Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The genotoxic activity of 1,3-dichloropropene, which has been classified as possibly carcinogenic to humans, was investigated in rats given high single doses of this chloroolefin. A dose-related amount of DNA fragmentation was observed at doses ranging from 62.5 to 250 mg/kg in liver and gastric mucosa, both of which are targets of DCP carcinogenic activity, as well as in the kidney. The frequency of DNA breaks, that were to a large extent repaired within 24 hr, was higher after po than after ip administration in the liver, while the converse occurred in the kidney. Any evidence of DNA fragmentation was, in contrast, absent in lung, bone marrow, and brain which are not sites of DCP-induced tumor development. A role of cytochrome P450 in the activation of DCP is suggested by the lower degree of liver DNA fragmentation observed in rats pretreated with methoxsalen. DCP produced a dose-dependent reduction of the liver GSH level, an effect that presumably hinders its detoxification and thus favors its DNA-damaging activity. In contrast with the satisfactory prediction of DCP carcinogenic activity provided by the results of the in vivo DNA damage/alkaline elution assay, neither the in vivo rat hepatocyte DNA repair assay nor the micronucleus assay, carried out on bone marrow, spleen, and liver cells of partially hepatectomized rats, supplied any evidence of DCP genotoxicity.
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PMID:Genotoxic activity of 1,3-dichloropropene in a battery of in vivo short-term tests. 851 73

Organic nitrates are widely used in the treatment of ischemic heart disease. The magnitude and duration of their circulatory and ischemic effects are, however, rapidly reduced during continuous treatment. The specific mechanisms underlying this tolerance development are not clear. According to the most widely accepted theory, tolerance is due to an intracellular depletion of thiol compounds (GSH and/or cysteine) involved in the conversion of nitrates to vasoactive intermediates. This presentation deals with aspects of in vivo thiol/nitrate interactions in different experimental and clinical conditions. The major results and conclusions are: The acute hypotensive effect of NTG is decreased by lowering of intracellular GSH levels. This finding emphasizes that normal intracellular thiol levels are required for optimal conversion of nitrates. Thus, intracellular GSH plays a critical role in the metabolism of NTG. Despite development of tolerance to the hypotensive effect of NTG, arterial and venous thiol levels are similar in nitrate tolerant and non-tolerant animals, suggesting that depletion of vascular thiol compounds may not be the cause of nitrate tolerance in vivo. The effect of exogenous thiol administration on intravascular thiol levels are different in nitrate tolerant and non-tolerant conscious rats. Exogenous thiol compounds (e.g. NAC) augments the hypotensive effect of NTG by a tolerance nonspecific mechanism. This effect is most likely mediated by an extracellular and/or membrane-related nitrate/thiol interaction and formation of NO. N-acetylcysteine inhibits angiotensin converting enzyme and counteracts nitrate-induced stimulation of the renin angiotensin system in vivo. Therefore, in addition to an effect on nitrate metabolism, thiol compounds may modify tolerance development by attenuating nitrate-induced counter-regulatory mechanisms. In the clinical setting, co-administration of NAC and ISDN delays and partially prevents tolerance to the antianginal and antiischemic effects normally seen in patients with stable angina pectoris during treatment with ISDN. N-acetylcysteine treatment in humans, potentiates and preserves nitrate induced venodilation and augments the effect of nitrates on small resistance vessels without affecting the response to nitrates in larger sized arteries. Thus, administration of NAC may change the normal vasodilator profile of nitrates. In conclusion, changes in cellular thiol levels may modify the hemodynamic effect of organic nitrates and the cellular handling of thiols and/or thiol related enzymes is altered after development of nitrate tolerance. In addition, a tolerance unrelated thiol/nitrate interaction, potentiating the effect of nitrates, may occur after administration of exogenous thiol compounds. In the clinical setting administration of thiols results in a characteristic change in the vasodilator profile of nitrates and an attenuation of the nitrate-induced stimulation of the renin-angiotensin system. The combination of these effects probably contributes to the improvement in antianginal and antiischemic parameters which may be seen during continuous and prolonged treatment with nitrates and thiol compounds.
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PMID:Thiol compounds and organic nitrates. 874 3

Chlorophenols, mainly used as biocides, are compounds with a wide spectrum of toxic effects including teratogenic and carcinogenic actions. In this study, the effects of 2,4-dichlorophenol (2,4-DCP) on hepatic microsomal cytochrome P-450, NADPH-cytochrome c reductase activity, liver ascorbic acid (AA) and glutathione (GSH) content were studied in guinea-pigs with a low (2 mg/day/animal) or a high (50 mg/day/animal) ascorbic acid intake. The high AA intake significantly increased liver AA and GSH levels. There was a clear-cut correlation between liver AA and GSH levels. Administration of 2,4-DCP significantly decreased cytochrome P-450 and NADPH-cytochrome c reductase activity in hepatic microsomes isolated from guinea-pigs with the low AA intake. Such a reduction was not observed in intoxicated guinea-pigs with the high AA intake. The results suggest that AA can play a protective role in 2,4-DCP toxicity.
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PMID:The influence of ascorbic acid on the hepatic cytochrome P-450, and glutathione in guinea-pigs exposed to 2,4-dichlorophenol. 886 64

In the liver of male ddY mice intoxicated once with carbon tetrachloride (CCl4), the change in lipid peroxide (LPO) level with the development of damage over a 24 hr period after i.p. treatment of the toxicant (1.0 mL/kg) was compared with the changes in reduced glutathione (GSH) and oxidized glutathione (GSSG) levels, GSSG/GSH ratio, and activities of the glutathione redox cycle-related enzymes such as Se-dependent glutathione peroxidase (Se-GSH-px), glutathione reductase (GSSG reductase), and glucose-6-phosphate dehydrogenase (G-6-PDH) and of Se-independent glutathione peroxidase (non-Se-GSH-px) with the development of damage during the same period. An apparent liver injury was observed 0.5 hr after CCl4 treatment and the injury progressed rapidly later than 8 hr, judging from the activities of serum transaminases, marker enzymes of liver cell damage. Hepatic LPO level slightly increased once during the first 4 hr after CCl4 treatment and a marked increase in the level occurred later than 12 h, while serum LPO level increased later than 12 h. Hepatic GSH level decreased rapidly during the first 4 hr after CCl4 treatment and the decreased level recovered slowly thereafter, although the recovered level did not reach the control level. Hepatic GSSG level rapidly increased once during the first 1 hr after CCl4 treatment and an increase in the level occurred again later than 12 h. Hepatic GSSG/GSH increased during the first 1 hr and later than 8 hr after CCl4 treatment, although the ratio was maintained above the control level later than 0.5 h. Hepatic Se-GSH-px activity increased during the first 2 hr after CCl4 treatment and later than 8 h, while hepatic non-Se-GSH-px activity increased during the first 1 hr but decreased below the control level at 8 and 12 h. Hepatic GSSG reductase activity decreased during the first 2 hr after CCl4 treatment but the decrease activity returned up to the control level at 8 h. Hepatic G-6-PDH activity increased rapidly during the first 2 hr after CCl4 treatment and the increase proceeded slowly thereafter. These results indicate that although hepatic lipid peroxidation is enhanced at early and progressed stages of liver injury in mice intoxicated once with CCl4, endogenous GSH through hepatic glutathione redox cycle can respond well to enhanced hepatic lipid peroxidation at an early stage of liver injury but not enough to enhanced hepatic lipid peroxidation at a progressed stage of liver injury.
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PMID:Response of endogenous reduced glutathione through hepatic glutathione redox cycle to enhancement of hepatic lipid peroxidation with the development of acute liver injury in mice intoxicated with carbon tetrachloride. 888 91

Reactive oxygen species are known to play a key role in the development of acute lung injury, and such injury can be alleviated by pretreating the lung with a suitable antioxidant preparation. In this study, we evaluated and compared the antioxidant efficacy of two liposomal preparations: liposomes containing only alpha-tocopherol versus bifunctional liposomes containing both alpha-tocopherol and glutathione (GSH). alpha-Tocopherol liposomes (2 mg alpha-tocopherol/animal) or liposomes containing both alpha-tocopherol and GSH (2 mg alpha-tocopherol and 10 mumol GSH/animal) were intratracheally instilled into the lungs of rats 30 min prior to a challenge with paraquat dichloride (30 mg/kg, i.p.); animals were killed 24 hr post-paraquat challenge. Lungs of paraquat-challenged animals were damaged extensively as evidenced by increases in lung weight, indicative of edema, and decreases in lung activities of angiotensin converting enzyme (ACE) and alkaline phosphatase (AKP), indicative of endothelial and alveolar type II epithelial cell injuries, respectively. While the pretreatment of rats with alpha-tocopherol liposomes or liposomes containing both alpha-tocopherol and GSH significantly attenuated paraquat-induced changes in lung ACE activity to more or less the same extent, the bifunctional liposomal preparation conferred additional protection to alveolar type II epithelial cells, as evidenced by a significantly higher pulmonary AKP activity. Our results also showed that both liposomal preparations failed to ameliorate paraquat-induced lung edema despite a significant protection of pulmonary endothelial cells, suggesting that paraquat-induced edema formation may be independent of endothelial cell damage. In conclusion, liposome-associated antioxidants can protect the lung against an oxidant challenge, and the extent of protection appears to be related to the characteristics of each antioxidant formulation.
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PMID:Alleviation of paraquat-induced lung injury by pretreatment with bifunctional liposomes containing alpha-tocopherol and glutathione. 893 65

In 14 patients (4 males and 10 females) with systemic hypertension plasma and erythrocyte lipid peroxides, plasma and erythrocyte catalase activity, plasma glutathione S-transferase (GST) activity, blood reduced glutathione (GSH) content and erythrocyte oxidant stress were investigated. All parameters were performed after clinical examination and then the patients were assigned to receive ACE inhibitor therapy, captopril (25-50 mg given twice per day) or enalapril (10-40 mg given twice per day). After six months the determination of lipid peroxides and antioxidative factors was repeated. At the beginning of the study both treated groups showed significantly higher plasma lipid peroxides compared to the control group. Both used ACE inhibitors produced significant decrease of plasma lipid peroxides after six months. Blood GSH content was also significantly higher in both patient groups before the treatment compared to the controls. Neither captopril nor enalapril produced any significant effect on GSH. Initial values of plasma GST activity in the patients were similar to the control group and did not significantly change after six month treatment. The patients assigned to receive enalapril showed significantly enhanced initial plasma catalase activity according to the controls. After six months treatment both ACE inhibitors significantly decreased plasma catalase activity. Erythrocyte lipid peroxides, erythrocyte catalase activity and oxidant stress of erythrocytes in both groups studied neither differ significantly at initial time of investigation according to the control group nor during or after six month treatment.
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PMID:Changes of lipid peroxides and antioxidative factors levels in blood of patients treated with ACE inhibitors. 912 91

Redox stress during post-ischemic reperfusion may be the prime signal for processes leading to myocardial remodelling and hypertrophy. Nitric oxide (NO) is antioxidative, antiadhesive for neutrophils (PMN) and antiproliferative. Thus, enhancing endothelial production of NO, e.g. by inhibiting breakdown of endogenous bradykinin via angiotensin converting enzyme (ACE), could be beneficial. The effect of cilazaprilat (CILA, 10 micro M), an ACE inhibitor, on redox status, expression of the adhesion molecule P-selectin, and PMN adhesion under conditions of oxidative stress was investigated in cultured human umbilical vein endothelial cells (HUVECs). Incubation of the cells with H2O2 (0.1 and 1 mm) for 15 min served as oxidative stimulus. The intra- and extracellular concentrations of reduced and oxidized glutathione (GSH and GSSG) were measured by HPLC as indicators of endothelial redox status. Expression of P-selectin was measured by flow cytometry. Furthermore, firm leukocyte adhesion to HUVECs was assessed. In controls, the intracellular ratio GSH/GSSG averaged 47 and dropped to 30 after incubation with 0.1 mm H2O2. The ratio declined to 6.5 with 1 mm H2O2. CILA blocked the effects of 0.1 mm H2O2, but was ineffective against 1 mm peroxide. The extracellular ratio did not discriminate between 0.1 and 1 mm H2O2, falling from 18 to 1 in both situations. P-selectin expression rose from 100% (control) to 146% after 1 mm H2O2 without CILA, but only to 114% in the presence of CILA. PMN adhesion was enhanced from about 1600 PMN per microwell (control) to 4300/well by 1 mm H2O2. CILA had no significant effect on adhesion (3900 PMN/well). Exposure of HUVECs to 0.1 mm H2O2 affected neither P-selectin expression nor PMN adhesion. Consequently, ACE inhibition can mitigate mild (0.1 mm H2O2) but not more severe redox stress in HUVECs. Irrespectively, CILA reduced the upregulation of P-selectin at the higher H2O2 concentration, indicating that this process is regulated independently of the cellular redox status. The firm adhesion of PMN to HUVECs was independent of P-selectin expression.
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PMID:Effects of ACE-inhibition on redox status and expression of P-selectin of endothelial cells subjected to oxidative stress. 940 70

1. Nitrofurantoin is an antimicrobial agent which produces pulmonary toxicity via the redox cycling of the nitro group and its radical anion. This futile cycling triggers a complex series of events known collectively as oxidative stress. 2. In the isolated perfused rat lung, nitrofurantoin induced a decrease in tissue levels of glutathione but not protein thiols by the end of the 180 min experiment. There was no decline in tissue levels of angiotensin converting enzyme (a marker of cell disruption). However, edema was extensive as monitored in real time by weight gain (2.71 +/- 0.56 g vs 0.63 +/- 0.53 g in control, P < 0.05, n = 4) and lung mechanical functioning. The edema was matched by an increase in lavage proteins (85 +/- 15 mg vs 16 +/- 9 mg in controls, P < 0.05, n = 4). Electron microscopic examination of tissue indicated that the endothelial cells were detached from the basement membrane which would account for the edema. 3. Co-infusion of penicillamine, N-acetylcysteine or N-(2-mercaptopropionyl)-glycine which can protect tissue from oxidative stress failed to mitigate NFT-induced edema. Allopurinol, an inhibitor of xanthine oxidase and a metal chelator, significantly decreased weight gain but did not prevent the loss of glutathione. These results suggested that allopurinol was not blocking metabolic activation of NFT by xanthine oxidase but scavenging metal cations which can initiate and/or propagate the oxidative stress cascade. 4. We concluded that, in the isolated perfused rat lung, the classic pathway of oxidative stress induced by NFT is interrupted at the stage of GSH loss. These experiments demonstrated that organ function was compromised more than the individual cells. They also suggested that allopurinol may prove beneficial in modulating NFT pulmonary toxicity.
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PMID:Mitigation of nitrofurantoin-induced toxicity in the perfused rat lung. 942 87

We have developed a rapid and precise method for glutathione quantitation by capillary electrophoresis, that allows a low amount of both redox forms to be measured. Small fragments of rat heart or liver tissues (20 mg wet weight) and the corresponding mitochondria (1 mg protein) were homogenized in 1% perchloric acid and the acid-soluble phase ultrafiltered by centrifugation with a microconcentrator (Mr cut-off 3000 Da). The analysis was performed at a constant temperature (28 degrees C) using a Beckman P/ACE System 2100, equipped with a UV absorbance detector set to 200 nm. The limit of quantitation in heart tissue was 1.8 microM for GSH and 1.2 microM for GSSG. Myocardial concentrations of GSH and GSSG were 8.1 +/- 2.6 and 0.45 +/- 0.15 (nmol/mg protein +/- S.D.), respectively. The ratio of GSH to GSSG was 17.8 +/- 1.3 for heart tissue, whereas it was much higher (>100) in the mitochondria. An oxidative stress decreased the myocardial tissue GSH/GSSG ratio, indicating that the CE analysis of both glutathione forms is also a useful method to study biological redox modification.
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PMID:Simultaneous detection of reduced and oxidized glutathione in tissues and mitochondria by capillary electrophoresis. 961 63

This study is aimed at examining whether essential arterial hypertension (HTN) or ACE inhibitors have any effect on erythrocyte selenium (Se)-dependent and Se-non-dependent glutathione peroxidase (GSH-Px) and superoxide dismutase (SOD) activity. Eleven patients with HTN (2 men and 9 women) and 9 healthy volunteers were included in this study after clinical examination and laboratory investigation. The activities of all three enzymes were determined and then the patients were assigned to receive ACE inhibitor therapy consisting of captopril, 25 to 50 mg daily, or enalapril, 10 to 40 mg daily. After 1 year, the determination of antioxidant enzymes was repeated. Our results showed that the initial values of Se-dependent GSH-Px in patients treated with ACE inhibitors were significantly lower (19.60 +/- 3.50 microM NADPH/min(-1)/mgHb(-1)) compared with the controls (28.64 +/- 4.93 microM NADPH/min(-1)/mgHb(-1); p < 0.001), whereas the activity of Se-non-dependent GSH-Px was significantly enhanced (13.55 +/- 1.46 microM NADPH/min(-1)/mgHb(-1); p < 0.001) compared with the control group (9.44 +/- 0.81 microM NADPH/min(-1)/mgHb(-1); p < 0.001). ACE inhibitors did not significantly change the activity of Se-dependent GSH-Px or Se-non-dependent GSH-Px. No significant alteration was observed in SOD activity.
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PMID:Selenium-dependent GSH-Px in erythrocytes of patients with hypertension treated with ACE inhibitors. 972 2


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