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: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dietary fish oil containing the n-3 polyunsaturated fatty acids eicosapentaenoic acid (EPA, 20:5) and docosahexaenoic acid (DHA, 22:6) is being consumed by many individuals in an effort to reduce thrombosis and heart disease. However, little is known about how these fatty acids can affect cerebrovascular function. The purpose of the present study was to begin to examine the effects of these fatty acids on cerebral arteriolar diameter and to compare their effects with that of arachidonic acid (AA). Pial arteriolar diameter responses to the topically applied fatty acids [0.2-200 micrograms/ml cerebrospinal fluid (CSF)] were measured in rabbits using in vivo microscopy and the acute cranial window technique. Prostaglandin E2 (PGE2) formed by the brain in response to AA, EPA, and DHA was measured in CSF using radioimmunoassay. EPA induced a dose-dependent dilation response of which the maximum was 29%, whereas the maximal dilation produced by AA was 100%. The arteriolar effect of EPA was reduced by indomethacin or superoxide dismutase plus catalase, indicating vasoactivity due to oxygen radicals formed by cyclooxygenase metabolism of EPA. DHA itself had no effect on diameter or adenosine-induced dilation but reduced dilation by AA when coapplied with AA. AA induced a 65-fold maximal increase in PGE2, whereas EPA and DHA had comparatively little effect. These results imply that substitution of n-3 fatty acids for AA in brain phospholipids may result in less cyclooxygenase-dependent cerebrovascular reactivity. This alteration in reactivity may produce important effects with respect to the brain's blood flow response to a number of physiological and pathological challenges.
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PMID:Effect of fish oil n-3 fatty acids on cerebral microcirculation. 214 67

Copper is an essential trace element and has profound influence on cardiac myopathy and heart metabolism. Dietary Cu restriction in rats results in cardiomyopathy, and affects the integrity of the basal lamina of cardiac myocytes and capillaries. Decreased levels of delta subunits of ATP synthetase and nuclear encoded subunits of cytochrome oxidase system have been observed. Alteration in expression of glutathione peroxidase and catalase in heart and liver in Cu deficiency (Cu-) has been noted involving both transcriptional and post transcriptional mechanisms. A short description of two genetically inherited disorders of Cu metabolism, i.e. Wilson's disease and Menkes' disease, and Indian childhood cirrhosis (environmental and/or genetic) have been included to illustrate that advances in the knowledge of Cu cellular transport gives a better understanding of the molecular basis of the pathophysiology of these diseases. Menkes' disease, a human model of defective Cu transport and Cu- has shown many pathological changes, similar to those of heart disease in Cu-. The recent cloning of four genes of putative Cu pumping ATPases (Cu-ATPases) from widely different sources, i.e. two from Enterococcus hirae and one each from Wilson's and Menkes disease patients (which are defective in Cu transport and metabolism), has opened a new chapter in the study of Cu cellular transport and metabolism. The encoded gene products, i.e. Cu-ATPases, show extensive homology and are members of a new class of ATP-driven Cu pumps involved in regulation of cellular Cu. Further, Cu transport by Cop B-ATPase (E. hirae) in membrane vesicles and in isolated rat liver plasma membrane has provided biochemical evidence of its role in ATP-driven Cu transport. In this short review I have critically examined the current evidence of the molecular basis of the pathophysiology of cardiomyopathy in Cu- and, have indicated the possible role of P-type Cu ATPase which may be one of the obligatory factors contributing to cardiomyopathy in experimental animals and probably humans. Experimental verification of this hypothesis will be the aim of future studies.
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PMID:Copper deficiency and heart disease: molecular basis, recent advances and current concepts. 945 22

Discordance of functional and structural changes in right and left myocardium has been considerably discovered in various physiologically stimulated hearts and patients with cardiopathy, but the reasons for that have not yet been known. In the present study, induction of stress proteins, i.e. heat shock proteins, was analyzed and compared between the left and right myocardium of normoxic and hypoxic perfused isolated rat hearts by the methods of two dimensional electrophoresis and silver staining. The results showed that three Hsp70 isoforms (molecular weight 68, 70 and 72 k mu) with pI ranging from 6.3 to 7.3 were increased distinctly in both right and left myocardium under the conditions of perfusion as mentioned above. Moreover, the amount of the stress proteins increased in the right myocardiums was higher than that in the left myocardium, indicating that the response of right heart to the stimulus of hypoxic or normoxic perfusions is different from the reaction of left heart, and the extent of protection in left and right heart by stress proteins is unlike. In addition, the activity of catalase was found to be obviously declined in all perfused isolated hearts. It was suggested that the different increase in stress proteins may be due to different structure and status of right and left ventricle and the oxidative stress may be one of the important reasons to induce or enhance the synthesis of stress proteins.
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PMID:[Discordance of increase in stress proteins in right and left myocardium of perfused isolated rat heart]. 1007 37

Resveratrol (trans-3,4',5-trihydroxystibene) is a phytopolyphenol isolated from the seeds and skins of grapes. Recent studies indicate that resveratrol can block the process of multistep carcinogenesis, namely, tumor initiation, promotion and progression. Resveratrol can also reduce the risk of cardiovascular disease in man. The molecular mechanisms of resveratrol in chemoprevention of cancer and cardiovascular disease are interesting and under intensive investigation. Resveratrol was found to strongly inhibit nitric oxide (NO) generation in activated macrophages, as measured by the amount of nitrite released into the culture medium, and resveratrol strongly reduced the amount of cytosolic inducible nitric oxide synthase (iNOS) protein. The activation of nuclear factor kappa B (NF kappa B) induced by lipopolysaccharide (LPS) was inhibited by resveratrol. The phosphorylation and degradation of nuclear factor inhibitor kappa B alpha (I kappa B alpha) were inhibited by resveratrol simultaneously. Reactive oxygen species (ROS) are regarded as having carcinogenic potential and have been associated with tumor promotion. Resveratrol may act as a reactive oxygen species scavenger to suppress tumor development. In addition, resveratrol may block multistep carcinogenesis through mitotic signal transduction blockade. Reactive oxygen species are pivotal factors in the genesis of heart disease. Meanwhile, efficient endogenous antioxidants, including superoxide dismutase (SOD), glutathione peroxidase (GSHPx), and catalase, are present in tissues. A fine balance between reactive oxygen species and endogenous antioxidants is believed to exist. Any disturbance of this balance in favor of reactive oxygen species causes an increase in oxidative stress and initiates subcellular changes, leading to cardiomyopathy and heart failure. The experimental results indicate that exogenous antioxidant resveratrol is of value in chemopreventing the development of heart disease. It is urgent that more efforts be made to investigate newer therapies employing antioxidants for the chemoprevention of cardiovascular disease and cancer.
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PMID:Chemoprevention of cancer and cardiovascular disease by resveratrol. 1049 90

1. Gavage administration of the natural flavonoids tangeretin, chrysin, apigenin, naringenin, genistein and quercetin for 2 consecutive weeks to the female rat resulted in differential effects on selected phase 1 and 2 enzymes in liver, colon and heart as well as antioxidant enzymes in red blood cells (RBC). 2. Glutathione transferase (GST) activity assayed by use of the substrate 1-chloro-2,4-dinitrobenzene was significantly induced by apigenin, genistein and tangeretin in the heart but not in colon or liver. 3. In RBC chrysin, quercetin and genistein significantly decreased the activity of glutathione reductase (GR), catalase (CAT) and glutathione peroxidase (GPx), whereas superoxide dismutase (SOD) was only significantly decreased by genistein. 4. The oxidative status of the animal, measured as plasma malondialdehyde, revealed that chrysin, quercetin, genistein, and beta-naphthoflavone (BNF) significantly protected against, 2-amino-1-methyl-6-phenylimidazo [4,5-b]pyridine (PhIP)-induced oxidative stress. Hepatic PhIP-DNA adduct formation was not affected by any of the administered flavonoids, whereas PhIP-DNA adduct formation in colon was slightly, but significantly, inhibited by quercetin, genistein, tangeretin and BNF. 5. The observed effects of chrysin, quercetin and genistein on antioxidant enzymes, concurrently with a protection against oxidative stress, suggest a feedback mechanism on the antioxidant enzymes triggered by the flavonoid antioxidants. 6. Despite the use of high flavonoid doses, which by far exceed the human exposure levels, the effect on drug metabolizing and antioxidant enzymes was still very minor. The role of singly administered flavonoids in the protection against cancer and heart disease is thus expected to be limited.
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PMID:Differential effects of dietary flavonoids on drug metabolizing and antioxidant enzymes in female rat. 1064 9

Flow-induced dilation (FID) is dependent largely on hyperpolarization of vascular smooth muscle cells (VSMCs) in human coronary arterioles (HCA) from patients with coronary disease. Animal studies show that shear stress induces endothelial generation of hydrogen peroxide (H2O2), which is proposed as an endothelium-derived hyperpolarizing factor (EDHF). We tested the hypothesis that H2O2 contributes to FID in HCA. Arterioles (135+/-7 micro m, n=71) were dissected from human right atrial appendages at the time of cardiac surgery and cannulated with glass micropipettes. Changes in internal diameter and membrane potential of VSMCs to shear stress, H2O2, or to papaverine were recorded with videomicroscopy. In some vessels, endothelial H2O2 generation to shear stress was monitored directly using confocal microscopy with 2',7'-dichlorofluorescin diacetate (DCFH) or using electron microscopy with cerium chloride. Catalase inhibited FID (%max dilation; 66+/-8 versus 25+/-7%; P<0.05, n=6), whereas dilation to papaverine was unchanged. Shear stress immediately increased DCFH fluorescence in the endothelial cell layer, whereas treatment with catalase abolished the increase in fluorescence. Electron microscopy with cerium chloride revealed shear stress-induced increase in cerium deposition in intimal area surrounding endothelial cells. Exogenous H2O2 dilated (%max dilation; 97+/-1%, ED50; 3.0+/-0.7x10(-5) mol/L) and hyperpolarized HCA. Dilation to H2O2 was reduced by catalase, 40 mmol/L KCl, or charybdotoxin plus apamin, whereas endothelial denudation, deferoxamine, 1H-(1,2,4)-oxadiazole-[4,3-a]quinoxalin-1-one, or glibenclamide had no effect. These data provide evidence that shear stress induces endothelial release of H2O2 and are consistent with the idea that H2O2 is an EDHF that contributes to FID in HCA from patients with heart disease. The full text of this article is available at http://www.circresaha.org.
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PMID:Role for hydrogen peroxide in flow-induced dilation of human coronary arterioles. 1257 54

We present the results of the first theoretical investigation of salen-manganese complexes as synthetic catalytic scavengers of hydrogen peroxide molecules that mimic catalase enzymes. Catalase mimics can be used as therapeutic agents against oxidative stress in treatment of many diseases, including Alzheimer's disease, stroke, heart disease, aging, and cancer. A ping-pong mechanism approach has been considered to describe the H2O2 dismutation reaction. The real compounds reacting with a peroxide molecule were utilized in our BP density functional calculations to avoid uncertainties connected with using incomplete models. Part I of the dismutation reaction-converting a peroxide molecule into a water molecule with simultaneous oxidation of the metal atom of the catalyst-can be done quite effectively at the Mn catalytic center. To act as catalytic scavengers of hydrogen peroxide, the oxomanganese salen complexes have to be deoxidized during part II of the dismutation reaction. It has been shown that there are two possible reaction routes for the second part of the dismutation reaction: the top and the side substrate approach routes. Our results suggest that the catalyst could be at least temporarily deactivated (poisoned) in the side approach reaction route due to the formation of a kinetically stable intermediate. Overall, the side approach reaction route for the catalyst recovery is the bottleneck for the whole dismutation process. On the basis of the detailed knowledge of the mode of action of the (salen)MnIII catalase mimics, we suggest and rationalize structural changes of the catalyst that should lead to better therapeutic properties. The available experimental data support our conclusions. Our findings on the reaction dismutation mechanism could be the starting point for further improvement of salen-manganese complexes as synthetic catalytic scavengers of reactive oxygen species.
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PMID:(salen)MnIII compounds as nonpeptidyl mimics of catalase. Mechanism-based tuning of catalase activity: a theoretical study. 1573 83

Several inflammatory diseases are thought to be related to oxidative injury and free oxygen radicals have been proposed as important causative agents of heart disease and aging. To investigate the effects of daily intake of medicinal plants on antioxidant enzymes, lipid peroxidation and lipid profiles in rat, 28 rats were randomly divided into four groups and administered with three plant extracts (0.2 g/kg body weight): Piper cubeba (fruit), Physalis angulata (flower), Rosa hybrida (flower) and with saline as a control. After 3 weeks, superoxide dismutase (SOD), catalase, thiobarbituric acid reactive substance (TBARS), triglyceride (TG) and cholesterol levels in plasma were measured. The SOD activity of the Piper cubeba group and the catalase activity of the Piper cubeba and Rosa hybrida groups were significantly increased compared with the control group, while the SOD and catalase activities of the Physalis angulata group were not significantly changed (p<0.05). TBARS, a marker of lipid peroxidation, was significantly lower in all experimental groups compeered with the control group. No significant changes occurred in the TG, total- and LDL-cholesterol of all groups, but the HDL-cholesterol of the Physalis angulata group was significantly increased. This study showed that the intake of medicinal plants in rats results in an increase in antioxidant enzyme activity and HDL-cholesterol, and a decrease in malondialdehyde, which may reduce the risk of inflammatory and heart disease.
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PMID:Effect of some medicinal plants on plasma antioxidant system and lipid levels in rats. 1610 92

Risk factors for cardiovascular disease, including high cholesterol, high homocysteine, hypertension and inflammation, increase the risk of dementia, including its most common form, Alzheimer's disease (AD). High cholesterol is also associated with elevated beta-amyloid (Abeta), the hallmark of AD. Oxidative damage is a major factor in cardiovascular disease and dementia, diseases whose risk increases with age. Garlic, extracted and aged to form antioxidant-rich aged garlic extract (AGE or Kyolic), may help reduce the risk of these diseases. AGE scavenges oxidants, increases superoxide dismutase, catalase, glutathione peroxidase, and glutathione levels, and inhibits lipid peroxidation and inflammatory prostaglandins. AGE reduces cholesterol synthesis by inhibiting 3-hydroxy-3-methylglutaryl-CoA reductase and is additive with statins in its action. Inhibition of cholesterol, LDL oxidation, and platelet aggregation by AGE, inhibits arterial plaque formation; AGE decreases homocysteine, lowers blood pressure, and increases microcirculation, which is important in diabetes, where microvascular changes increase heart disease and dementia risks. AGE also may help prevent cognitive decline by protecting neurons from Abeta neurotoxicity and apoptosis, thereby preventing ischemia- or reperfusion-related neuronal death and improving learning and memory retention. Although additional observations are warranted in humans, compelling evidence supports the beneficial health effects attributed to AGE in helping prevent cardiovascular and cerebrovascular diseases and lowering the risk of dementia and AD.
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PMID:Garlic reduces dementia and heart-disease risk. 1648 70

Ovarian hormone depletion in ovariectomized experimental animals is a useful model with which to study the physiopathological consequences of menopause in women. It has been suggested that menopause is a risk factor for the induction of several cardiovascular disorders. In the present study we analyzed the effects of ovarian hormone depletion by ovariectomy (OVX) in a model of oxidative stress and cardiopathy induced by adriamycin (AD). To evaluate these effects, we measured parameters related to cardiac damage (creatinine kinase, lactate dehydrogenase, aspartate aminotransferase and alanine aminotransferase) and oxidative stress (malondialdehyde, catalase, superoxide dismutase, glutathione peroxidase, reduced glutathione, nitric oxide and carbonyl proteins) in cardiac tissue and erythrocytes. OVX was found to alter all markers of oxidative stress and cell damage in cardiac tissue. Similarly, the OVX-derived loss of ovarian hormones enhanced cardiac damage and oxidative stress induced by AD. Our results suggest that antioxidant status in cardiac tissue and erythrocytes is seriously compromised by OVX during the cardiomyopathy induced by AD in experimental animals. In conclusion, the absence of hormones caused by OVX or menopause may induce or accelerate pre-existing cardiovascular dysfunctions.
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PMID:Ovariectomy exacerbates oxidative stress and cardiopathy induced by adriamycin. 1660 31


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