Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is an increase in the generation of reactive oxygen species and nitric oxide in the cerebral microcirculation in Alzheimer's disease. The factors that cause this increase in oxidative stress have not been identified. Increasing evidence suggests that there are common mechanisms in atherosclerosis and Alzheimer's disease. The objective of this study was to determine the effects of oxidized low density lipoproteins (LDLs) on brain endothelial cells. Cultured rat brain endothelial cells were treated with either native LDL (10 microg/ml) or LDL oxidized in vitro using 4-hydroxy-2-nonenal (HNE-LDL) (10 microg/ml), for 24h. The results showed that HNE-LDL significantly increased production of nitric oxide (p<0.01), decreased membrane fluidity (p<0.05), and increased reactive oxygen species generation (p<0.01). These data demonstrate that oxidized LDLs affect nitric oxide and radical generation in brain endothelial cells and could contribute to cerebrovascular dysfunction in Alzheimer's disease.
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PMID:Oxidized LDLs affect nitric oxide and radical generation in brain endothelial cells. 1459 41

The role of alpha-class mammalian glutathione S-transferases (GSTs) in the protection of many cell types, including vascular smooth muscle cells, against oxidant damage has been demonstrated, but the role of GSTs in the endothelial cell is not well studied. In order to examine the role of GSTs in the endothelial cell, a stable transfection of mouse pancreatic islet endothelial cells (MS1) with cDNA of mGSTA4-4, mouse isozyme of GSTs with activity in vascular wall, was established. Transfected cells demonstrated significantly higher GSTs enzyme activity and expressed significantly increased resistance to the cytotoxicity of allylamine, acrolein, 4-hydroxy-2-nonenal (4-HNE), and H(2)O(2) (P < 0.05). A significantly higher rate of proliferation and lower baseline level of intracellular malondialdehyde (MDA) and 4-HNE were present when compared to wild-type or vector-transfected MS1 endothelial cells (P < 0.05). Transfection protected MS1 endothelial cells from 4-HNE and H(2)O(2) induced apoptosis by inhibiting phosphorylation of c-Jun N-terminal kinases (p-JNK) and consequent activation of p53 and Bax. In early human fibrous atherosclerotic plaques, immunohistochemical studies demonstrated marked induction of hGSTA4-4 in endothelial cells overlying plaque, and in proliferating plaque vascular smooth muscle cells. Our results indicate that endothelial cell mGSTA4-4 can play a key role in protecting blood vessels against oxidative stress and, thus, is likely to be a critical defense mechanism against oxidants that act as atherogens.
Atherosclerosis 2004 Apr
PMID:Glutathione-S-transferase A4-4 modulates oxidative stress in endothelium: possible role in human atherosclerosis. 1506 94

Human leukocyte elastase (HLE) has been implicated in the pathomechanism of various diseases, such as emphysema and atherosclerosis. The incidence of these diseases is increasing with aging. Therefore, it can be supposed that the HLE activity is changing with aging according to the well known age-related physiological alterations. Thus, the effects of pH, NaCl and calcium concentrations on HLE activity, separated from polymorphonculear leucocytes (PMNLs) of healthy, young (<35 years) and elderly (>75 years) subjects, were studied by measuring the activity with synthetic substrate and with bovine and human atherosclerotic and non-atherosclerotic aortic elastin. From our results, it may be concluded, that the elastolytic activity of HLE separated from PMNLs of elderly subjects is more sensitive to ionic strength, to pH and to the calcium concentration of the medium, than the HLE activity of young subjects. The elastolytic activity of HLE, of both young and old subjects, increases dramatically on atherosclerotic aortic elastin in the presence of calcium. These findings might explain, at least partly, the increased incidence of atherosclerosis with aging.
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PMID:Age-dependent variations of human PMNL elastase activity as a function of pH, ionic strength and calcium concentration. 1537 91

Serine proteases are attractive targets for the design of enzyme inhibitors since they are involved in the etiology of several diseases. Within the class of serine proteases, HLE is one of the most destructive enzymes in the body. It is implicated in the promotion or exacerbation of a number of diseases including pancreatitis, acute respiratory syndrome, rheumatoid arthritis, atherosclerosis, pulmonary emphysema, and cystic fibrosis. Thrombin, a trypsin-like serine protease, plays a dual role in thrombogenesis, including fibrin formation and platelet activation. As a result, thrombin constitutes one of the most widely studied targets for antithrombotic strategy. Numerous inhibitors of serine proteases have been reported during the past three decades. Among them, coumarin-type molecules displayed a high inhibitory potency towards various serine proteases. At that time, halomethyl dihydrocoumarins have been shown to behave as the first general suicide inhibitors of serine protease. These molecules inhibit several proteases such as human leucocyte elastase, porcine pancreatic elastase, thrombin, urokinase and human plasmin. Isocoumarins are very effective as mechanism-based inhibitors of serine proteases. Pharmacomodulation on the 3-alkoxy-4-chloroisocoumarins and the 3-alkoxy-7-amino-4-chloroisocoumarins led to strong inhibitors of numerous serine proteases such as HLE, human factor XIa and XIIa, thrombin, urokinase and kallikrein. Recently, a series of coumarins characterised by an alkyl, aryl ester, amide, thioester or ketone in the position 3 and an electrophilic chloromethyl moiety in the position 6 have been developed. These compounds were found to be high inhibitors of alpha-chymotrypin, HLE and human thrombin.
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PMID:Coumarin and isocoumarin as serine protease inhibitors. 1557 71

Obesity is an increasing nutritional disorder in developed countries, and oxidative stress has been identified as a key factor in numerous pathologies such as diabetes, inflammation, and atherosclerosis, which are favored by obesity. The objective of the present study was to investigate the effects of oxidative stress in 3T3-L1 adipose cells on two parameters involved in metabolic complications associated with obesity, namely adiponectin secretion and lactate production. Differentiated 3T3-L1 adipose cells were exposed to increasing concentrations of glucose oxidase. 4-Hydroxynonenal (4-HNE), a relevant lipid peroxidation by-product which may affect several metabolic processes in making covalent adducts with various molecules; adiponectin secretion; and lactate production were measured in response to glucose oxidase exposure. Results show an inhibition of adiponectin mRNA expression by glucose oxidase and a significant inverse correlation between 4-HNE formation and adiponectin secretion. Furthermore, 4-HNE alone inhibits adiponectin production by 3T3-L1. On the other hand, glucose oxidase and 4-HNE significantly stimulated lactate production by 3T3-L1 adipocytes. These results demonstrate that adipose cells are highly sensitive to oxidative stress, with subsequent decreased adiponectin secretion and increased lactate production, two events involved in the development of insulin resistance.
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PMID:Effects of oxidative stress on adiponectin secretion and lactate production in 3T3-L1 adipocytes. 1574 84

Isolevuglandins (isoLGs) and oxidatively truncated phospholipids are products of lipid peroxidation. Some of these, especially isoLGs and gamma-hydroxyalkenal analogues (e.g., the 5-hydroxy-8-oxo-6-octenoic acid and 9-hydroxy-12-oxo-10-dodecenoic acid esters of 2-lysophosphatidylcholine, HOOA-PC or HODA-PC, respectively) of 4-hydroxy-2(E)-nonenal (HNE), damage proteins by covalent adduction, thereby interfering with their normal functions. These lipid-derived protein modifications may serve as dosimeters of oxidative injury. Elevated plasma levels of isoLG-protein epitopes are associated with atherosclerosis but are independent of total cholesterol, a classical risk factor. Both protein adducts and oxidatively truncated phospholipids (oxPL) can also elicit receptor-mediated cellular responses that include endocytosis of oxidized low-density lipoprotein (LDL) and expression of chemokines, which may foster infiltration of monocyte macrophages into the subendothelial space, where they become foam cells through unregulated endocytosis of oxidatively damaged LDL.
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PMID:Isolevuglandins, oxidatively truncated phospholipids, and atherosclerosis. 1603 55

Increases in matrix metalloproteinases (MMPs) at atherosclerotic lesions are involved in the migration of smooth muscle cells (SMCs) into the intima and to the rupture of plaques, being implicated in the progression of atherosclerosis. The present study examined the mechanisms underlying the production of MMP-1, interstitial collagenase-1, induced by oxidized low-density lipoprotein (oxLDL) and 4-hydroxynonenal (4-HNE), factors proposed to play a pivotal role in atherogenesis, in human coronary SMCs. oxLDL promoted the production of MMP-1 with the preceding phosphorylation of extracellular signal-regulated kinase (ERK) 1/2. Immunoprecipitation of platelet-derived growth factor receptor beta (PDGFR-beta) revealed that oxLDL induced tyrosine phosphorylation of the receptor. Inhibition of the activation of PDGFR-beta and ERK1/2 resulted in a suppression of the production of MMP-1. Consistently, 4-HNE also elicited the production of MMP-1 with the preceding phosphorylation of PDGFR-beta and ERK1/2. The 4-HNE-induced production of MMP-1 was prevented when the activation of PDGFR-beta and ERK1/2 was inhibited. The present results suggest that the activation of PDGFR-beta and ERK1/2 is involved in the production of MMP-1 in oxLDL- and 4-HNE-stimulated human coronary SMCs.
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PMID:Acceleration of matrix metalloproteinase-1 production and activation of platelet-derived growth factor receptor beta in human coronary smooth muscle cells by oxidized LDL and 4-hydroxynonenal. 1687 67

Proteolytic degradation of elastic fibers is associated with a broad spectrum of pathological conditions such as atherosclerosis and pulmonary emphysema. We have studied the interaction between elastins and human cysteine cathepsins K, L, and S, which are known to participate in elastinolytic activity in vivo. The enzymes showed distinctive preferences in degrading elastins from bovine neck ligament, aorta, and lung. Different susceptibility of these elastins to proteolysis was attributed to morphological differences observed by scanning electron microscopy. Kinetics of cathepsin binding to the insoluble substrate showed that the process occurs in two steps. The enzyme is initially adsorbed on the elastin surface in a nonproductive manner and then rearranges to form a catalytically competent complex. In contrast, soluble elastin is bound directly in a catalytically productive manner. Studies of enzyme partitioning between the phases showed that cathepsin K favors adsorption on elastin; cathepsin L prefers the aqueous environment, and cathepsin S is equally distributed among both phases. Our results suggest that elastinolysis by cysteine cathepsins proceeds in cycles of enzyme adsorption, binding of a susceptible peptide moiety, hydrolysis, and desorption. Alternatively, the enzyme may also form a new catalytic complex without prior desorption and re-adsorption. In both cases the active center of the enzymes remains at least partly accessible to inhibitors. Elastinolytic activity was readily abolished by cystatins, indicating that, unlike enzymes such as leukocyte elastase, pathological elastinolytic cysteine cathepsins might represent less problematic drug targets. In contrast, thyropins were relatively inefficient in preventing elastinolysis by cysteine cathepsins.
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PMID:Interaction between human cathepsins K, L, and S and elastins: mechanism of elastinolysis and inhibition by macromolecular inhibitors. 1722 55

Altered nitric oxide (NO) biosynthesis is thought to play a role in the initiation and progression of atherosclerosis and may contribute to increased risk seen in other cardiovascular diseases. It is hypothesized that altered NO bioavailability may result from an increase in endogenous NO synthase (NOS) inhibitors, asymmetric dimethly araginine (ADMA), and N(G)-monomethyl arginine, which are normally metabolized by dimethyarginine dimethylamine hydrolase (DDAH). Lipid hydroperoxides and their degradation products are generated during inflammation and oxidative stress and have been implicated in the pathogenesis of cardiovascular disorders. Here, we show that the lipid hydroperoxide degradation product 4-hydroxy-2-nonenal (4-HNE) causes a dose-dependent decrease in NO generation from bovine aortic endothelial cells, accompanied by a decrease in DDAH enzyme activity. The inhibitory effects of 4-HNE (50 microM) on endothelial NO production were partially reversed with L-Arg supplementation (1 mM). Overexpression of human DDAH-1 along with antioxidant supplementation completely restored endothelial NO production following exposure to 4-HNE (50 microM). These results demonstrate a critical role for the endogenous methylarginines in the pathogenesis of endothelial dysfunction. Because lipid hydroperoxides and their degradation products are known to be involved in atherosclerosis, modulation of DDAH and methylarginines may serve as a novel therapeutic target in the treatment of cardiovascular disorders associated with oxidative stress.
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PMID:Role of DDAH-1 in lipid peroxidation product-mediated inhibition of endothelial NO generation. 1788 9

Reactive carbonyl compounds (RCC) generated by polyunsaturated fatty acid oxidation alter progressively cellular and tissular proteins by forming adducts on free amino groups and thiol residues (carbonyl stress). Carbonyl scavengers may neutralize RCC, but their protective effect in atherosclerosis has not been extensively studied. We report the carbonyl scavenger and antiatherogenic properties of hydrazine derivatives, namely hydralazine, an antihypertensive drug, isoniazid, an antituberculosis agent, and two antidepressants, phenelzine and iproniazid. These drugs were poorly efficient in preventing the oxidation of LDL mediated by smooth muscle cells (SMCs), but inhibited the toxicity of UV-oxidized LDL (oxLDL) and of 4-hydroxynonenal (4-HNE). Hydrazine derivatives prevented the formation of foam cells resulting from LDL oxidation in human macrophagic U937 cells, and blocked the carbonyl stress in SMCs, by inhibiting the decrease in free amino group content, the increase in carbonylated proteins, and the formation of 4-HNE adducts on PDGFR. Experimental studies carried out on apoE-/- mice supplemented with drugs (30 mg/L in drinking water) showed a significant carbonyl stress inhibition correlated with a net reduction of atherosclerotic lesion development. In conclusion, these data indicate that hydrazine derivatives exhibit carbonyl scavenger and antiatherogenic properties, which opens novel therapeutical approaches for atherosclerosis and its cardiovascular complications.
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PMID:Carbonyl scavenger and antiatherogenic effects of hydrazine derivatives. 1880 26


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