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: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During the past decade, experimental and clinical evidence has indicated an important role for the renin-angiotensin system in the progressive destruction of nephrons in a wide variety of chronic renal diseases. Studies have indicated that in the subtotally nephrectomized rat model of progressive glomerulosclerosis, in experimental diabetes mellitus, in the chronic phase of puromycin aminonucleoside-induced nephrotic syndrome and in Heymann's nephritis, angiotensin-converting enzyme (ACE) inhibitors dramatically preserve both nephron structure and function. Clinical studies have similarly noted that chronic administration of ACE inhibitors inhibits progression of renal failure in type I diabetes and type II diabetes as well as primary glomerulopathies, sickle cell nephropathy, systemic lupus erythematosis, chronic pyelonephritis and adult polycystic kidney disease. Current evidence suggests that the beneficial effect of ACE inhibitors is primarily due to inhibition of angiotensin II production, and there is strong suggestive evidence for increases in local intrarenal activation of the renin-angiotensin system in these conditions. In obstructive uropathy, activation of the renin-angiotensin system has also been shown to be an important aspect of the early functional changes and may be of importance in the subsequent generation of interstitial fibrosis. In the obstructed kidney, renin and angiotensinogen production increase and type I angiotensin receptors decrease. Inhibitors of angiotensin II production and angiotensin II action partially reverse the vasoconstriction and the reduced renal blood flow, and abolish the changes in expression of AT1 MRNA induced by obstruction. Studies suggest that the angiotensin-mediated increases in tubulointerstitial fibrosis may be mediated by increased production of transforming growth factor-beta.
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PMID:Angiotensin II-mediated renal injury. 756 81

We have investigated possible growth-promoting effects of angiotensin II (ANG II) in the pig tubular epithelial cell line LLC-PK1. 10(-6)-10(-10) M ANG II inhibited proliferation as measured by [3H]thymidine incorporation. However, the same concentration of peptide induced tubular hypertrophy as assessed by increases in de novo protein synthesis, total protein, and RNA content. These effects were mediated through AT1 receptors. Furthermore, LLC-PK1 cells exhibited specific binding sites for ANG II and expressed mature mRNA for the vascular smooth muscle AT1 receptor. ANG II incubation of cells significantly lowered intracellular cAMP, and the hypertrophogenic action of ANG II was abolished by co-incubation with the relative stable analogue dibutyryl-cAMP, suggesting the involvement of intracellular nucleotides in the signal-transduction processes leading to hypertrophy. Our results collectively suggest that ANG II is a hypertrophogenic growth factor for LLC-PK1 cells. Considering the importance of tubular hypertrophy in the progression of renal failure in many models, strategies to block the action of ANG II on tubular cells may offer an attractive alternative way to control deterioration of renal function besides modulation of haemodynamics.
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PMID:Angiotensin II stimulates cellular hypertrophy of LLC-PK1 cells through the AT1 receptor. 768 Nov 54

The 'discovery' of losartan represents three separate discoveries: (1) losartan as the unique biphenyltetrazole molecule and the first of a new chemical class; (2) losartan as a tool to identify AT1-subtype receptors; and (3) losartan as a specific probe for exploring the multiple roles of angiotensin II (Ang II) in normal physiology and pathologic states. Losartan is the first nonpeptide orally active Ang II receptor antagonist to reach clinical trials. Losartan was selected for its affinity for Ang II receptors, functional antagonism of Ang II, lack of agonist properties, and oral anti-hypertensive effects. Losartan has been widely used to define the distribution and function of AT receptor subtypes. Although possible roles of the AT2 subtype have been reported, virtually all of the known effects of Ang II are blocked by losartan. Specific AT1 receptor blockade has been broadly compared with ACE inhibition. Possible differences on the basis of AT1 selectivity, bradykinin potentiating effects and Ang II formed by non-ACE pathways are discussed. Losartan blocks the vascular constrictor effect of Ang II, the Ang II-induced aldosterone synthesis and/or release, and the Ang II-induced cardiovascular 'growth' in vitro and in vivo. In various models of experimental hypertension, losartan prevents or reverses the elevated blood pressure and the associated cardiovascular hypertrophy similar to ACE inhibitors. Likewise, in models of renal failure (for example reduced renal mass, puromycin, ochratoxin), losartan, like ACE inhibition, markedly reduced the elevation in blood pressure, proteinuria or sclerosis. In aortocaval shunt, coronary ligation and ventricular pacing models of heart failure, losartan demonstrated a pathological role for Ang II by reversing the associated haemodynamic findings. In SHR-stroke prone, losartan dramatically increased survival while having a limited effect on blood pressure, suggesting a non-pressure dependent effect of Ang II. These collective data show that Ang II exerts complex pathological effects in experimental models of vascular, cardiac, renal and cerebral disease. The effectiveness of losartan in experimental models of heart failure supports its evaluation in clinical trials with patients with heart failure.
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PMID:Discovery of losartan, the first angiotensin II receptor antagonist. 858 79

Hypertension is one of the most important cardiovascular risk factors. Without therapy hypertension leads to stroke, coronary heart disease with angina pectoris and myocardial infarction, kidney failure and/or peripheral vascular disease. The association between blood pressure and these cardiovascular complications can be demonstrated over the entire blood pressure range. The risk of stroke, myocardial infarction, renal failure or peripheral vascular disease increases with increasing blood pressure. Additional cardiovascular risk factors such as hyperlipidemia, smoking and diabetes involve a further increase in risk. Today hypertension can be effectively treated. To that end, diuretics, betablockers, ACE-inhibitors or calcium antagonists can be used. Alpha receptor antagonists and angiotensin AT1 receptor antagonists are also of value. The antihypertensive effectiveness of these drugs is comparable but may vary in individual patients. During antihypertensive therapy, a reduction in cerebrovascular and cardiac complications has been demonstrated for alpha methyldopa, diuretics and betablockers. In these studies, fatal and non-fatal strokes were reduced by 42%, while the reduction in cardiac events was less pronounced (14%). The reasons for this greater efficacy of antihypertensive therapy in the cerebral circulation are not clear. Other risk factors may be particularly important in the pathogenesis of coronary artery disease (e.g. genetic factors, hyperlipidemia and others) or hypertensive vascular changes in the coronary circulation may not be as reversible as they are in the cerebral circulation. The well documented correlation between stroke, myocardial infarction and hypertension, as well as the proven efficacy of antihypertensive therapy in preventing cardiovascular events, underscores the importance of effective and sustained blood pressure control in these patients.
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PMID:[Heart, brain and hypertension]. 884 9

The discovery of orally active nonpeptide angiotensin II (A II)-receptor antagonists has initiated a growing understanding of the physiologic and pathophysiologic roles of A II. Losartan is the first of the new class of antagonists that block all the well-known effects of A II, including vasoconstriction, aldosterone release, renin release (negative feedback), and the stimulation of thirst. A II-receptor subtypes have been described, with losartan antagonism defining the AT1 subtype and with PD123319 antagonism defining the AT2 subtype. The AT1 receptor is G-protein-coupled, involving PLC, PLA2, PLD, or adenylate cyclase and the release of intracellular calcium. The receptor-response coupling of the AT2 site remains elusive but may involve protein tyrosine phosphatase and subserve an antiproliferative role. Losartan as the prototype of an AT1-selective antagonist: i) inhibits A II binding, ii) antagonizes effects of A II in vivo and in vitro, and iii) lowers blood pressure in models of A II-dependent hypertension A II stimulates growth in vitro (DNA and protein synthesis) and in vivo (cardiac and vascular hypertrophy), and these effects are blocked by losartan. Losartan, like angiotensin-converting enzyme inhibitors, has significant renal, cardiac, and cerebral protective effects in models of renal failure, cardiac failure, and stroke, confirming the pathologic role of A II in these models. The pioneering studies in experimental animals are being confirmed by a growing number of other AT1-selective blockers and provide the basis of use of losartan for hypertension and its clinical trial in other disease states.
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PMID:The diversified pharmacology of angiotensin II-receptor blockade. 891 41

Losartan potassium is the first of a new class of orally active antihypertensive drugs which antagonise the action of angiotensin (AT) II at the AT1 receptor subtype. Losartan potassium is converted by the liver to the active metabolite E-3174, which is a more potent antagonist at the AT1 receptor. E-3174 is responsible for most of the pharmacological effects of losartan potassium, and its long half-life contributes to the extended duration of action of the drug. Losartan potassium is effective as a once-daily antihypertensive agent. In mild to moderate hypertension, losartan potassium has similar efficacy to enalapril, atenolol and felodipine extended release. When losartan potassium is combined with hydrochlorothiazide there is a further reduction in blood pressure. Losartan potassium is well tolerated in mild, moderate and severe essential hypertension, with dizziness being reported as the only drug-related adverse effect. The overall rate of patient withdrawal from therapy due to adverse experiences with losartan potassium is lower (2.3%) than that of placebo (3.7%). First-dose hypotension is uncommon, perhaps due to the slower onset of action of the drug, and cough does not appear to be a significant problem. A number of areas concerning the safety and efficacy of losartan potassium remain to be clarified. In particular, long term tolerability studies are needed; cough only became apparent as an adverse effect of ACE inhibitors after 3 to 4 years of use. Postmarketing surveillance has shown that angioedema, a rare but life-threatening adverse effect of ACE inhibitors, also occurs with losartan potassium. Further data are needed on the use of losartan potassium in patients with renal impairment before accepting the recommendation that dosage adjustment is not necessary. The pharmacokinetics and pharmacodynamics of losartan potassium in patients with hepatic disease also require further investigation. Losartan potassium increases uric acid secretion and lowers plasma uric acid levels, which may be of benefit when losartan potassium is combined with a thiazide diuretic, but which may otherwise lead to uric acid stone formation and possibly to nephropathy. Simple control of blood pressure is no longer an adequate goal in the management of hypertension. Any new antihypertensive agent should also reduce cardiovascular events, prevent or cause regression of end-organ damage such as left ventricular hypertrophy, atherosclerosis and renal failure, and should not impair quality of life. Such data on losartan potassium are not currently available. Losartan potassium is likely to be used in patients who are intolerant of ACE inhibitors, but its future in the management of hypertension will depend on long term tolerability studies and data on its effects beyond simple blood pressure control.
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PMID:A risk-benefit assessment of losartan potassium in the treatment of hypertension. 901 Jun 43

Diabetic nephropathy is the most common cause of end-stage renal disease (ESRD) in the United States, and accounts for 35% of all the patients with ESRD entering a dialysis program; 63% of patients with diabetic nephropathy have type II diabetes mellitus. Hypertension is a major risk factor for renal disease and is common in people with diabetes mellitus. Strategies for preventing the progression of renal failure in patients with diabetes mellitus include glycemic control, and control of blood pressure. Blocking the renin-angiotensin system (RAS) slows the progression of established diabetic nephropathy in type I diabetes mellitus, and inhibiting angiotensin II formation retards or impedes the progression from microalbuminuria to established diabetic nephropathy (macroproteinuria) in people with type I diabetes mellitus. The situation could be the same for people with type II diabetes mellitus. The ability of RAS blockade using irbesartan, an AT1 angiotensin II receptor antagonist, to slow the progression in renal failure has been compared with that of the calcium channel blocker amlodipine and placebo in a pilot study. The results suggest that blockade of the RAS, in this case with irbesartan, is at least equivalent to calcium channel blockers with respect to antihypertensive efficacy, but provides better renoprotective benefits.
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PMID:Renoprotection and renin-angiotensin system blockade in diabetes mellitus. 943 77

Morbidity and mortality due to end-stage renal failure has become a major health concern in recent years and there is clear evidence that arterial hypertension constitutes a powerful risk factor for the progression of renal disease. Several studies have documented the benefit of blood pressure control on renal function, and it is increasingly recognized that antihypertensive therapy aimed at reducing blood pressure well below the target value of 140/90 mmHg further improves the overall renal survival rate. Different classes of antihypertensive agents show disparate specific nephroprotective properties that are unrelated to their blood pressure lowering properties. ACE inhibitors and calcium channel blockers have been reported to ameliorate renal function by favorably modifying renal and intraglomerular hemodynamics. In addition, both drugs exert beneficial effects on non-hemodynamic parameters of renal function. In contrast, beta-blockers and diuretics, although still being solely recommended as first line drugs in the management of arterial hypertension, can have adverse effects on renal function. Recently, long-term randomized controlled trials have consistently demonstrated the superior nephroprotective value of ACE inhibitors on renal function outcome. Whether AT1 receptor antagonists have similar effects on long-term renal survival is still under investigation. The outcome of forthcoming clinical trials is likely to influence clinical guidelines and optimize the medical regimen of human essential hypertension in patients with chronic renal insufficiency.
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PMID:Nephroprotection by antihypertensive therapy. 983 72

Diabetic nephropathy has become the single most important cause of endstage renal failure in most countries of the Western world. Against this background, the role of the renin-angiotensin system (RAS) and its blockade command considerable interest. In diabetic patients and in diabetic animals, the circulating components of the RAS are suppressed. Although the evidence is not completely uniform, there are indirect arguments (renal hemodynamic response to RAS blockade, AT1 receptor expression), however, which would be consistent with increased intrarenal action of angiotensin (ANG) II. There is solid evidence that ACE inhibitors effectively interfere with progression of micro-albuminuria both in IDDM and NIDDM. They also prevent progression of advanced renal failure in IDDM, while there is only preliminary evidence in this respect for NIDDM. ACE inhibitors are superior to conventional antihypertensive agents (with the possible exception of some calcium channel blockers), but such superiority is seen only when the levels of blood pressure are relatively high. In diabetic animals, treatment with ANG II receptor blockers interferes with the development of glomerular lesions. In acute and subacute studies on diabetic patients, ANG II receptor blockers reduced albuminuria (or proteinuria) more than beta-blockers. Head-on comparison of equipotent doses ACE inhibitors and ANG II receptor blockers in non-diabetic patients produced equal reductions in proteinuria. The long-term effects of ANG II receptor blockers on progression of advanced diabetic nephropathy is the object of two large international studies. The results will not be available before the year 2000.
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PMID:Diabetes--renal function--what are the special problems? 983 74

Angiotensin (Ang) II type 1 (AT1) receptor antagonists are orally active drugs that specifically block the subtype 1 of Ang receptors. In contrast to AT1 receptor antagonists, angiotensin-converting enzyme (ACE) inhibitors block the actions of Ang II incompletely. Furthermore, the bradykinin-potentiating effects of ACE inhibitors may contribute to the mechanism of action of ACE inhibitors. Data in experimental animals suggest that AT1 receptor antagonists decrease the glomerular filtration rate (GFR) to a lesser degree than ACE inhibitors. The greater effect of ACE inhibitors in decreasing glomerular pressure was attenuated with a bradykinin antagonist. In rat models of renal damage with proteinuria, acute reduction of proteinuria was seen with ACE inhibitors but not with AT1 receptor antagonists, whereas long-term reductions of proteinuria were of similar magnitude with both agents. Renal histology after several months revealed that AT1 receptor antagonists and ACE inhibitors were equally renoprotective in various renal damage models. AT1 receptor antagonists, like ACE inhibitors, exhibit a natriuretic effect equal to moderate doses of a thiazide diuretic. In patients with severe volume depletion, use of AT1 receptor antagonists may lead to acute renal failure. Valsartan was tested in a double-blind trial in patients with moderate to severe renal failure and led to a substantial decrease in diastolic and systolic blood pressure, whereas there was no difference from placebo for changes in GFR. Urine protein increased with placebo and decreased with valsartan. The data indicate that valsartan in renal failure patients is effective in lowering blood pressure while leaving renal excretory function unaltered. Whether there is a renoprotective effect can only be shown in long-term trials, which are under way.
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PMID:Valsartan and the kidney: present and future. 1002 53


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