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)

Several different techniques of low-density lipoprotein (LDL) apheresis are available for management of severe hypercholesterolemia. Among them, the adsorption system with a dextran-sulfate cellulose (DSC) column is most widely used. In addition to adsorption of LDL, DSC adsorbs plasma constituents that have the following characteristics: proteins containing apolipoprotein B (Lp[a]); proteins involved in the initial contact phase of the intrinsic coagulation pathway (coagulation factor XII, high-molecular-weight kininogen and prekallikrein); factors with lipophilic characteristics (coagulation factor VII, coagulation factor VIII, and vitamin E); and proteins with adhesive or other characteristics (von Willebrand factor, fibronectin, serum amyloid P component, hepatocyte growth factor). The adsorption of these proteins seems to ameliorate prevention or regression of atherosclerosis. Moreover, plasma treatment by the DSC column may be useful for treatment of inexorable diseases, such as amyloidosis. On the other hand, the DSC column generates bradykinin by activation of the initial contact phase of the intrinsic coagulation pathway. Bradykinin generation may explain the functional improvement in the circulatory system, as well as hypotension during LDL apheresis, which is observed in patients taking ACE inhibitors.
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PMID:Low-density lipoprotein apheresis and changes in plasma components. 1172 6

Recent studies indicate that there is an interaction between biorhythms, the biological clock and triggers, which may be important in the pathogenesis of altered heart rate variability (HRV) and blood pressure variability (BPV). Circadian rhythms are under the influence of, and physiological variables are mediated by the activation of the adrenals, sympathetic/parasympathetic, hypothalamic and pituitary activity. Emotional stress, physical exertion, sleep deprivation and large fatty meals are major triggers of myocardial ischemia, angina, infarction, sudden cardiac death (SCD) and stroke. These events have been reported to exhibit a circadian variation with increased frequency in the second quarter of the day, which has also been observed in our studies on Indians. Recent studies indicate that altered HRV and BPV are also important in the pathogenesis and progression of heart failure, atheroma and thrombosis. Mediation via beta-blockers, oestrogens, n-3 fatty acids, vitamin E and coenzyme Q10 and fasting appears to have a beneficial influence whereas progestins, nifedipine, stress and exercise may have an adverse effect on HRV and BPV. We have reported that plasma levels of vitamin E and C are lower in the second quarter of the day than at other times, indicating their role in the pathogenesis of variability and cardiac events. Prospective studies also indicate that HRV and BPV are important and independent risk factors for cardiovascular events. However, no study has yet been conducted in patients with abnormal HRV and BPV in a randomized, placebo-controlled intervention trial to find out whether improvement in variability can cause a significant reduction in cardiovascular events. There is a need to study the role of n-3 fatty acids, coenzyme Q10, the effect of regular physical training, medication and ACE inhibitors in patients with abnormal HRV and BPV to demonstrate that improving variability can modulate cardiovascular events.
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PMID:Can nutrition influence circadian rhythm and heart rate variability? 1177 58

Evidence implicates hyperglycemia-derived oxygen free radicals as mediators of diabetic complications. However, intervention studies with classic antioxidants, such as vitamin E, failed to demonstrate any beneficial effect. Recent studies demonstrate that a single hyperglycemia-induced process of overproduction of superoxide by the mitochondrial electron-transport chain seems to be the first and key event in the activation of all other pathways involved in the pathogenesis of diabetic complications. These include increased polyol pathway flux, increased advanced glycosylation end product formation, activation of protein kinase C, and increased hexosamine pathway flux. Superoxide overproduction is accompanied by increased nitric oxide generation, due to an endothelial NOS and inducible NOS uncoupled state, a phenomenon favoring the formation of the strong oxidant peroxynitrite, which in turn damages DNA. DNA damage is an obligatory stimulus for the activation of the nuclear enzyme poly(ADP-ribose) polymerase. Poly(ADP-ribose) polymerase activation in turn depletes the intracellular concentration of its substrate NAD(+), slowing the rate of glycolysis, electron transport, and ATP formation, and produces an ADP-ribosylation of the GAPDH. These processes result in acute endothelial dysfunction in diabetic blood vessels that, convincingly, also contributes to the development of diabetic complications. These new findings may explain why classic antioxidants, such as vitamin E, which work by scavenging already-formed toxic oxidation products, have failed to show beneficial effects on diabetic complications and may suggest new and attractive "causal" antioxidant therapy. New low-molecular mass compounds that act as SOD or catalase mimetics or L-propionyl-carnitine and lipoic acid, which work as intracellular superoxide scavengers, improving mitochondrial function and reducing DNA damage, may be good candidates for such a strategy, and preliminary studies support this hypothesis. This "causal" therapy would also be associated with other promising tools such as LY 333531, PJ34, and FP15, which block the protein kinase beta isoform, poly(ADP-ribose) polymerase, and peroxynitrite, respectively. While waiting for these focused tools, we may have other options: thiazolinediones, statins, ACE inhibitors, and angiotensin 1 inhibitors can reduce intracellular oxidative stress generation, and it has been suggested that many of their beneficial effects, even in diabetic patients, are due to this property.
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PMID:New insights on oxidative stress and diabetic complications may lead to a "causal" antioxidant therapy. 1271 23

Numerous recent investigations on the development and morphology of atherosclerotic lesions have shown programmed cell death or apoptosis to be an important factor in atherogenesis. Enzymes known as caspases are essential for completion of the apoptotic program. With regard to the origin of signals inducing apoptosis, there are two ways of initiating caspase activation: (a) cellular death receptor-mediated activation; and (b) activation mediated by mitochondrial permeability and expression of the p53 oncogene. Both of these pathways are involved in atherogenesis. Oxidative stress, angiotensin II and cholesterol overload are the primary factors that induce apoptosis in vascular cells. Considering apoptosis in endothelial cells, exposed phosphatidylserine on the cell membrane activates thrombin increasing the probability of arterial thromboses. Further progression of atherosclerosis is promoted by the formation of apoptotic bodies with oxidized phospholipids exposed on the membrane; these also activate adhesion of monocytes. Apoptosis of smooth muscle cells is usually observed in the fibrous portion of an atherosclerotic plaque in which the cells produce collagen important for plaque stability. As apoptosis occurs in smooth muscle cells, the fibrous cap grows thinner. This can result in both plaque rupture, formation of thrombi as well as calcification of the plaque from apoptotic smooth muscle cells remnants. Smooth muscle cells apoptosis is beneficial in that it offers protection to the walls of arteries against proliferative restenosis induced by invasive procedures. Apoptosis of macrophages contributes to the formation and progression of the lipidic core and promotes thrombosis of atherosclerosis in damaged arteries. By contrast, apoptosis of macrophages diminishes the production of matrix methaloproteinases that decompose collagen fibers. New facts concerning the effects of antioxidants (selenium, vitamin C and vitamin E), inhibitors of angiotensin converting enzyme, beta-blockers, calcium chanel blockers, and statins are also considered in this review.
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PMID:[Programmed cellular death and atherogenesis: from molecular mechanisms to clinical aspects]. 1282 74

We reported that melatonin prevents the progression of carbon tetrachloride (CCl4)-induced acute liver injury in rats possibly by attenuating enhanced lipid peroxidation and reduced glutathione depletion. Herein, we examined the effect of melatonin on the changes in hepatic reactive oxygen species (ROS) metabolism in rats with a single intraperitoneal injection of CCl4 (1.6 g/kg body weight); the intent was to clarify the therapeutic mechanism of the indoleamine on CCl4-induced acute liver injury. Rats with and without CCl4 treatment received a single oral dose of melatonin (10, 50 or 100 mg/kg body weight) 6 hr after CCl4 treatment. Hepatic concentrations of ascorbic acid (ASC) and vitamin E (VE) and hepatic activities of superoxide dismutase (SOD), catalase (CAT), Se-glutathione peroxidase (Se-GSH-Px), glutathione reductase (GSSG-R), glucose-6-phosphate dehydrogenase (G-6-PDH), and xanthine oxidase (XO) were determined 6 and 24 hr after CCl4 treatment. The liver of CCl4-treated rats showed reductions in ASC concentrations, and SOD activity and an increase in G-6-PDH activity at 6 hr after treatment and further decreases in ACS concentrations and SOD activity and also further increase in G-6-PDH activity in addition to decreases in CAT and GSSG-R activities and increases in VE concentrations and XO activity at 24 hr after treatment. Melatonin attenuated the reductions in hepatic ASC concentrations and SOD, CAT and GSSG-R activities and the increase in hepatic XO activity in a dose-dependent manner without affecting either hepatic Se-GSH-Px activity or the increased hepatic VE concentration and G-6-PDH activity at 24 hr after CCl4 treatment. No dose of melatonin influenced hepatic ACS and VE concentrations and SOD, CAT, Se-GSH-Px, G-6-PDH, and XO activities in CCl4-untreated rats. These results indicate that melatonin postadministered at pharmacological doses prevents the disruption of hepatic ROS metabolism associated with ASC, SOD, CAT, GSSG-R, and XO, in addition to reduced glutathione, in CCl4-treated rats.
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PMID:Melatonin prevents disruption of hepatic reactive oxygen species metabolism in rats treated with carbon tetrachloride. 1467 25

Ageing is one of the most important cardiovascular risk factors. Vascular ageing is determined by genetic, mechanic and hemodynamic factors. The latter is strengthened by the fact that age-associated changes in capillaries and veins, vessels which are less prone to changes in pulsatility and blood pressure, are less pronounced or even absent. Age-related morphologic changes in large resistance vessels include an intima-media thickening, increased deposition of matrix substances, thus ultimately leading to a reduced compliance. Vascular ageing is mainly characterized by an impaired endothelium-dependent vasorelaxation. The expression of endothelial nitric oxide synthase (eNOS), producing vasodilatatory nitric oxide (NO), is markedly upregulated with increasing age. However, vasorelaxation is impaired, as the production of reactive oxygen species such as superoxide (O2-), concomitantly increases. NO and O2- react to form the powerful oxidant peroxynitrite (ONOO-). Peroxynitrite is known to initiate oxidative modification of proteins, including nitration of aromatic rings, thereby rendering functionally inactive certain regulatory proteins. Deposition of nitrated proteins is mainly found within endothelial mitochondria, suggesting that mitochondrial dysfunction plays a major role in the vascular ageing process. It yet remains to be shown whether oxidative stress, which is, according to the currently accepted "oxidative stress hypothesis", a key event of vascular ageing, can be pharmacologically prevented, e.g. by naturally occurring antioxidant vitamins. However, in a mammalian model of ageing, an unexpected accumulation of vitamin E was found to accumulate within the aortic wall. This may represent a self-regulatory adaptive mechanism to prevent age-associated oxidative stress. In contrast, ascorbic acid was found to decrease with increasing age. Eventually, it remains to be seen if vitamin C or other antioxidative substances may be useful therapies. Statins and ACE inhibitors are known to have effects on mechanisms interfering with the ageing process. Given the strong age-dependency of cardiovascular disease, the developments of therapies to delay vascular ageing might have enormous medical (and economic) consequences in the future.
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PMID:[How do blood vessels age? Mechanisms and clinical implications]. 1506 Oct 41

In diabetes oxidative stress plays a key role in the pathogenesis of vascular complications, and an early step of such damage is considered the development of an endothelial dysfunction. Hyperglycemia directly promotes an endothelial dysfunction inducing process of overproduction of superoxide and consequently peroxynitrite that damages DNA and activates the nuclear enzyme poly(ADP-ribose) polymerase. This process, depleting NAD+, slowing glycolysis, ATP formation and electron transport, results in acute endothelial dysfunction in diabetic blood vessels and contributes to the development of diabetic complications. Classic antioxidants, like vitamin E, failed to show beneficial effects on diabetic complications probably due to their only "symptomatic" action. It is now evident that, statins, ACE inhibitors, AT-1 blockers, calcium channel blockers and thiazolinediones have a strong intracellular antioxidant activity, and it has been suggested that many of their beneficial ancillary effects are due to this property. Statins increase NO bioavailability and decrease superoxide production, probably interfering with NAD(P)H activity and modulating eNOS expression. ACE inhibitors and AT-1 blockers prevent hyperglycemia-derived oxidative stress modulating angiotensin action and production. This effect is of particular interest because hyperglycemia is able to directly modulate cellular angiotensin generation. Calcium channel blockers inhibit the peroxidation of cell membrane lipids and their subsequent intracellular translocation. Thiazolinediones bind and activate the nuclear peroxisome proliferator-activated receptor gamma, a nuclear receptor of ligand-dependent transcription factors. The inhibition of this receptors lead to inhibition of the inducible nitric oxide synthase and consequently reduction of peroxynitrite generation. This preventive activity against oxidative stress generation can justify a large utilization and association of this compound for preventing complications in diabetic patients, where antioxidant defences have been shown to be defective.
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PMID:Antioxidant therapy in diabetic complications: what is new? 1532 Aug 13

This article provides information and a commentary on landmark trials presented at the American Heart Association meeting held in November 2004, relevant to the pathophysiology, prevention, and treatment of heart failure. An open trial of the ACORN Cardiac Support Device (CSD) showed encouraging preliminary results in patients with severe heart failure. The PEACE (Prevention of Events with Angiotensin-Converting Enzyme inhibition) study supports data from previous studies showing that ACE inhibitors reduce vascular events in patients at increased risk. The CREATE (clinical trial of metabolic modulation in acute MI treatment evaluation) study of patients with acute myocardial infarction (MI) showed no mortality benefit of a glucose/insulin/potassium regimen, but treatment with reviparin reduced the incidence of death, MI, or stroke. Azimilide was not associated with a significant reduction in shocks, but reduced the shocks or episodes of markedly symptomatic ventricular tachycardia terminated by pacing in the SHIELD (Shock Inhibition Evaluation with Azimilide) study. The addition of isosorbide dinitrate plus hydralazine to standard therapy improved survival in black heart failure patients in the A-HeFT (African-American Heart Failure Trial) study. In an investigation of hypertensive patients with diabetes, carvedilol had fewer adverse effects on diabetic control than metoprolol. A meta-analysis of high-dose vitamin E supplementation suggested an association with increased mortality. The ESCAPE (Evaluation Study of CHF and Pulmonary Artery Catheterisation Effectiveness) study showed no benefit of pulmonary artery catheterisation over clinical management in patients with severe heart failure. Routine prophylactic coronary revascularisation for stable coronary disease prior to major vascular surgery showed no benefit in the CARP (Coronary Artery Revascularization Prophylaxis) study. Analysis of data from SCD-HeFT supports the cost-effectiveness of ICDs in heart failure, although overall cost implications may be prohibitive.
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PMID:Clinical trials update from the American Heart Association meeting: ACORN-CSD, primary care trial of chronic disease management, PEACE, CREATE, SHIELD, A-HeFT, GEMINI, vitamin E meta-analysis, ESCAPE, CARP, and SCD-HeFT cost-effectiveness study. 1564 44

Carbon tetrachloride feeding (3.2g/kg/72hr) for one month increased significantly the serum and tissue lipid profile and deranged the enzyme levels viz; alkaline phosphatase, alanine transaminase, aspartate transaminase, glutathionze reductase, HMGCoA reductase, catalase, gluc.6.PDH and malic enzyme in rats. Simultaneously the lipid peroxidation level in liver was also raised. On administration of garlic oil and its major nonpolar fraction (NPFGO) and a flavonoid isolated from the bark of Ficus bengalensis Linn, viz; leucopelargonin derivative respectively to different groups(100mg/kg/day) the deleterious effects of CCl4 were significantly ameliorated. The liver damage by CCl4 was satisfactorily prevented by these samples as effectively as Vit. E (50 mg/kg/day). The results prove that important nutraceuticals (phytonutrients) like bioflavonoids and theols i.e. allylic sulphide rich fractions give protection from toxins like CCl4. The order of beneficial effects of the drugs are Leucopelargonin > NPFGO > Garlic oil and their effects are comparable to that of vitamin E used at a minimal dose.
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PMID:Nutraceutical effects of garlic oil, its nonpolar fraction and a Ficus flavonoid as compared to vitamin E in CCl4 induced liver damage in rats. 1590 Sep 9

In diabetes, oxidative stress plays a key role in the pathogenesis of vascular complications, and an early step of such damage is considered to be the development of an endothelial dysfunction. Hyperglycemia directly promotes an endothelial dysfunction inducing process of overproduction of superoxide and consequently peroxynitrite, that damages DNA and activates the nuclear enzyme poly(ADP-ribose) polymerase. This process, depleting NAD+, slowing glycolsis, ATP formation and electron transport, results in acute endothelial dysfunction in diabetic blood vessels and contributes to the development of diabetic complications. These new findings may explain why classical antioxidants, like vitamin E, that work scavenging already formed toxic oxidation products, have failed to show beneficial effects on diabetic complications, and suggest new and attractive "causal" antioxidant therapy. New, low molecular mass compounds that act as SOD or catalase mimetics or L-propionyl-carnitine and lipoic acid, that work as intracellular superoxide scavengers, improving mitochondrial function and reducing DNA damage, may be good candidates for such strategy, and preliminary studies support this hypothesis. This "causal" therapy would also be associated with other promising tools such as LY 333531, PJ34 and FP15, which block protein kinase beta isoform, poly(ADP-ribose) polymerase and peroxynitrite, respectively. It is now evident that, statins, ACE inhibitors, AT-1 blockers, calcium channel blockers and thiazolidinediones have a strong intracellular antioxidant activity, and it has been suggested that many of their beneficial ancillary effects are due to this property. This preventive activity against oxidative stress generation can justify a large utilization and association of this compounds for preventing complications in diabetic patients where antioxidant defences have been shown to be defective.
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PMID:Molecular targets of diabetic vascular complications and potential new drugs. 1602 69


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