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: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cardiovascular disease represents the major cause of morbidity and mortality in noninsulin-dependent diabetic patients. While it was once thought that atherosclerotic vascular disease was responsible for all of these adverse effects, recent studies support the notion that one of the major adverse complications of diabetes is the development of a diabetic cardiomyopathy characterized by defects in both diastolic and systolic function. Contributing to the development of the cardiomyopathy is a shift in myosin isozyme content in favor of the least active V3 form. Also defective in the noninsulin-dependent diabetic heart is regulation of calcium homeostasis. While transport of calcium by the sarcolemmal and sarcoplasmic reticular calcium pumps are minimally affected by noninsulin-dependent diabetes, significant impairment occurs in sarcolemmal Na(+)-Ca2+ exchanger activity. This defect limits the ability of of the diabetic heart to extrude calcium, contributing to an elevation in [Ca2+]i. Also promoting the accumulation of calcium by the diabetic cell is a decrease in Na+, K+ ATPase activity, which is known to increase [Ca2+]i secondary to a rise in [Na+]i. In addition, calcium influx via the calcium channel is stimulated. Although the molecular mechanisms underlying these defects are presently unknown, the possibility that they may be related to aberrations in glucose or lipid metabolism are considered. The evidence suggests that classical theories of glucose toxicity, such as excessive polyol production or glycosylation, appear to be insignificant factors in heart. Also insignificant are defects in lipid metabolism leading to accumulation of toxic lipid amphiphiles or triacylglycerol. Rather, the major defects involve membrane changes, such as phosphatidylethanolamine N-methylation and protein phosphorylation, which can be attributed to the state of insulin resistance.
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PMID:Cardiomyopathy associated with noninsulin-dependent diabetes. 166 89

The potential role of trace metals in the pathogenesis of various disease states, especially of renal and cardiovascular disease, has been recognized increasingly. Moreover, altered membrane transport was recently incriminated to play a role in renal tubular syndromes, such as the Fanconi syndrome, as well as in the pathogenesis of volume dependent hypertension. We therefore investigated the possible in vitro effects of various trace metals on Na-K-ATPase, the biochemical correlate of active cellular transmembrane sodium and sodium-dependent transport. To more closely mimic the in vivo situation, we deliberately chose as enzyme source renal tissue homogenate, which may contain protective agents. Under these experimental conditions, the metals studied inhibited the enzyme quantitatively in the following order: Hg greater than Pb greater than Cd greater than Ur greater than Cu greater than Zn greater than Mn greater than Ba greater than Ni greater than Sr. Enzyme kinetic studies showed that Hg, Pb, and Cd competitively, and Cu noncompetitively, inhibited the enzyme. In general, Mg-ATPase was significantly less sensitive to the trace metals. Accumulation of these metals may present serious health hazards by producing a general defect in cell membrane transport. From the other metals studied, i.e., Mn, Ba, Ni and Sr, some may have toxic effects via other mechanisms, whereas some may exert a protective role against toxicity of other agents including metal ions.
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PMID:In vitro inhibition of Na-K-ATPase by trace metals: relation to renal and cardiovascular damage. 302 55

The prevalence of cardiovascular disease (by EKG criteria) in patients with rhegmatogenous retinal detachments has been reported to be more than four times that found in age-matched controls. Adhesion between the retinal pigment epithelium (RPE) and the photoreceptors is facilitated by RPE transport. Because RPE transport is driven by a Na-K ATPase, it has been suggested that the correlation of EKG abnormalities and retinal detachment may be due to clinical use of digoxin, a Na-K ATPase inhibitor frequently given to patients with cardiovascular disease. The prevalence of EKG abnormalities in 299 consecutive patients with primary retinal detachment is about the same as that reported previously. However, 92% of these patients with EKG abnormalities did not take digoxin. Therefore, clinical use of digoxin cannot account for the reported association of EKG abnormalities and rhegmatogenous retinal detachment.
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PMID:Digoxin cannot account for the reported association of EKG abnormalities and rhegmatogenous retinal detachment. 334 65

Epidemiological studies indicate a strong relationship between dietary Mg intake and the incidence of sudden cardiac death. The mechanism by which dietary Mg leads to an increased incidence of cardiovascular disease is unknown but may involve alteration of electrolyte balance. In the present study, tissue electrolyte levels and myocardial pathology were investigated in adult hamsters fed a diet containing no added Mg. Control animals were fed the same diet supplemented with Mg or standard laboratory chow. Hamsters were killed after 4, 8, 12, or 18 days on the test diet, and levels of Na, K, Ca, and Mg were measured in the serum, myocardium, bone, and kidney. The earliest change induced by the test diet was a decrease of the serum Mg and an increase in the Na concentration of the myocardium and other tissues. Following the rise in myocardial Na, the myocardial Ca rose, attaining a fourfold increase by 18 days. K fell in heart and kidney, but not significantly. Although there was no significant change in myocardial Mg, foci of myocardial necrosis, considered to be typical of acute severe Mg deficiency, were found. Myocardial necrosis and the increase in myocardial Ca occurred in parallel. Because of the pattern of observed changes in electrolyte levels, and the potential role of Ca in myocardial injury, the occurrence of myocardial necrosis in these Mg-deficient hamsters is attributable to the increased level of myocardial Ca, rather than to any change in intracellular Mg levels. It is postulated that reduced extracellular Mg levels increase [Na]i through reduction of sarcolemmal (Na+ + K+)-ATPase activity. This would lead to an increase in [Ca]i through Na-Ca exchange.
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PMID:Interrelationship of dietary Mg intake and electrolyte homeostasis in hamsters: I. Severe Mg deficiency, electrolyte homeostasis, and myocardial necrosis. 401 40

The interactions of Mg and K in cardiovascular disease are diverse and complex. However, Mg deficiency and loss from the heart and arteries, caused e.g. by dietary deficiency or imbalance, or by diseases and their treatment, can contribute to cardiovascular damage, and to functional abnormalities. Although Mg deficiency interferes with K retention, it is seldom measured in routine clinical practice, and the need to correct low Mg levels, in order to replete K, is rarely considered. The heart, with its high metabolic activity, is particularly vulnerable to Mg deficiency or loss because of the importance of Mg in mitochondrial structure and enzymatic function. The need for Mg to activate Na/K ATPase has long been known. Mg has also been shown to be structurally part of the enzyme in cardiac mitochondria. Additionally, Na/K exchange occurs in association with phosphorylation and dephosphorylation, reactions that are also Mg-dependent. The demonstration that Mg modulates K+/proton (H+) exchange, and that cation selectivity in Na+ and K+ exchange for H+ is highly dependent on the concentration of Mg++, provides new insights into how Mg protects against K loss. The loss of myocardial K that results from Mg deficiency contributes to electrophysiologic changes, as can the Ca shifts of Mg loss. A high Ca/Mg ratio also predisposes to arterial spasms, and increases catecholamine release. Thus the arrhythmogenic potential of Mg deficiency can be related to imbalances between Mg and K or between Mg and Ca, or both. Electrical or K-induced catecholamine release is increased by a low Mg/Ca ratio, as are increased fatty acids and lipids and intravascular hypercoagulability. K or Ca loading of the patient with undiagnosed Mg inadequacy is not only often unsuccessful, but it may carry inherent risks. It can intensify the Mg depletion, the arterial contractility, and ECG abnormality. In the patient receiving digitalis, Mg deficiency can increase drug toxicity. In the case of myocardial infarction, Mg deficiency can increase the risk of malignant ventricular arrhythmias and sudden cardiac death. In the absence of alcoholism or gastrointestinal disease, the use of loop diuretic therapy for congestive heart failure, especially in elderly patients, is the most common cause of Mg depletion. A high concurrence of hypomagnesemia with hypokalemia, from whatever cause, has been documented. However, systemic Mg deficiency can exist despite normal Mg serum levels. Methodological difficulties hamper direct detection of cellular Mg deficiency, but patients can be indirectly evaluated by use of Mg-loading tests, which may be of combined diagnostic and therapeutic value.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Interactions of magnesium and potassium in the pathogenesis of cardiovascular disease. 653 39

The incidence of mortality from cardiovascular diseases in higher in diabetic patients. The cause of this accelerated cardiovascular disease is multifactorial and, although atherosclerotic cardiovascular disease in association with well-defined risk factors has an influence on morbidity and mortality in diabetics, myocardial cell dysfunction independent of vascular defects have also been defined. We postulate that these adverse cardiac effects could presumably result as a consequence of the following sequence of events. Major abnormalities in myocardial carbohydrate and lipid metabolism occur as a result of insulin deficiency. These changes are closely linked to the accumulation of various acylcarnitine and coenzyme derivatives. Abnormally high amounts of metabolic intermediates could cause disturbances in calcium homeostasis either directly or indirectly through structural and functional subcellular membrane alterations. Over time, chronic abnormalities such as reduced myosin ATPase activity, decreased ability of the sarcoplasmic reticulum to take up calcium as well as depression of other membrane enzymes such as Na(+)-K+ ATPase and Ca(2+)-ATPase leads to changes in calcium homeostasis and eventually to cardiac dysfunction. More importantly from the point of view of pharmacological intervention, during the initial stages, acute disturbances in both the glucose and FFA oxidative pathways may provide the initial biochemical lesion from which further events ensue. Thus therapies which target these metabolic aberrations in the heart during the early stages of diabetes, in effect, can potentially delay or impede the progression of more permanent sequelae which could ensue from otherwise uncontrolled derangements in cardiac metabolism. There is little dispute that an attempt should be made to lower raised plasma triglyceride and FFA levels. This would decrease the heart's reliance on fatty acids and, hence, overcome the fatty acid inhibition of myocardial glucose utilization. In this regard, the likely application of fatty acid oxidation inhibitors (CPT inhibitors, beta-oxidation inhibitors, sequestration of mitochondrial CoA) is also apparent.
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PMID:Myocardial substrate metabolism: implications for diabetic cardiomyopathy. 776 Mar 40

The etiology of essential hypertension is still a matter of some speculation. Research concerned with pre-hypertensive mechanisms of human essential hypertension usually includes subjects with either borderline hypertension or with a positive family history of hypertension. High blood pressure and increased left ventricular mass are risk factors for cardiovascular disease in adults. Much information about hypertension and other coronary artery disease risk factors in children and adolescents has been collected in the past two decades, and during the last years new evidence has emerged which indicates that essential hypertension originates early in life. Several studies have suggested that children and adolescents born following hypertensive pregnancies may constitute a risk group for future hypertension. The present study addresses the question concerning the future cardiovascular risk in offspring of women who had hypertension during pregnancy. The subjects in the present study were also studied in the search for early pre-hypertensive mechanisms. Fifty-nine children were studied, their mean age being 12.6 years. Forty-two children were born to mothers who had hypertension during pregnancy and 17 children were born after normotensive pregnancies by mothers who remained normotensive at follow-up 7-12 years after pregnancy. Blood pressure was measured at rest and during physical exercise. Left ventricular mass was calculated from M-mode echocardiogram. Erythrocyte concentrations of sodium and potassium and Na-K-ATPase activity were determined. Perinatal and maternal characteristics were collected from hospital records for all deliveries. Twenty-nine males and 23 females, of the initially studied children, were reexamined after 5.6 years. The present study demonstrates that children whose mothers had hypertension during pregnancy and were hypertensive at follow-up had higher blood pressure than children born following normotensive pregnancies. A familial factor for hypertension was an independent determinant of blood pressure, but not a determinant of left ventricular mass. Children born following hypertensive pregnancies had lower birth weight, shorter gestational period and higher blood pressure at follow-up. There was no relationship between birth weight and blood pressure in these children, but there were associations between maternal blood pressure during pregnancy and birth weight as well as blood pressure at follow-up. The difference in blood pressure persisted as the children matured. Particularly the children whose mothers had hypertension during pregnancy and were hypertensive at follow-up maintained their rank with regard to blood pressure and left ventricular mass during adolescence.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Blood pressure and left ventricular mass in children and adolescents: the Hypertension in Pregnancy Offspring Study. 785 47

Heart disease, stroke, and kidney failure are leading causes of death. Essential hypertension is the major predisposing risk factor of cardiovascular disease. Yet, after several decades of intensive investigation, the initiating causative mechanism of essential hypertension is still unknown. However, investigators in the field generally agree that an increased total peripheral resistance (TPR) is the fundamental hemodynamic disorder in essential hypertension. This review addresses the hypothesis that the increased TPR of essential hypertension is due to a defective mechanism in the contractility of arterial smooth muscle. Force-velocity and length-tension studies have shown that both caudal arterial muscle and mesenteric resistance arterial muscle from spontaneously hypertensive rats (SHR) can shorten more and faster than muscle from normotensive control Wistar-Kyoto rats (WKY). In addition, the SHR muscle relaxation rate is slower compared with the WKY muscle. These alterations in mechanical behavior of SHR arterial muscle appear to be primary to the high blood pressure since MK-421 (enalapril maleate)-treated SHR arterial muscle shows the same increased velocity of shortening, increased shortening ability, and decreased relaxation rate as the untreated SHR muscle. MK-421 is an angiotensin-converting enzyme blocker. SHR maintained on MK-421 treatment have normal blood pressures in spite of being of the genetically hypertensive strain. While these findings are encouraging, several other important issues supporting the hypothesis require resolution and warrant review. Firstly, structural alterations of blood vessel walls in hypertension cause the walls to thicken and encroach on the vessel lumens contributing to the increased TPR. Whether such wall thickening is the cause or consequence of high blood pressure has been controversial in the literature. In this report, data are presented from a study in which MK-421-treated SHR were utilized as a model of prehypertensive SHR. Light micrograph observations and morphometric analyses were made of cross-sections of mesenteric resistance arteries from SHR, MK-421-treated SHR, and WKY. Results show that the MK-421-treated SHR resistance arteries had media thicknesses and a number of smooth muscle cell layers that were significantly less than in the untreated SHR and not different from the WKY. Secondly, velocity of shortening is dependent on actomyosin ATPase activity, and, since maximum velocity of shortening has been shown to be increased in SHR arterial muscle, it became necessary to know whether or not an increased actomyosin ATPase activity might be responsible. Therefore, data from a study of SHR and WKY caudal arterial myofibrillar ATPase activities are compared.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Changes in arterial smooth muscle contractility, contractile proteins, and arterial wall structure in spontaneous hypertension. 793 46

The frequency of cardiovascular diseases in patients with end-stage renal disease (ESRD) is high, since hypotension, hyperlipidemia, advanced age, diabetes and other systemic diseases that may affect the heart are common in such patients. In addition to the pre-existing factors for cardiovascular disease, there are also predisposing factors that relate specifically to life on hemodialysis (HD). These include myocardial stress related to recurrent volume expansion and contraction, anemia, secondary hyperparathyroidism, excess or deficit of certain trace metals that may act as enzyme cofactors, and factors that inhibit myocardial ATPase. The prevalence, pathogenesis, and significance of these factors in ESRD patients are examined, and the potential roles of management are reviewed.
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PMID:Cardiovascular complications in end-stage renal disease and hemodialysis patients. 904 18

1. Metabolic disorders, such as obesity and non-insulin-dependent diabetes mellitus, and cardiovascular disorders, such as essential hypertension, congestive cardiac failure and atherosclerosis, have two features in common, namely relative resistance to insulin-mediated glucose uptake and vascular endothelial dysfunction. 2. Significant increases in limb blood flow occur in response to systemic hyperinsulinaemia, although there is marked variation in the results due to a number of confounding factors, including activation of the sympathetic nervous system. Local hyperinsulinaemia has a less marked vasodilator action despite similar plasma concentrations, but this can be augmented by co-infusing D-glucose. 3. Insulin may stimulate endothelial nitric oxide production or may act directly on vascular smooth muscle via stimulation of the Na+-H+ exchanger and Na+/K+-ATPase, leading to hyperpolarization of the cell membrane and consequent closure of voltage-gated Ca2+ channels. 4. There is evidence both for and against the existence of a functional relationship between insulin-mediated glucose uptake (insulin sensitivity) and insulin-mediated vasodilation (which can be regarded as a surrogate measure for endothelial function). 5. If substrate delivery is the rate-limiting step for insulin-mediated glucose uptake (in other words, if skeletal muscle blood flow is a determinant of glucose uptake), then endothelial dysfunction, resulting in a relative inability of mediators, including insulin, to stimulate muscle blood flow, may be the underlying mechanism accounting for the association of atherosclerosis and other cardiovascular disorders with insulin resistance. 6. Glucose uptake may determine peripheral blood flow via stimulation of ATP-dependent ion pumps with consequent vasorelaxation. 7. A 'third factor' may cause both insulin resistance and endothelial dysfunction in cardiovascular disease. Candidates include skeletal muscle fibre type and capillary density, distribution of adiposity and endogenous corticosteroid production. 8. A complex interaction between endothelial dysfunction, abnormal skeletal muscle blood flow and reduced insulin-mediated glucose uptake may be central to the link between insulin resistance, blood pressure, impaired glucose tolerance and the risk of cardiovascular disease. An understanding of the primary mechanisms resulting in these phenotypes may reveal new therapeutic targets in metabolic and cardiovascular disease.
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PMID:Insulin as a vascular hormone: implications for the pathophysiology of cardiovascular disease. 959 May 66


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