UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male rats were exposed to single doses (0-30 Gy) of 60Co gamma rays to the right hemithorax. Half of each dose group consumed only control powdered chow after irradiation, and half consumed feed containing 0.10% (w/w) pentoxifylline (50 mg/kg/day). The severity of epilation and desquamation in the field of the radiation port was scored weekly. Two months after irradiation the animals were killed, and pulmonary endothelial function was monitored by the activity of lung angiotensin converting enzyme (ACE) and plasminogen activator (PLA), and by production of prostacyclin (PGI2) and thromboxane (TXA2). The amount of hydroxyproline (HP) in the lung served as an index of pulmonary fibrosis. Radiation produced a dose-dependent decrease in ACE and PLA activity in the right lung and an increase in the production of PGI2 and TXA2. This endothelial dysfunction was accompanied by an increase in wet weight and in protein and HP content in the irradiated lung. Pentoxifylline spared only the increase in lung wet weight and protein content, and actually elevated the radiation-induced hyperproduction of PGI2 and TXA2. The severity of the epilation and desquamation reactions increased with increasing radiation dose and time but was independent of diet. These data indicate that pentoxifylline, despite some promising pharmacological actions, has no beneficial effect on acute radiation reactions in rat lung and skin.
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PMID:Pentoxifylline does not spare acute radiation reactions in rat lung and skin. 172 51

The present study determined whether inhibitors of angiotensin converting enzyme (ACE) can ameliorate radiation-induced pulmonary endothelial dysfunction and pulmonary fibrosis in rats sacrificed 2 months after a range of single doses of 60Co gamma rays to the right hemithorax. Four indices of pulmonary endothelial function were monitored: right lung ACE and plasminogen activator (PLA) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Hydroxyproline (HP) content served as an index of pulmonary fibrosis. Rats consumed either control powdered chow or feed containing one of five modifying agents continuously after irradiation. The modifiers included three ACE inhibitors: Captopril, CL242817, and CGS13945, respectively, a thiol, a thioacetate, and a nonthiol compound. All of the ACE inhibitors are analogues of proline. Two additional modifiers were tested: penicillamine, a thiol with no ACE inhibitory activity; and pentoxifylline, a vasodilator that is neither a thiol nor an ACE inhibitor. Radiation produced a dose-dependent decrease in lung ACE and PLA activity, and an increase in PGI2 and TXA2 production and in HP content. All ACE inhibitors attenuated the radiation-induced suppression in lung ACE and PLA activity. All thiol or thioacetate compounds ameliorated the radiation-induced increase in PGI2, TXA2, and HP. The two agents that were both thiols and ACE inhibitors (Captopril and CL242817) spared all of the radiation reactions, while the compound that was neither a thiol nor an ACE inhibitor (pentoxifylline) spared none of the reactions. These data suggest a novel application for ACE inhibitors in general, and for Captopril in particular, as modifiers of radiation pneumotoxicity.
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PMID:Radiation pneumotoxicity in rats: modification by inhibitors of angiotensin converting enzyme. 173 1

Substantial differences between mouse strains have been reported in the lesions present in the lung during the early phase of radiation injury. Some strains show only classical pneumonitis, while other strains develop substantial fibrosis and hyaline membranes which contribute appreciably to respiratory insufficiency, in addition to pneumonitis. Other strains are intermediate between these extremes. These differences correlate with intrinsic differences in activities of lung plasminogen activator and angiotensin converting enzyme. The genetic basis of these differences was assessed by examining histologically the early reaction in lungs of seven murine hybrids available commercially after whole-thorax irradiation. Crosses between fibrosing and nonfibrosing parents were uniformly nonfibrosing, and crosses between fibrosing and intermediate parents were uniformly intermediate. No evidence of sex linkage was seen. Thus the phenotype in which fibrosis is found is controlled by autosomal recessive determinants. Strains prone to radiation-induced pulmonary fibrosis and hyaline membranes exhibited intrinsically lower activities of lung plasminogen activator and angiotensin converting enzyme than either the nonfibrosing strains or the nonfibrosing hybrid crosses. The median time of death of the hybrids was genetically determined primarily by the longest-lived parent regardless of the types of lesions expressed.
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PMID:The genetic basis of strain-dependent differences in the early phase of radiation injury in mouse lung. 185 22

The current revolution in the treatment of acute myocardial infarction by means of thrombolytic therapy has as its underlying strategy three aims: early restoration of the blood flow in order to salvage jeopardized but still viable tissues; limitation of acute consequences of ischemic heart disease, such as infarct size, ventricular fibrillation, and pericardial effusion; and preservation, as far as possible, of ventricular function. It is also hoped that these three achievements will result in reduced short- as well as long-term mortality rates. The techniques employed in this overall strategy are still under investigation, and several leading pharmacological compounds vie for supremacy: streptokinase (SK) and its anisoylated form (APSAC), recombinant technique tissue type plasminogen activator (rt-PA), and urokinase (UK) with or without prourokinase (PUK). Other pharmacological agents, such as angiotensin converting enzyme (ACE) inhibitors, beta-blockers, Ca2+ antagonists, and O2 radical scavengers, might find here their "finest hour" yet. In addition, the underlying anatomy may require early or, where needed, delayed PTCA, backed up by coronary artery bypass grafting. Thus, the tactics of the intervention may vary from case to case and indeed from center to center depending on experience and facilities, but the strategic conclusion is clearly the same: early reperfusion is a must if one wishes to save ischemic but still viable tissue.
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PMID:Acute consequences of ischemic myocardial damage. 248 24

Serum copper (Cu) concentration was evaluated as an index of lung injury in two rat models of pneumotoxicity: hemithoracic irradiation and monocrotaline ingestion. In both models there was a dose- and time-dependent increase in serum Cu concentration. This hypercupremia paralleled the development of pulmonary endothelial dysfunction (decreased lung plasminogen activator activity and increased prostacyclin production) and pulmonary fibrosis (hydroxyproline accumulation). In the radiation model, lung injury and hypercupremia persisted for at least 6 months, and were spared similarly when the total dose was delivered in multiple daily fractions as compared to single doses. In irradiated rats, the elevated serum Cu concentration was accompanied by increases in plasma ceruloplasmin, lung Cu concentration, and lung Cu/Zn superoxide dismutase (SOD) activity. In monocrotaline-treated rats, lung damage and hypercupremia also were accompanied by a reduction in liver Cu concentration, and by a direct correlation between the concentrations of Cu and SGOT in the serum. In both models, some but not all modifiers of lung damage (penicillamine, angiotensin converting enzyme inhibitors, pentoxifylline) also partially prevented the insult-induced hypercupremia. In contrast, serum iron concentration was largely independent of treatment in all experiments. These data suggest that elevated serum copper concentration is an accurate and minimally invasive index of lung injury in irradiated and monocrotaline-treated rats.
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PMID:Serum copper concentration as an index of experimental lung injury. 251 9

Rats were killed after 6 weeks of continuous ingestion of the pneumotoxic alkaloid monocrotaline (2.2 mg/kg/day), the neutrophil elastase inhibitor SC39026 (60 mg/kg/day), or both. Pulmonary reactions were evaluated by light and electron microscopy. Lung endothelial function was monitored by angiotensin converting enzyme (ACE) activity, plasminogen activator (PLA) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Lung hydroxyproline content was measured as an index of interstitial fibrosis. Cardiac right ventricular hypertrophy was determined by the right ventricle to the left ventricle plus septum weight ratio (RV/LV + S). Rats receiving SC39026 alone did not differ significantly from untreated control animals with respect to any of the quantitative endpoints, although rarefaction of Type I pneumocytes was observed in the electron micrographs of these animals. Monocrotaline-treated rats, in contrast, developed a significant increase in RV/LV + S, and exhibited pulmonary edema, inflammation, fibrosis, and muscularization and occlusive mural thickening of the pulmonary small arteries and arterioles. These monocrotaline-induced structural changes were accompanied by decreased lung ACE and PLA activities, and increased PGI2 and TXA2 production, and by an increase in lung hydroxyproline content. Cotreatment with SC39026 ameliorated the monocrotaline-induced pulmonary vascular wall thickening and the cardiac right ventricular hypertrophy. These data suggest that inappropriate neutrophil elastase activity contributes to monocrotaline pulmonary vasculopathy and hypertension. On the other hand, cotreatment with SC39026 had no significant effect on the severity of the monocrotaline-induced lung inflammatory reaction, the pulmonary endothelial dysfunction, or the increase in lung hydroxyproline content.
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PMID:Monocrotaline-induced cardiopulmonary injury in rats. Modification by the neutrophil elastase inhibitor SC39026. 254 80

C57BL mice exposed to 14 Gy of whole-thorax irradiation develop significant histologic lung fibrosis within 52 weeks, whereas CBA and C3H mice do not exhibit substantial fibrosis during this time. The purpose of the present study was to determine whether this strain-dependent difference in radiation histopathology is associated with genetic differences in pulmonary endothelial metabolic activity or in endothelial radioresponsiveness. C57BL/6J, C57BL/10J, CBA/J, and C3H/HeJ mice were sacrificed 12 weeks after exposure to 0 or 14 Gy of 300-kV X rays to the whole thorax. Lung angiotensin converting enzyme (ACE) activity and plasminogen activator (PLA) activity were measured as indices of pulmonary endothelial function; and lung hydroxyproline (HP) content served as an index of pulmonary fibrosis. Lung ACE and PLA activities in sham-irradiated C57BL/6J and CB57BL/10J mice were only half as high as those in sham-irradiated CBA/J and C3H/HeJ mice. Exposure to 14 Gy of X rays produced a slight but nonsignificant reduction in lung ACE and PLA activity in the C57BL strains, and a significant reduction in the CBA/J and C3H/HeJ mice. Even after 14 Gy, however, lung ACE and PLA activities in CBA/J and C3H/HeJ mice were higher than those in sham-irradiated C57BL/6J and C57BL/10J mice. Lung HP content in all four strains increased significantly after irradiation, but this increase was accompanied by an increase in lung wet weight. As a result, HP concentration (per milligram wet weight) remained constant or increased slightly in both C57BL strains and actually decreased in the CBA/J and C3H/HeJ mice. These data demonstrate significant genetic differences in both intrinsic pulmonary endothelial enzyme activity and endothelial radioresponsiveness among the four strains of mice. Specifically, strains prone to radiation-induced pulmonary fibrosis (C57BL/6J, C57BL/10J) exhibit only half as much lung ACE and PLA activity as do strains resistant to fibrosis (CBA and C3H).
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PMID:Radiation-induced pulmonary endothelial dysfunction and hydroxyproline accumulation in four strains of mice. 255 96

Lung injury induced in rats by the pyrrolizidine alkaloid monocrotaline is a well-documented model of pulmonary hypertension. To our knowledge, however, monocrotaline-induced cardiopulmonary injury has rarely been described and has never been quantitated in mice. In the present study, adult male mice received 2.4, 4.8, or 24.0 mg monocrotaline/kg body weight/day in the drinking water continuously for 6 weeks. These doses represent 1, 2, and 10 times the severely pneumotoxic regimen in rats. Pulmonary endothelial function was monitored by right lung angiotensin converting enzyme (ACE) activity, plasminogen activator (PLA) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Light and electron microscopy were performed on the left lungs. Cardiac right ventricular hypertrophy was evaluated by the right ventricle to left ventricle plus septum weight ratio (RV/LV + S). Monocrotaline-treated mice exhibited a dose-dependent decrease in lung ACE and PLA activities and an increase in PGI2 and TXA2 production, indicative of endothelial dysfunction. However, these responses were significant only after the highest monocrotaline dose. Light and electron microscopy revealed dose-dependent pulmonary inflammatory and exudative reactions. Unlike previous studies in rats, however, monocrotaline-treated mice developed relatively little lung fibrosis, cardiomegaly, or right ventricular hypertrophy, and no occlusive medial thickening of the pulmonary arteries, even at the highest dose level. These and previous data indicate that there are quantitative biochemical and qualitative morphological differences between mice and rats with respect to monocrotaline pneumotoxicity. Furthermore, in monocrotaline-treated mice (but not in rats) there appears to be a dissociation between lung endothelial dysfunction and inflammation on the one hand, and pulmonary hypertension and fibrosis on the other.
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PMID:Monocrotaline pneumotoxicity in mice. 257 Apr 81

The purpose of this study was to determine whether radiation-induced pulmonary endothelial dysfunction exhibits split-dose sparing. Rats were sacrificed 2 months after a range of 60Co gamma-ray doses (0-40 Gy) delivered to the right hemithorax in either a single fraction or in two equal fractions separated by 24 h. Pulmonary angiotensin converting enzyme (ACE) activity, plasminogen activator (PLA) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production served as indices of lung endothelial function. There were dose-dependent decreases in ACE and PLA activity and increases in PGI2 and TXA2 production after both single and split-dose exposures. The D2-D1 values determined from the two-fraction minus single-fraction isoeffective doses were 3.9 Gy for ACE activity, 7.2 Gy for PLA activity, 4.8 Gy for PGI2 production, and 4.7 Gy for TXA2 production. Thus these data demonstrate that over the present range of radiation doses approximately 4-7 Gy is repairable as subeffective endothelial damage during the 24-h interval between fractions. These values agree with previously published estimates of split-dose sparing in mouse lung based on lethality and breathing rate assays.
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PMID:Split-dose sparing of gamma-ray-induced pulmonary endothelial dysfunction in rats. 283 84

Enzymes considered to be markers for neurons (angiotensin converting enzyme, thermolysin-like metalloendopeptidase, alanine aminopeptidase, and glutamate-oxaloacetate transaminase), glia (glutamine synthetase, pyruvate carboxylase, and beta-glucuronidase), and endothelial cells (alkaline phosphatase and plasminogen activator) were measured in caudate nucleus from 10 sudden death controls, eight agonal state controls, and 16 Huntington's disease patients. Glutamate-oxaloacetate transaminase was slightly reduced by agonal state. The four enzymes with a neuronal distribution were all correlatively reduced in Huntington's disease caudate nucleus. Glutamine synthetase activity was reduced and beta-glucuronidase mean activity increased over twofold in Huntington's disease caudate nucleus, with the two enzyme activities being inversely related. Pyruvate carboxylase was markedly affected by agonal state and was very variable in Huntington's disease caudate nucleus. The two endothelial enzymes were unaltered in Huntington's disease caudate nucleus. The findings are indicative of neuronal loss, an increased proportion of altered glia, and also of maintained vasculature in Huntington's disease caudate nucleus. Measurement of enzyme activities can help to delineate the types of cell altered in Huntington's disease.
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PMID:Changes in nine enzyme markers for neurons, glia, and endothelial cells in agonal state and Huntington's disease caudate nucleus. 287 90

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