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)

Content of 5-, 8-, 11-, 12- and 15-monohydroxyeicosatetraenoic acids was markedly increased in blood of patients with cerebral atherosclerosis accompanied by discirculatory encephalopathy and brain infarction. These values were lower in the patients with infarction as compared with healthy people. After tourniquet ischemia of limbs concentration of the eicosatetraenoic acids was altered in blood of patients: in one group the concentration of all the lipoxygenase metabolites of arachidonic acid was increased, in the other group of patients it was decreased. Development of atherosclerosis appears to be related to activation of lipoxygenases and production of monohydroxyeicosatetraenoic acids.
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PMID:[Level of monohydroxyeicosatetraenoic acid in the blood of patients with cerebral blood circulation disorders]. 194 87

Cytokines such as tumor necrosis factor (TNF), interleukin-1 (IL-1), and gamma-interferon (IF) are produced by activated hematopoietic cells. They possess antiviral activity and have other biological activities such as induction of cell proliferation and hemorrhagic necrosis of tumors. Since herpes simplex virus (HSV) infection of human vascular cells is known to produce a biochemical and cytopathological effect virtually indistinguishable from atherosclerosis, we hypothesized that these cytokines many prevent cholesteryl ester (CE) accumulation in arterial smooth muscle cells (SMC) that is seen with herpesvirus infection. We now report that TNF and IL-1 but not gamma-IF prevent CE accumulation in HSV-infected arterial SMC by induction of cyclic AMP-dependent CE hydrolysis. This effect is mediated through the arachidonate 12-lipoxygenase pathway via 12-HETE since pretreatment of cells with several lipoxygenase inhibitors abolishes the antiviral effect and 12-HETE is the major (greater than 99%) lipoxygenase metabolite produced by these cells. This conclusion is further based on our observations that TNF and IL-1 enhance 12-HETE production in SMC and that 12-HETE significantly increases both intracellular cyclic AMP and lysosomal CE hydrolysis. Moreover, dibutyryl cyclic AMP restored a normal phenotype in these virally infected cells. Collectively, these findings identify for the first time a biochemical mechanism involved in the reduction of lipid accumulation in virally infected arterial SMC by these potent cytokines.
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PMID:Evidence for cytokine regulation of cholesterol metabolism in herpesvirus-infected arterial cells by the lipoxygenase pathway. 210 32

Male rats were exposed to freshly generated cigarette smoke once daily for various lengths of time. Inhalation of smoke was verified by elevated levels of carboxyhemoglobin. Metabolism of arachidonate in the cardiovascular system to thromboxane and prostacyclin through the cyclooxygenase pathway and their further metabolism to 15-keto-derivatives, and to 12-hydroxyeicosatetraenoic acid (12-HETE) through lipoxygenase pathway was investigated. Synthesis of thromboxane and prostacyclin in platelets and aortas respectively was not changed within 8 weeks of smoke exposure. However, formation of 12-HETE in platelets was significantly increased after 4 weeks of smoke exposure. Catabolism of thromboxane and prostacyclin as determined by NAD(+)-dependent 15-hydroxyprostaglandin dehydrogenase activity was greatly decreased in lung but not in kidney and stomach following 4 weeks of smoke exposure. Increased 12-lipoxygenase activity in platelets may lead to stimulation of migration and proliferation of smooth muscle cells and to increased synthesis of leukotrienes in neutrophils. Decreased pulmonary prostaglandin catabolic activity may result in increase in circulating thromboxane/prostacyclin ratio and subsequently alteration of vascular homeostasis. The consequence of these biochemical changes may contribute to the development of atherosclerosis, thromboembolism and emphysema commonly found in smokers.
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PMID:Alterations of arachidonate metabolism in cardiovascular system by cigarette smoking. 212 9

Monocyte-mediated oxidation of low-density lipoprotein (LDL) converts the lipoprotein to a potent cytotoxin. The oxidation process requires monocyte activation and requires superoxide anion since it can be blocked by superoxide dismutase. In this study, the requirement for lipoxygenase activity is shown, in that 1) inhibitors of lipoxygenase prevent the alteration of LDL, 2) copper (II) (3,5-diisopropylsalicylic acid), an agent shown to enhance lipoxygenase activity in a cell-free system, similarly enhances monocyte-mediated LDL alteration, and 3) the (3,5-diisopropylsalicylic acid)-enhanced monocyte-mediated modification of LDL can be completely blocked by inhibitors of lipoxygenase or by superoxide dismutase. These data suggest an integral role for monocyte lipoxygenase in the generation by activated monocytes of the extracellular superoxide anion that participates in the oxidation of LDL and the conversion of LDL to a cytotoxin. Monocyte-modified LDL may be a mediator in tissue damage that accompanies atherosclerosis or occurs at sites of inflammation.
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PMID:Activated human monocytes oxidize low-density lipoprotein by a lipoxygenase-dependent pathway. 216 88

Atherosclerotic plaque formation is accompanied by hyperproliferative events which have many features of an inflammatory response. A high-performance liquid chromatography procedure was developed to analyze the inflammatory prostaglandins, leukotrienes and hydroxyeicosatetraenoic acids (HETEs) produced by aortic segments. Normal rabbit aortas incubated with tritiated arachidonic acid synthesized 12-HETE as the principal lipoxygenase metabolite, and prostacyclin as the major cyclooxygenase product. In contrast, atherosclerotic aortas from both cholesterol-fed and Watanabe Heritable Hyperlipidemic rabbits showed major increases in synthesis of lipoxygenase-derived 15-HETE, which became the predominant eicosanoid in the aortas of both types of rabbit. No leukotrienes or other 5-lipoxygenase products were detected to the detection limit of 0.5 pmol/cm aorta. 15-HETE, which is chemotactic for smooth muscle cells, mitogenic for endothelial cells, and an inhibitor of prostacyclin synthesis may thus play a role in atherogenesis.
Atherosclerosis 1989 Jan
PMID:Formation of 15-hydroxyeicosatetraenoic acid (15-HETE) as the predominant eicosanoid in aortas from Watanabe Heritable Hyperlipidemic and cholesterol-fed rabbits. 249 11

Numerous studies have shown that early radiation injury is characterized by vascular damage and that the initial site of damage appears to be the EC lining of the vessel wall. Chronic irreversible tissue reactions to radiation include thrombotic occlusion of capillaries, enhanced atherosclerosis in larger vessels, inflammatory changes, and late tissue fibrosis. These processes may be mediated by endothelial products released as a result of cellular injury. Using EC cultures, we show that ionizing irradiation affects one of the major vascular defense mechanisms against platelet activation, thrombosis, and atherosclerosis--the capacity to produce PGI2. Dose- and time-related damage to enzymes of the arachidonic acid cascade were demonstrated. Radiation damage is associated with oxidant stress and production of free radicals. The oxygen radical scavenger, vitamin C, was found to protect the capacity of irradiated ECs to produce PGI2. Radiation injury often induces an acute inflammatory response. We found that irradiated ECs release a chemotactic factor for neutrophils, which is a lipid product of the lipoxygenase pathway. Late radiation-induced tissue fibrosis and the capacity of radiation to enhance arteriosclerosis may involve participation of mitogens released from perturbed and damaged ECs. We show that conditioned medium of irradiated ECs contain larger amounts of newly synthesized mitogens capable of stimulating the proliferation of fibroblasts, SMCs, and ECs. Hence, it may be assumed that the mitogenic activity released by irradiated ECs includes both PDGF and FGF-like mitogens.
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PMID:Perturbation of endothelial functions by ionizing irradiation: effects on prostaglandins, chemoattractants and mitogens. 266 90

A remarkable variation in monocyte activation among individuals was observed when blood from different people was incubated with lipopolysaccharides. To elucidate this phenomenon, we studied intracellular signals associated with monocyte activation. This was done by measuring induced thromboplastin synthesis. An inhibitor of phospholipase A2 blocked the lipopolysaccharide induced synthesis of thromboplastin. Thus, release of arachidonic acid (20: 4) seemed to be necessary to activate the monocytes. Nordihydroguaiaretic acid, a lipoxygenase inhibitor, had no effect on the monocyte activation in subjects with a low response to lipopolysaccharides (low responders); this contrasted with nearly 80% inhibition in individuals with very sensitive cells (high responders). Taking aspirin raised monocyte activation by an average of 50%, this was caused by the effect of aspirin on the platelets. Platelets enhanced the lipopolysaccharide activation of monocytes 2-3 fold. The high response phenomenon was partially due to platelets. When platelets in the blood of high responders were substituted with platelets from low responders, the monocyte activation fell by up to 70%. Fatty acids seemed to play a central role in the activation of monocytes. Intake of cod liver resulted in significant reduction of induced thromboplastin synthesis. It is suggested that those who are high responders may be more susceptible to developing atherosclerosis.
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PMID:Fatty acids, platelets and monocytes. Something to do with atherogenesis. 292 3

Myocardial ischaemia results from complex interrelated processes involving progression of atherosclerosis, thrombosis, coronary spasm, platelet aggregation and local release of products from the arachidonic acid cascade. Endothelium-dependent responsiveness contributes to the local regulation of coronary blood flow, and the presence of endothelial damage may result in enhanced contraction of the smooth muscle. Drugs which have been used for the treatment of angina pectoris are able to reduce myocardial oxygen consumption. This concept will further be developed in the near future with beta-blocking agents with vasodilating properties, potent long acting nitrates (nicorandil), bradycardic agents (AQA 39 or AS-AH 208), and new calcium antagonists. However, future prospects in the treatment of angina pectoris include: drugs modifying the arachidonic acid cascade by increasing synthesis or release of prostacyclin (nafazatrom) or decreasing prostacyclin degradation (almitrine), or blocking thromboxane A2 synthetase (dazoxiben) or thromboxane A2 receptors (BM 13177) or, blocking the lipoxygenase pathway (nafazatrom) or prostacyclin analogues (iloprost); more clot-specific thrombolytic agents and new oral anticoagulant drugs; free-radical scavengers such as superoxide dismutase, catalase or peroxidase and drugs inhibiting xanthine-oxidase; anti-platelet drugs such as ticlopidine which blocks the fibrinogen receptors of platelets; drugs preventing the progression of atherosclerosis lesions such as nifedipine or verapamil in animals fed high-lipid diets; drugs which could modify myocardial metabolism during ischaemia. In this context, trimetazidine acts through prevention of ischaemia-induced decrease in ATP cellular storages, inhibition of potassium leak, decrease in free-radical production and thromboxane A2 synthesis and increase in prostacyclin synthesis. These new concepts provide an important contribution to the understanding of the pathophysiology of myocardial ischaemia. This explains the considerable development of pharmacological research for new agents in the treatment of angina pectoris.
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PMID:[Treatment of angina pectoris. New perspectives]. 294 45

Arachidonic acid (AA) is metabolized by the cyclo-oxygenase and the lipoxygenase pathways to give a number of products, some of which have potent and sometimes opposing biological activities. Different cell types produce different metabolites, so that the chief AA metabolite produced by the platelet is the pro-aggregatory thromboxane A2 (TXA2), whereas that produced by the vascular endothelium is the anti-aggregatory prostacyclin. White blood cells, on the other hand, are the chief source of the leukotrienes, which are implicated in the inflammatory process. Generation of these products may be modified in certain pathological conditions, such as atherosclerosis and diabetes, where prostacyclin synthesis is reduced and TXA2 synthesis increased, resulting in a pro-thrombotic state. Synthesis of AA metabolites may be inhibited, either totally or selectively, using drugs which inhibit different enzymes in the metabolic pathway. These drugs may be beneficial in the treatment of thrombotic disorders and inflammation. AA metabolism may also be modified by dietary substitution with eicosapentaenoic acid, a fatty acid present in fish oils.
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PMID:Arachidonate metabolism in blood cells and the vessel wall. 301 65

The metabolism in vitro of exogenous and endogenous arachidonic acid was studied in circulating blood monocytes obtained from control (control group) and cholesterol (0.5%)-fed (cholesterol group) rabbits. The production of superoxide anion (O2-), tissue plasminogen activator (t-PA) and adherence of monocytes were assessed in both groups of animals. The amounts of cyclooxygenase and lipoxygenase products derived from exogenously added [1-14C]AA were not significantly different in monocytes collected from both groups of animals. However, the amounts of PGD2, TXB2 and PGE2 formed from endogenous substrate were decreased significantly in monocytes obtained from the cholesterol group compared to those from the control group. The production of immunoreactive LTB4 was not suppressed significantly in monocytes collected from the cholesterol group. The production of O2- and t-PA was suppressed significantly in monocytes obtained from the cholesterol group and these cells adhered onto glass surfaces more efficiently than control cells. Since the formation of prostanoids from endogenous but not exogenous substrate is reduced, an effect of cholesterol on the liberation of AA from phospholipid pools is implicated.
Atherosclerosis 1986 Aug
PMID:Influence of cholesterol feeding on the production of eicosanoids, tissue plasminogen activator and superoxide anion (O2-) by rabbit blood monocytes. 301 60


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