5, and 7 d of O2 exposure. There was also a persistent elevation in 3,5,3'-triiodo-L-thyronine and thyroxine serum levels in the 10-d-old TRH-treated offspring. We conclude that prenatal TRH treatment, possibly working through the secretion of 3,5,3'-triiodo-L-thyronine and thyroxine, has some important lasting postnatal effect (not completely reversed by dexamethasone) that predisposes newborn rats to greater O2 radical-induced lung sequelae of prolonged hyperoxic exposure.
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PMID:Prenatal thyroid releasing hormone and thyroid releasing hormone plus dexamethasone lessen the survival of newborn rats during prolonged high O2 exposure. 143 92

The authors describe the status of lipid peroxidation (diene conjugates and malonic dialdehyde) and the endogenous antioxidant enzyme superoxide dismutase in the course of the treatment of patients with acute focal pneumonia by means of the use of transthoracic intrapulmonary injections of unithiol and autologous ultraviolet blood radiation (AUVBR). Three groups of patients were entered into the study. The first group included 64 patients who were given transthoracic intrapulmonary injections of unithiol, the second group 58 patients who received 5-7 sessions of AUVBR, in the third group, 52 patients were given transthoracic intrapulmonary injections of unithiol coupled with 3-5 sessions of AUVBR. The control group was made up of 40 patients given intravenous unithiol injections in routine therapeutic doses. The results of the treatment evidence that combined correction of lipid peroxidation carried out in the third group patients was most effective. As regards the times, the positive dynamics of lipid peroxidation and superoxide dismutase activity correlated with the clinical, biochemical and x-ray improvement. Therefore the method of correction in question is a pathogenetically based approach, permitting one to enhance the clinical efficacy of the treatment of patients suffering from acute focal pneumonias and to reduce the times of their stay in the hospital by 5-7 days, on the average.
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PMID:[The clinical efficacy of treating patients with acute pneumonias by using drug and quantum correction of the lipid peroxidation-antioxidant system]. 144 Feb 70

Liposome-encapsulated Cu,Zn superoxide dismutase (Cu,Zn SOD) and catalase (CAT) were instilled intratracheally in rabbits, and the temporal and spatial distribution of Cu,Zn SOD and CAT within the lung was assessed at the organ and cellular levels. Specific activities of Cu,Zn SOD and CAT were increased in both lung homogenates and isolated alveolar type II pneumocytes. Peak Cu,Zn SOD activities in lung homogenates and alveolar type II cells were observed 4 h after liposome instillation and returned to control levels by 24 h, whereas CAT activities remained significantly above controls. There were no significant differences in liposome distribution or antioxidant enzyme uptake among lung lobes. The distribution of fluorescently labeled Cu,Zn SOD and CAT was assessed with the use of epifluorescence microscopy and digital image processing to determine patterns of cellular incorporation of liposome-entrapped Cu,Zn SOD and CAT within the lung. Although the mean fluorescence intensity of alveoli from rabbits instilled with liposomes containing labeled Cu,Zn SOD and CAT was greater than autofluorescence observed with either no liposome or empty liposome instillation, fluorescence intensity varied between adjacent alveoli. Both fluorescently labeled Cu,Zn SOD and CAT were located cytosolically, and uptake was not limited to alveolar type II pneumocytes. These results demonstrate that a single intratracheal instillation of liposomes can effect increases in Cu,Zn SOD and CAT activities in distal lung cells, including alveolar type I and type II cells and macrophages.
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PMID:Quantitation of alveolar distribution of liposome-entrapped antioxidant enzymes. 144 62

A wide range of DNA damage is known to be caused by reactive oxygen species (ROS). Defence against the effects of such damage include damage prevention (e.g. antioxidant activity) and the removal of damaged moieties from DNA (DNA repair). Radiation (X-ray) sensitive murine lymphoma (LY) cells were seen to be more susceptible to ROS-induced damage than were radiation resistant cells. This difference was unlikely to be due to the marginally decreased DNA excision repair capacity of the sensitive cells. Radiation sensitive cells did, however, have lower endogenous antioxidant enzyme levels. Thus, the importance of assessing all levels of a cell's response to ROS, in determining the major factors leading to increased mutagen sensitivity, is emphasised.
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PMID:DNA damage in mammalian cell lines with different antioxidant levels and DNA repair capacities. 145 May 90

1. Antioxidant enzyme activity profiles in red cells of man, rabbit, quail, pig and rat have been investigated and found to exhibit striking differences. 2. No direct correlations between activities of "functionally coupled" enzymes (superoxide dismutase/catalase and glutathione peroxidase/glutathione reductase) were apparent, suggesting their independent regulation. 3. However, activities of red cell catalase and glutathione peroxidase in the various species studied were inversely correlated. 4. This was most evident in quail red cells, which showed negligible catalase activity but the highest levels of glutathione peroxidase of all the species examined. 5. A significant positive correlation between catalase and glutathione reductase activities was also demonstrated. 6. This may be relevant to the suggestion that the binding of NADPH to catalase may serve to decrease the intracellular inactivation of this reducing cofactor which may be limiting in the glutathione reductase reaction. 7. Basal levels of glutathione, which have been claimed to be limiting for the glutathione peroxidase reaction, were found to correlate positively with the activity of this enzyme in red cells. 8. Myocardial tissues also exhibited species-related differences in antioxidant enzyme profiles but these did not bear any obvious relationship to patterns observed in the corresponding red cells.
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PMID:Species-related variations in tissue antioxidant status--I. Differences in antioxidant enzyme profiles. 145 46

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