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:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Whether hormone replacement therapy (HRT) is beneficial for coronary heart disease (CHD) is controversial. We hypothesized that continuous combined transdermal HRT may have benefits on CHD risk markers without the potential adverse effects seen with certain other HRT regimens. Sixty apparently healthy postmenopausal women, aged 40-65 years, entered a prospective, double-blind, randomized, placebo-controlled clinical trial; 55 women completed the 6-month study. Women received either transdermal oestradiol 17beta 0.05 mg and norethisterone acetate 0.125 mg daily, or identical placebo. Circulating markers of vascular function and remodelling, forearm blood flow, lipids and lipoproteins, glucose and insulin, and haemostatic safety parameters were measured at baseline and after treatment. Compared with placebo after 6 months, HRT administration resulted in decreased E-selectin (P < 0.01), and angiotensin-converting-enzyme (ACE; P = 0.05). Cholesterol (P < 0.05), low-density lipoproteins (LDL; P < 0.05), high-density lipoprotein3 (HDL3; P < 0.05) and apolipoproteins AII (P < 0.05) and B (P < 0.05), and fasting insulin (P < 0.05) also decreased in the HRT group. Factor VII coagulation activity decreased (P < 0.01) and plasminogen activator inhibitor-1 and fibrin D-dimer increased (P < 0.05) in the HRT group, whilst prothrombin fragment 1 + 2 (P < 0.05) decreased, more so in the placebo group. There were no changes in matrix metalloproteinase (MMP)-2, or in LDL particle size. This transdermal HRT had beneficial effects on vascular function and CHD risk markers.
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PMID:Randomized trial of effect of transdermal continuous combined hormone replacement therapy on cardiovascular risk markers. 1500 73

Distributions of alleles at three apolipoprotein loci (APO E, APO H, and APO A-IV) and an insertion/deletion (I/D) polymorphism at the angiotensin converting enzyme (ACE) locus among 274 American Samoans are described here. Genotypes at each locus are examined for associations with quantitative lipid (total cholesterol (total-c), LDL-cholesterol (LDL-c), HDL-cholesterol (HDL-c), and triglycerides) and apolipoprotein (APO AI, APO AII, APO E, and APO B) levels. Genotype frequencies at all four loci are in Hardy-Weinberg equilibrium. The most common APO A-IV genotype (1-1) was observed in 252 American Samoans (97%). The three most common APO E genotypes were 3-3 (47%), 3-4 (30%), and 2-3 (12%). The most frequent APO H genotype was 2-2 (86%). The most common ACE genotype (I/I) was observed in 75% of sampled individuals, and 23% were I/D heterozygotes. APO E genotypic variation was associated with total-c, HDL-c, LDL-c, and all four quantitative apolipoproteins (AI, AII, E, and B). APO A-IV genotypes were associated significantly with total cholesterol, LDL-c, and APO-B levels. APO H showed little association with any quantitative lipid or apolipoprotein. ACE D/D homozygotes had higher AII levels. ACE showed a consistent association with APO AII levels, with either APO A-IV or APO E as a covariate. The interaction term between ACE and APO E was also significantly associated with total-c and APO E levels, and the ACE genotype showed a significant main effect on APO AI levels in multivariate analyses.
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PMID:Population genetics of apolipoproteins A-IV, E, and H, and the angiotensin converting enzyme (ACE): associations with lipids, and apolipoprotein levels in American Samoans. 1525 64

Hypertension and proteinuria are risk factors for renal disease progression. There is clear evidence that pharmacological blockade of the RAS with angiotensin converting enzyme inhibitors (ACEI) or angiotensin receptor blockers (ARB) reduces proteinuria and slows down the progression of renal disease in diabetic and non diabetic nephropathies, a beneficial effect not related to blood pressure control. However, not all patients respond similarly to these treatments. Some patients exhibit a significant beneficial response while others do not. The absence of response may be explained by the incomplete blockade of the RAS obtained with ACEI, which are unable to block completely the formation of AII, some generation of AII is produced via other non ACE pathways. In the search of new alternatives that could improve the antiproteinuric and nephroprotective effects of RAS blockers, the association of ACEI and ARB might prove to be useful. ARB produces a complete blockade of the RAS and stimulates the vasodilating and non-proliferative actions of AII via the AT-2 receptor. Furthermore, ACE inhibitors but not ARB; inhibit the metabolism of kinins, which increases the level of bradykinin, a potent vasodilator. Recently, several authors have shown a more marked antiproteinuric effect of the dual blockade of the RAS versus ACEI or ARB alone in spite of a similar effect on blood pressure. A recent study also has demonstrated that this more marked antiproteinuric effect is associated with a less progression of renal disease in primary, non diabetic nephropathies. Furthermore, at least two studies have shown that, treatment with ARB postpones end-stage renal disease and reduces the rate of decline in renal function in patients with type 2 diabetes and nephropathy, but until now, there is not any clear evidence of a superior beneficial effect of dual blockade versus maximal recommended dose of ARB regarding renal progression in type 2 diabetic nephropathy, which is the most frequent cause of end stage renal disease. Long-term clinical trials are needed and encouraged to further establish the significant role of dual blockade in renal protection particularly in diabetic nephropathy.
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PMID:The reno-protective effect of the dual blockade of the renin angiotensin system (RAS). 1585 85

The essence of Japanese Society of Hypertension Guidelines for the Management of Hypertension (JSH 2000) was introduced. JSH 2004 is a revised edition of JSH 2000. In JSH 2004, the significance of lifestyle modification is also emphasized as the basic treatment of hypertension, in which salt intake per day is reduced to below 6g/day. In drug therapy, Ca channel blockers, AII receptor blockers, ACE inhibitors, diuretics, beta -blockers and alpha-blockers are recommended as the main anti-hypertensive drugs. To obtain target blood pressure, a combined therapy of those drugs is recommended. In the management of aged hypertensive patients over 65, target blood pressure is generally below 140/90mmHg, but in those over 75, transient target blood pressure is below 150/90 mmHg, if hypertension is moderate or severe.
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PMID:[The Japanese Society of Hypertension Guidelines for the Management of Hypertension (JSH 2004)]. 1594 75

In recent years understanding of the role of aldosterone has expanded beyond the known classic effects of promoting renal sodium retention and potassium and magnesium loss. It is now well documented that aldosterone causes myocardial and perivascular fibrosis, blocks the myocardial uptake of norepinephrine, and increases plasminogen activator inhibitor levels. In conjunction with angiotensin II, aldosterone causes vascular damage, endothelial dysfunction, and decreased vascular compliance. Therefore, the renin-angiotensin-aldosterone system (RAAS) plays a major role in the development of both hypertension and heart failure and is therefore, a key target for therapeutic interventions. Commonly prescribed medications for control of hypertension and congestive heart failure are inhibitors of the RAAS, including angiotensin converting enzyme inhibitors (ACE-I) and Angiotensin II (A-II) receptor antagonists. There is a well-documented increase in aldosterone levels that occurs over several months during chronic treatment with an ACE-I or A-II receptor antagonist. Such suppression of circulating aldosterone however, is transient, as exemplified by the term "escape" used to describe the phenomenon. This rebound of aldosterone even occurs when patients receive both an ACE-I and A-II receptor antagonist. In addition, ACE-I and A-II receptor antagonists are less effective in controlling BP in the estimated 60% of hypertensive patients who are salt (volume) sensitive and more prone to hypertension-associated morbidity such as black patients and type 2 diabetics. Thus chronic and complete blockade of aldosterone action requires an aldosterone receptor antagonist. The "Randomized Aldactone Evaluation Study" (RALES) trial results in patients with severe heart failure NYHA class III or IV and a left ventricular ejection fraction of no more than 35 percent showed that administration of a sub-hemodynamic dose of spironolactone (25 mg a day) as an add on therapy to ACE-I plus standard treatment resulted in a significant mortality reduction due both to decreased death from progressive heart failure and sudden cardiac death. These findings support the pivotal role of aldosterone in the pathophysiology of progressive heart failure. Although it is an effective antialdosterone agent, widespread use of spironolactone in humans is limited by its tendency to produce undesirable sexual side effects. At standard doses, impotence and gynaecomastia can be induced in men, whereas pre-menopausal women may experience menstrual disturbances. Data on a selective aldosterone receptor antagonist, eplerenone, appear promising for the effective blockade of aldosterone and its harmful effects without the sexual disturbances of spironolactone. Recently Eplerenone was successfully introduced for the treatment of hypertension and heart failure. Growing number of experimental studies are finding a broader role for Aldosterone in driving the pathophysiology of both heart failure and hypertension. When added to conventional therapy aldosterone receptor blockers show benefits which are in addition to those conferred by ACE-I and/or AII receptor blockers.
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PMID:Cardioprotection by aldosterone receptor antagonism in heart failure. Part I. The role of aldosterone in heart failure. 1636 59

Endothelium was "discovered" as a separate organ in the last decades of the previous century. For a long time endothelial cells were considered as a very passive monolayer of cells just covering the inner part of vascular walls. The role of these cells was thought to be only a mechanical barrier between circulating blood and vascular structures. Nowadays, after a series of biochemical and experimental studies, one can name endothelium as an organ, covering approximately 700 sqaure meters, weighing about 1.5 kilos in an average male with weight of 70 kg. Not only its quantity, but also its function is amazing. The most prominent and first well studied function of endothelial cells is vasodilatation and vasoconstriction. Normal cells, which are intact and in function produce regularly one of the most important protecting agent in circulation: NO. Normal endothelial cells produce NO as a result of higher blood pressure or growing demand for oxygen. It is produced from aminoacid L-arginine as a result of enzyme activity: endothelial NO synthetase (eNOS). Interleukins also can increase production of NO. NO has also antiinflammatory efects, helping in reparation and healing processes. Prostacyclins are the second most important vasodilating agent produced in endothelium. On the other hand, vasoconstriction is also mediated via endothelium. Endothelin 1, angiotensin II and thromboxan A are produced in vascular wall by endothelial cells, acting as opponent to NO. ACE system is very active inside those cells, with permanent local angiotensin II formation, that mostly act on vascular wall itself. Effects of such generated angiotensin II stimulate activation of VCAM molecules, starting adhesion of monocytes, their penetration in vascular wall and activation. Acivated macrophages get in contact with oxidized LDL particles already inside the vascular wall, producing foam cells. That is the very begining of atherosclerosis. All negative effects of excess of angiotensin II should be reduced by effective therapy with ACE inhibitors or AT antagonists. Today it seems more important to act on excess in endothelial AII in order to regulate not only blood pressure, but long-term devastating effects on target organs, preventing atherosclerosis.
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PMID:[The role of endothelium in hypertension and atherosclerosis]. 1721 6

Radiation nephropathy has emerged as a significant complication of bone marrow transplantation and radionuclide radiotherapy, and is a potential sequela of radiological terrorism and radiation accidents. In the early 1990's, it was demonstrated that experimental radiation nephropathy could be treated with a thiol-containing ACE inhibitor, captopril. Further studies have shown that enalapril (a non-thiol ACE inhibitor) is also effective in the treatment of experimental radiation nephropathy, as are both AII type-1 (AT(1)) and type-2 (AT(2)) receptor antagonists. ACE inhibitors and AII receptor antagonists are also effective in the mitigation (prevention) of radiation nephropathy. Other types of antihypertensive drugs are ineffective in mitigation, but brief use of a high-salt diet in the immediate post-irradiation period significantly decreases renal injury. There are differences between mitigation and treatment of radiation nephropathy that imply that different mechanisms are operating. First, a high-salt diet is effective in the mitigation of radiation nephropathy, but deleterious on the treatment of established disease. Second, AT(1) blockade is more effective than ACE inhibition for mitigation of radiation nephropathy, but equally effective for treatment. Third, the efficacy of AT(1) blockade and ACE inhibition is highly dependent on drug dose in mitigation of radiation nephropathy, but not so in treatment. Finally, while AT(2) blockade augments the benefit of AT(1) blockade in mitigation of radiation nephropathy, it does not do so in treatment. We hypothesize that while mitigation of radiation nephropathy works by suppression of the renin-angiotensin system, treatment of established radiation nephropathy requires blood pressure control in addition to (or possibly instead of) suppression of the renin-angiotensin system.
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PMID:Treatment of radiation nephropathy with ACE inhibitors and AII type-1 and type-2 receptor antagonists. 1750 17

There is increasing evidence that locally produced angiotensin AII (AII) regulates the function of many tissues, but the involvement of enterocyte-derived AII in the control of intestinal transport is unknown. This study examined whether there is a local renin-angiotensin system (RAS) in rat villus enterocytes and assessed the effects of AII on SGLT1-dependent glucose transport across the brush border membrane (BBM). Gene and protein expression of angiotensinogen, ACE, and AT(1) and AT(2) receptors were studied in jejunal and ileal enterocytes using immunocytochemistry, Western blotting and RT-PCR. Mucosal uptake of d-[(14)C]glucose by everted intestinal sleeves before and after addition of AII (0-100 nm) to the mucosal buffer was measured in the presence or absence of the AT(1) receptor antagonist losartan (1 microm). Immunocytochemistry revealed the expression of angiotensinogen, ACE, and AT(1) and AT(2) receptors in enterocytes; immunoreactivity of AT(1) receptor and angiotensinogen proteins was especially pronounced at the BBM. Expression of angiotensinogen and AT(1) and AT(2) receptors, but not ACE, was greater in the ileum than the jejunum. Addition of AII to mucosal buffer inhibited phlorizin-sensitive (SGLT1-dependent) jejunal glucose uptake in a rapid and dose-dependent manner and reduced the expression of SGLT1 at the BBM. Losartan attenuated the inhibitory action of AII on glucose uptake. AII did not affect jejunal uptake of l-leucine. The detection of RAS components at the enterocyte BBM, and the rapid inhibition of SGLT1-dependent glucose uptake by luminal AII suggest that AII secretion exerts autocrine control of intestinal glucose transport.
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PMID:Involvement of an enterocyte renin-angiotensin system in the local control of SGLT1-dependent glucose uptake across the rat small intestinal brush border membrane. 1770 18

This review describes the therapeutic approach of endocrine arterial hypertension in clinical practice. In mineralocorticoid-related hypertension, adrenalectomy is the treatment of choice for aldosterone-producing adenomas and monolateral primary aldosteronism, whereas pharmacologic blood pressure (BP) control is indicated for the other forms of primary aldosteronism such as bilateral adrenal hyperplasia. Spironolactone is the drug of choice, but intolerable side effects limit its use; amiloride or eplerenone are a valid alternative. If BP remains uncontrolled, angiotensin converting enzyme inhibitors (ACE-I), angiotensin II receptor antagonists (AII-RA) and calcium channel blockers (CCB) may be added. Hypertension accompanying Cushing's syndrome can be approached with surgery, but antihypertensive treatment both pre- and postoperative is required as well. Eplerenone, AII-RA and ACE-I are indicated, while peroxisome proliferator activated receptor upsilon agonists may help for the insulin resistance syndrome. Drugs that suppress steroidogenesis should be used with care because of their serious side effects. Subjects with catecholamine-dependent hypertension due to a neuroendocrine neoplasm need to undergo preoperative alpha-adrenergic blockade with phenoxybenzamine or doxazozine. When adequate alpha-adrenergic blockade is achieved, beta-adrenergic blockade with low dose propranolol may be added. If target BP is not achieved, CCB and/or metyrosine are indicated. Laparoscopic adrenalectomy is the procedure of choice for solitary intra-adrenal neoplasms <8 cm. Acute hypertensive crises that may occur before or during surgery should be treated intravenously with sodium nitroprusside, phentolamine, nicardipine or labetalol. For malignant neoplasms, chemo- and radiopharmaceutical therapy may be considered.
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PMID:Endocrine arterial hypertension: therapeutic approach in clinical practice. 1892 67

We retrospectively evaluated the incidence of renal insufficiency (RI) and risk factors involved in RI in 27 pediatric cases that underwent their first hematopoietic stem cell transplantation (HSCT) in our hospital. Median patient age was 7 years (7 months-16 years); 19 cases demonstrated hematological malignant disease and 8 cases showed non-malignant disease, respectively. Nineteen cases were transplanted from unrelated donors. The incidence of acute and chronic RI was 51.9% and 22.2%, respectively. The intensity of the conditioning regimen, the dose of TBI, GVHD prophylaxis, and the grade of GVHD did not significantly affect the incidence of either acute or chronic RI. Patients over 13 years old were at high risk for chronic RI. Furthermore, the incidence of chronic RI was significantly higher in patients showing a serum creatinine increase during the acute phase of HSCT that was more than three times the pre-HSCT level. RI prophylaxis such as ACE inhibitors or AII receptor antagonists is needed for older children and for those demonstrating severe RI at the early stage after HSCT.
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PMID:[Renal insufficiency after allogeneic stem cell transplantation in children]. 1904 83


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