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)

Chronic renal failure (CRF) is associated with a 20-fold increased risk of cardiovascular death, two principal mechanisms being: sudden, arrhythmic death associated with left ventricular hypertrophy, and ischaemic heart disease, associated with accelerated atherosclerosis. In recent years, the vascular endothelium has been recognised as a large and complex endocrine organ, with many important physiological functions including the control of vascular tone. Endothelial dysfunction, commonly characterised by reduced production of the vasodilator nitric oxide (NO), is thought to be a key initial event in the development of atherosclerosis and is present in patients with hypertension and hyperlipidaemia. While these cardiovascular risk factors are also prevalent in CRF, other factors more specific to uraemia such as accumulation of homocysteine and asymmetric dimethylarginine (endogenous inhibitor of NO synthase) may impair endothelial function. Modulation of endothelial function in CRF may offer a novel strategy to reduce cardiovascular disease.
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PMID:The vascular endothelium in chronic renal failure. 1085 70

Serum levels of lipids, lipoprotein(a) Lp(a) and other apolipoproteins were determined in 47 predialysis patients, 40 hemodialysis (HD) patients, 39 chronic ambulatory peritoneal dialysis (CAPD) patients, 11 patients after kidney transplantation and 47 healthy subjects as reference group. The predialysis, HD, and CAPD patients had disturbances in the concentration of serum triglyceride (TG), high density lipoprotein (HDL)-cholesterol, apolipoprotein AI (apoAI), total apoCIII, apoCIII present in the particles without apoB (apoCIII non B), and Lp(a) and HDL-cholesterol, low density lipoprotein (LDL)-cholesterol/HDL-cholesterol, HDL-cholesterol/apoAI, apoAI/apoB, and apoAI/apoCIII ratios. Predialysis patients had significantly lower concentrations of HDL-cholesterol and total apoE levels than CAPD patients and total apoE level than HD patients. Moreover, both HD and CAPD patients had significantly increased levels of apoB containing apoE (apoB:E) and apoB containing apoCIII (apoB:CIII). The concentrations of serum TG, total cholesterol, LDL-cholesterol, apoB, Lp(a) in CAPD patients were statistically higher than in HD patients. The patients after transplantation demonstrated normalization of lipid and lipoprotein parameters and lipoprotein ratios except serum levels of TG, total apoCIII, apoCIII non B and the apoAI/apoCIII ratio. We concluded that abnormal lipid and lipoprotein concentrations in patients with uremia may be the cause of their high risk of atherosclerosis, but posttransplant patients exhibited improved levels of serum lipids, Lp(a) and other lipoprotein parameters and lipoprotein composition, which could be an index of decreased atherogenic status.
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PMID:Concentration of Lp(a) and other apolipoproteins in predialysis, hemodialysis, chronic ambulatory peritoneal dialysis and post-transplant patients. 1095 25

Cardiovascular mortality is excessive in hemodialyzed patients. Observations in atherosclerosis suggest that endothelial dysfunction and impaired nitric oxide (NO) may be involved. However, the relation of endothelial NO to its vascular effects has not been studied conclusively in uremia. Therefore, to study these questions an invasive technique was used in normotensive patients who were on hemodialysis (HD; n = 11) and in matched control subjects (n = 11). Pharmacologic agents were infused into the brachial artery to test the chain of events from NO generation to smooth muscle cell relaxation, measuring forearm blood flow by venous occlusion plethysmography. Glyceroltrinitrate (GTN 1:2.2 nmol/min; GTN 2:4.4; GTN 3:8.8), infused to establish the reaction of the vessel wall to defined doses of NO, caused a reduced response in HD patients (control subjects: 183 +/- 20 [SEM], 246 +/- 26, and 338 +/- 29%; HD patients: 161 +/- 7, 206 +/- 12, and 262 +/- 24%; baseline = 100% for each group, P: = 0.032 by ANOVA). All subsequent data were corrected for this decreased response to defined doses of NO in HD patients. L-arginine (10 mg/min), given to exclude substrate deficiency of NO synthase (NOS), caused no significant changes (control subjects: 108 +/- 4%; HD patients: 103 +/- 4%; P: = NS). Acetylcholine (ACH 1:55 nmol/min; ACH 2:110; ACH 3:220), infused to stimulate endothelial NOS, had a significantly reduced effect in HD patients (control subjects: 246 +/- 32, 340 +/- 40, and 465 +/- 52%; HD patients: 251 +/- 55, 244 +/- 36, and 318 +/- 50%; P: = 0.002). N:-monomethyl-L-arginine (LMA 1:1 micromol/min; LMA 2:2; LMA 3:4), given to block baseline NO generation, showed an enhanced response in HD patients (control subjects: 90 +/- 2, 83 +/- 2, and 74 +/- 4%; HD patients: 84 +/- 3, 73 +/- 3, and 64 +/- 4%; P: = 0.037). Vascular response to three doses of norepinephrine (60, 120, and 240 pmol/min) was comparable in both groups, which indicated similar endothelium-independent vasoconstriction. In summary, in normotensive HD patients, (1) vasodilation to defined doses of exogenous NO was reduced, (2) there was no evidence of substrate deficiency of NOS, and (3) stimulation of NOS was impaired; however, (4) baseline NO generation was increased. It is concluded that in HD patients, the NO system has a reduced capacity to regulate vascular tone and this impairment is most significant under conditions of NOS stimulation.
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PMID:Evidence in vivo showing increase of baseline nitric oxide generation and impairment of endothelium-dependent vasodilation in normotensive patients on chronic hemodialysis. 1096 98

In uremic patients, the morbidity and mortality of cardiovascular disease are substantially higher than in the general population. This has led to the formulation of an 'accelerated atherogenesis' hypothesis in uremic patients and has been commonly linked with the metabolic alterations associated with uremia. Advancement in the understanding of the pathogenesis of atherosclerotic vascular disease now suggests a central contribution of inflammation to atherogenesis, with involvement of a number of key mediators and markers of the inflammatory process. Recent epidemiological data have documented associations between C-reactive protein (CRP), the prototypical acute phase response protein, and cardiovascular disease in general population. Given the lipoprotein binding and complement activation functions of CRP and its localization in atherosclerotic vessels, there is a strong likelihood that CRP may be involved in the atherosclerotic process. The uremic state is associated with an altered immune response, which is associated with elevated proinflammatory cytokine levels. CRP concentrations are increased in a significant proportion of end-stage renal disease patients and have been associated with certain clinical outcome measures, including all-cause and cardiovascular mortality. This review outlines the evidence linking CRP with atherosclerosis and proposes that elevated CRP concentrations may be involved in the initiation and progression of accelerated atherosclerosis in uremia.
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PMID:End-stage renal disease, atherosclerosis, and cardiovascular mortality: is C-reactive protein the missing link? 1116 22

Asymmetric dimethylarginine (ADMA) is an endogenous inhibitor of endothelial nitric oxide (NO) synthase. Its concentration is elevated in patients with end-stage renal disease (ESRD), in part because it is excreted via the kidneys. In addition, ADMA is degraded by the enzyme dimethylarginine dimethylaminohydrolase (DDAH), which hydrolyzes ADMA to L-citrulline and dimethylamine. Activity of DDAH is decreased by oxidized low density lipoprotein (LDL) or tumor necrosis factor-alpha (TNF-alpha) in vitro yielding increased levels of ADMA. Furthermore, plasma levels of ADMA are elevated in hyperhomocyst(e)inemia and in hypertensive patients on a high salt diet. Data from several experimental studies suggest that ADMA concentrations in a pathophysiologically high range (3 to 10 micromol/L) significantly inhibit vascular NO formation by NO synthase in the presence of L-arginine in isolated human blood vessels, cultured macrophages, and in cultured endothelial cells. It has been well demonstrated that ADMA accumulates in chronic renal failure. Although there is controversy concerning the absolute concentration of ADMA, all authors found a two- to sixfold increase in ADMA levels in patients in chronic renal failure as compared to controls. Different dialysis treatment strategies differentially affect ADMA levels. The presence of atherosclerosis is associated with higher ADMA levels in patients with normal renal function as well as in dialysis patients, but this phenomenon may be unrelated to renal handling of ADMA. Reduced NO elaboration secondary to accumulation of ADMA may be an important pathogenic factor for atherosclerosis in chronic renal failure and ADMA may be a new uremic toxin. Clinical studies on the effect of ADMA are needed to further elucidate its pathophysiological role in atherosclerosis and uremia.
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PMID:Relationship of asymmetric dimethylarginine to dialysis treatment and atherosclerotic disease. 1116 75

The causes for the high frequency of cardiovascular disease in dialysis patients are multifactorial in origin. Disturbances in the carbohydrate and lipid metabolism, the balance between oxidants and antioxidants and the immuno-inflammatory system are thought to play a role. Chronic uremia is characterized by the accumulation of advanced glycation end products (AGEs) and advanced oxidation products (AOPP) as well as activation of the acute phase response. High serum levels of these products and acute phase reactants such as C-reactive protein (CRP), fibrinogen and serum amyloid A can be found. CRP has been shown to predict cardiovascular and overall mortality in hemodialysis patients. Whether CRP is involved causally in atherosclerosis or merely represents a marker of disease is as yet unknown. Since CRP has been detected in colocalization with modified apolipoproteins or complement components in atherosclerotic lesions, a pathophysiological role seems very likely. AGEs as well have been detected in aortas of hemodialysis patients. Incubation of endothelial cells with AGEs induced expression of adhesion molecules with consecutive attraction of monocytes to the vessel wall. Thus far, clinical studies investigating the predictive effects of AGEs on cardiovascular mortality in hemodialysis patients are lacking. There is considerable debate about what factors turn on the acute phase response in this population. Proinflammatory effects of AGEs mediated through one receptor for AGEs, RAGE, have been described. We hypothesize that there may be a link between increased hepatic CRP production and the accumulation of AGEs in uremia. AGEs may stimulate CRP production in hepatocytes either directly or indirectly via interaction with monocytes.
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PMID:Inflammation and advanced glycation end products in uremia: simple coexistence, potentiation or causal relationship? 1116 79

3-deoxyglucosone (3-DG) is accumulated not only in uremic serum but also in uremic erythrocytes. 3-DG rapidly reacts with protein amino groups to form advanced glycation end products (AGEs) such as imidazolone, pyrraline, and N(epsilon)-(carboxymethyl)lysine, among which imidazolone is the AGE that is most specific for 3-DG. In diabetes, hyperglycemia enhances the synthesis of 3-DG via the Maillard reaction and the polyol pathway and thereby leads to its high plasma and erythrocyte levels. In uremia, however, the decreased catabolism of 3-DG that may be due to the loss of 3-DG reductase activity in the end-stage kidneys may lead to a high plasma 3-DG level. The elevated 3-DG levels in uremic patients may promote the formation of AGEs such as imidazolone in erythrocytes, aortas, and dialysis-related amyloid deposits. Treatment with an aldose reductase inhibitor reduced the erythrocyte levels of 3-DG and AGEs such as imidazolone in diabetic uremic patients. This finding demonstrates an important role of the polyol pathway in the formation of erythrocyte 3-DG and AGEs. The erythrocyte levels of 3-DG are elevated in not only diabetic uremic but also nondiabetic uremic patients. 3-DG showed some cytotoxicities by inducing intracellular oxidative stress. In contrast, oxidative stress was demonstrated to cause accumulation of intracellular 3-DG. Recently, we have demonstrated that 3-DG inactivates intracellular enzymes such as glutathione peroxidase, a key enzyme in the detoxification of hydrogen peroxide. Thus, intracellular accumulation of 3-DG may enhance oxidative stress by inactivating the antioxidant enzymes. In conclusion, 3-DG may play a principal role in the development of uremic complications, such as dialysis-related amyloidosis, atherosclerosis, and enhanced oxidative stress.
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PMID:3-deoxyglucosone and AGEs in uremic complications: inactivation of glutathione peroxidase by 3-deoxyglucosone. 1116 80

Cardiovascular disease is the major cause of death in end-stage renal disease (ESRD) patients. There is growing evidence that atherogenesis is an inflammatory rather than a purely degenerative process leading to a state of microinflammation. This raises the issue of whether treatment modalities of ESRD contribute to the microinflammatory state. One potential candidate in this context is the complement system. Here we consider three potential pathways linking complement activation to progression of atherosclerosis: (1) complement activation on artificial surfaces depends on their physicochemical characteristics, the effect of which is amplified because of the accumulation of complement factor D; (2) the exposure of ESRD patients to endotoxin creates a microinflammatory state, and this may amplify complement-induced damage; exposure to endotoxin may result from frequent infections because of the impairment of host-defense mechanisms or from transfer of bacterial contaminants across dialysis membranes into the blood stream; and (3) direct transduction of proinflammatory signals from blood-material interactions to the vascular system. We conclude that the complement system is an important candidate system in the genesis of microinflammation and accelerated atherogenesis in ESRD. We advance the hypothesis that the generation of proinflammatory signals, in which the complement system appears to be involved--both through systemic and local activation--plays a role in the development of late complications of uremia, including coronary heart disease. This hypothesis provides a rationale to maximize the biocompatibility of the dialysis procedure, that is, selection of nonactivating materials, use of ultrapure dialysis fluid, and--still theoretical--high-flux dialysis to remove factor D.
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PMID:Complement components as uremic toxins and their potential role as mediators of microinflammation. 1116 25

Pseudohypertension is the artifactual elevation of blood pressure that occurs secondary to noncompressible blood vessels. It has been described in patients with uremia, diabetes mellitus, and severe atherosclerosis. If unrecognized, the condition may lead to inappropriate and potentially harmful therapy. We report a case of pseudohypertension in a 65-year-old man with diffuse scleroderma. His blood pressure as assessed by conventional sphygmomanometry was at least 240/135 to 145 mm Hg. Intra-arterial blood pressure was found to be 107/52 mm Hg. The severe rise in blood pressure as measured by sphygmomanometry led to the concern of scleroderma renal crisis and potentially harmful therapy. Intra-arterial pressure monitoring confirmed the presence of pseudohypertension, however. This is the first reported case of pseudohypertension in a patient with diffuse scleroderma.
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PMID:Pseudohypertension in a patient with diffuse scleroderma. 1127 2

Modification of low density lipoprotein (LDL) particles due to oxidation, glycation and binding of advanced glycation end-products (AGEs) or malondialdehyde (MDA, a final product of lipid peroxidation) is considered most important in the process of atherogenesis. Oxidatively modified LDL are distinguished by another receptor type, which was discovered on the surface of macrophages and was called the scavenger receptor. Uncontrolled intake of LDL converts macrophages to foam cells; their accumulation under the vascular endothelium is considered as the first stage of atherosclerosis. Oxidation of LDL is a complex process taking place in both the extra- and intracellular space. At the end of this oxidative process, modified LDL particles show chemotactic, cytotoxic and immunogenic properties. Oxidized LDL express a large number of epitopes and cause production of polyclonal autoantibodies against these products, especially against apoB100 modified by MDA and 4-hydroxynonenal. IgoxLDL (antibodies against oxidized LDL) can be demonstrated either directly in intimal lesions or as a component of circulating immune complexes. IgoxLDL do not form a homogeneous group but a varied mixture of antibodies-isoantibodies caused by HDL and LDL polymorphism, antibodies against the lipid phase of LDL and antibodies against modified apoB100 of the immunoglobulin class IgA or IgG. Antibodies against oxLDL were found in many diseases other than atherosclerosis such as diabetes mellitus, renovascular syndrome, uremia, rheumatic fever, morbus Bechtjerev or lupus erythematodes. Newborns have practically the same levels of IgoxLDL as their mothers; however, these values did not differ from those in the healthy population of non-pregnant women of the same age. The decrease in IgoxLDL titer was very slow and lasted many months; that is why this parameter cannot be considered suitable for describing the rapid changes during oxidative stress of the organism. Positive correlation of IgoxLDL with antiphospholipids and other antibodies was repeatedly demonstrated; their determination can thus be used as a marker for the description of total production of autoantibodies in various diseases. The changes and correlations of IgoxLDL, anti-beta-2-glycoprotein I IgG and antiphospholipid antibodies support the immunological link between thrombotic and atherosclerotic processes in the human body.
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PMID:Antibodies against oxidized LDL--theory and clinical use. 1152 41


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