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)

Urinary kallikrein and kallikrein activity significantly decreased in cases of preeclampsia (u-kall./CRE.index 42.39 +/- 9.66 ng/mg, u-kall. act./CRE.index 0.26 +/- 0.06 ng/min/mg), and urinary kininase II and kininase activity significantly increased (u-kininase/CRE.index 10.91 +/- 1.26 x 10(-3) IU/min/mg, u-kininase act./CRE.index 506.37 +/- 178.45 pg/min/mg) when compared with those of normal gravidas from 28 weeks to 42 weeks of gestation (u-kall./CRE.index 189.31 +/- 14.17 ng/mg, u-kall. act./CRE index 1.08 +/- 0.10 ng/min/mg, u-kininase/CRE.index 6.24 +/- 0.31 x 10(-3) IU/min/mg, u-kininase act./CRE.index 15.64 +/- 0.10 pg/min/mg). Urinary FPA, B beta 5-42, alpha 2-PI, and alpha 2PI-plasmin-complex (PIC) significantly increased in preeclampsia (u-FPA/CRE.index 23.59 +/- 8.47 ng/mg, u-B beta/CRE.index 105.26 +/- 29.30 ng/mg, u-alpha 2PI/CRE.index 121.53 +/- 43.57 ng/mg, u-PIC/CRE index 278.39 +/- 60.50 ng/mg) when compared with those of normal control group (u-FPA/CRE.index 0.92 +/- 0.04 ng/mg, u-B beta/CRE.index 12.15 +/- 0.44 ng/mg, u-alpha 2PI/CRE.index 4.18 +/- 0.33 ng/mg, u-PIC/CRE.index 5.98 +/- 1.15 ng/mg). Urinary urokinase markedly increased and urinary D-dimer was detected in severe cases of preeclampsia (u-UK/CRE.index 58.20 +/- 43.69 ng/mg, u-D-dimer 54.76 +/- 9.89 ng/ml) when compared with those of normal control group. These findings suggest that deficiency in urinary kinin excretion may induce hypertension in addition to the changes of urinary coagulation-fibrinolysis system that represents the occurrence of either the endothelial cell injury in the glomerulus or the renal tulbular damage in mild cases of preeclampsia, eventually resulting in the intra-renal vascular coagulation.
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PMID:Urinary coagulation-fibrinolysis, kallirein-kinin systems and kininase in cases of preclampsia. 133 34

The current revolution in the treatment of acute myocardial infarction by means of thrombolytic therapy has as its underlying strategy three aims: early restoration of the blood flow in order to salvage jeopardized but still viable tissues; limitation of acute consequences of ischemic heart disease, such as infarct size, ventricular fibrillation, and pericardial effusion; and preservation, as far as possible, of ventricular function. It is also hoped that these three achievements will result in reduced short- as well as long-term mortality rates. The techniques employed in this overall strategy are still under investigation, and several leading pharmacological compounds vie for supremacy: streptokinase (SK) and its anisoylated form (APSAC), recombinant technique tissue type plasminogen activator (rt-PA), and urokinase (UK) with or without prourokinase (PUK). Other pharmacological agents, such as angiotensin converting enzyme (ACE) inhibitors, beta-blockers, Ca2+ antagonists, and O2 radical scavengers, might find here their "finest hour" yet. In addition, the underlying anatomy may require early or, where needed, delayed PTCA, backed up by coronary artery bypass grafting. Thus, the tactics of the intervention may vary from case to case and indeed from center to center depending on experience and facilities, but the strategic conclusion is clearly the same: early reperfusion is a must if one wishes to save ischemic but still viable tissue.
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PMID:Acute consequences of ischemic myocardial damage. 248 24

Besides the thrombolytic therapy several adjuvant therapeutic measures were identified which significantly improve the prognosis of patients with acute myocardial infarction (AMI). These measures include the treatment by means of acetylsalicylic acid (ASA), beta-blockers and ACE inhibitors. Early administration of ASA and beta-blockers are indicated in all patients with AMI who have no contraindications for this therapy. They are especially the patients with manifest heart failure or asymptomatic left ventricular dysfunction who benefit from ACE inhibitors. The effectivity of routine administration of other medicaments such as anticoagulants, nitrates, calcium channel blockers and magnesium, have not been convincingly proved. However, some selected patients with AMI can benefit from these medicaments. Intravenous administration of heparin is unambiguously justified only in thrombolysis with t-PA. Thrombolyses with streptokinase, urokinase, and anistreplase are justified only at high risk of thromboembolic complications. Their prevention and therapy include also the necessity to restrict the administration of pelentan. The use of nitrates is indicated in patients with AMI in case of sustaining stenocardia, arterial hypertension and manifest heart left ventricular failure. Until the definitive standpoint is gained regarding the effect of magnesium in patients with AIM, its administration remains especially indicated in cases of arterial hypertension, tachycardiac disturbances of the heart rhythm and states of assumed or proved hypomagnesiemia. In AMI cases when magnesium is used in order to protect the patient from reperfusion lesion, it must be administered prior to the reperfusion therapy. An intensive research in the field of therapeutical measures in patients with AMI still continues. It is certain that it will soon bring further knowledge which will in turn improve the prognosis and quality of life of patients with AMI. (Tab. 4, Ref. 133.)
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PMID:[Adjuvant therapy in patients with acute myocardial infarct]. 892 11

This study was designed to investigate the alterations in the levels of various proteases such as angiotensin converting enzyme (ACE), kallikrein, aminopeptidases, urokinase and plasmin in serum-heart and kidney and to find out whether the changes in the levels of these enzymes could explain the pathogeneses of hypertension induced by Dexamethasone (Dex). Dex was administered to Male Wistar rats (180-200 g body weight) at a dosage of 2.5 mg/kg/week subcutaneously on alternate days for 2 weeks. One more week was included in this investigation to oversee the recovery process. Mean Arterial Pressure (MAP) showed significant elevation during administration and after withdrawal of Dex. The levels of enzymes such as angiotensin converting enzyme, carboxypeptidase-N and leucine aminopeptidase were found to be elevated in serum as well as in tissues. The level of kallikrein was observed to decrease in serum and tissues and that of thrombin, plasmin and urokinase exhibited variations. Thus, treatment with Dex altered the levels of these proteases which might have a role in the pathogenesis of hypertension and in altered blood coagulation.
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PMID:Dexamethasone induced alterations in the levels of proteases involved in blood pressure homeostasis and blood coagulation in rats. 1048 40

Recent studies indicate that assembly of high molecular weight kininogen on its multiprotein receptor allows for prekallikrein activation. On endothelial cells, factor XII activation is secondary to prekallikrein activation and amplifies it. The immediate consequence of plasma prekallikrein activation is the cleavage of high molecular weight kininogen (HK) with liberation of bradykinin. Cleaved high molecular weight kininogen is antiangiogenic. Bradykinin stimulates tPA liberation and nitric oxide formation. In addition, formed plasma kallikrein promotes single-chain urokinase activation and subsequent plasminogen activation. Kininogens and their breakdown products also are antithrombins. The angiotensin converting enzyme breakdown product of bradykinin prevents canine coronary thrombosis. The author presents a new hypothesis for physiologic assembly and activation of the plasma kallikrein/kinin system and discusses its influence on vascular biology.
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PMID:Plasma kallikrein/kinin system: a revised hypothesis for its activation and its physiologic contributions. 1096 74

Chronic renal allograft rejection is often associated with the presence of fibrin thrombi in the microcirculation. Our purpose was to evaluate the influence of chronic rejection on fibrinolytic regulators in plasma of renal allograft recipients. We evaluated the concentration and activities of tPA, uPA and PAI-I in plasma from kidney allograft recipients. We studied 64 patients who underwent kidney transplantation from cadaveric allograft donors. At the time of the study 38 patients had stable graft function for at least 6 months proceeding the study, and 26 recipients had biopsy-proven chronic rejection of the kidney transplant. Control group included 30 healthy blood donors. In kidney transplant recipients we found significantly higher plasma tPA activity (median: 0.99 IU/ml; range: 0-3.8 IU/ml) in comparison to healthy controls (median: 0.15 IU/ml; range: 0-2.8 IU/ml) (p = 0.002) as well as significantly lower plasma PAI-I activity (median: 7.06 U/ml; range: 0-33.2 U/ml) in comparison to healthy controls (median: 21.8 U/ml; range: 0-36.7 U/ml), (p = 0.0001). Among transplant recipients, PAI-I plasma activity in recipients with chronic graft rejection (median: 10.16 U/ml; range: 0-33.2 U/ml) was significantly higher than in patients with stable graft function (median: 4.83 U/ml; range: 0-22.9 U/ml), (p = 0.01). In transplant recipients with stable graft function and poorly controlled hypertension we found significantly higher PAI-I plasma activity in comparison to recipients with normal blood pressure (p = 0.006). In kidney transplant recipients there was a positive correlation between the dose of prednisone and PAI-I activity in plasma (p = 0.01) and an association between BMI value and plasma PAI-I activity (p = 0.008), as well as an association between BMI value and plasma tPA-Ant concentration (p = 0.006). Among transplant recipients, patients treated with ACE inhibitors had significantly lower uPA plasma activity than the rest of the group (p = 0.003). In recipients with stable graft function we found a correlation between CsA concentration and tPA activity (p = 0.04), as well as an association between the dose of CsA and uPA-Ant concentration in plasma (p = 0.049). In patients with chronic graft rejection we found a negative correlation between the dose of prednisone and uPA-Ant plasma level (p = 0.004). Renal allograft recipients have higher tPA and lower PAI-I activities in plasma in comparison to healthy individuals. Chronic allograft rejection, is as well as poorly controlled hypertension, seem to be associated with an increase PAI-I plasma activity. In kidney graft recipients there is a relation between the value of BMI and the activity and concentration of tPA-Ant as well as the value of BMI and the PAI-I activity in plasma. Poorly controlled hypertension is associated with an increase in PAI-I plasma activity. The results of our study suggest a stimulatory effect of CsA on tPA and PAI-I plasma activities as well as on uPA-Ant concentration, while prednisone in turn seems to enhance PAI-I activity in plasma and decrease uPA expression. In renal allograft recipients ACE inhibitors seem to reduce uPA plasma activity.
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PMID:The effect of chronic allograft rejection on plasma regulators of fibrinolysis. 1222 3

We tested the effect of ACE inhibition on the survival of bovine retinal (REC) and choroidal (CEC) endothelial cells (EC) in culture. The ACE inhibitor captopril delayed the apoptotic tube collapse of REC on Matrigel for >15 days. Captopril treatment of confluent monolayers (2-8 weeks) followed by slow starvation (2-4 weeks) increased EC viability by approximately 200%. Two-week captopril exposures were sufficient to confer maximal protection. Only vehicle-treated EC demonstrated apoptotic features such as membrane blebbing and DNA laddering. By RT-PCR, the starvation marker p202 was upregulated only in starved cells. In REC, captopril upregulated the pro-survival proteins mortalin-2, uPA, and uPAR while downregulating the anti-growth sprouty-4 and tPA. In CEC, captopril also upregulated tPA and its inhibitor PAI-1. Amiloride (uPA inhibitor) blocked the captopril-induced increase in EC survival, secondary sprouting, and invasion in Matrigel. The pro-survival effects of captopril involve the reprogramming of genes involved in cell survival and immortalization.
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PMID:ACE inhibition actively promotes cell survival by altering gene expression. 1455 46

Plasmin is an important factor in the degradation of extracellular matrix. In the study reported here we examined the expression of plasminogen-activator inhibitor-1 (PAI-1), urokinase-type plasminogen activator (uPA), and uPA receptor (uPAR), as well as the relevance of such expression to the production of type IV collagen, a major component of extracellular matrix, in the renal tissue of rats with streptozotocin-induced diabetes. Because angiotensin II is involved in the synthesis of PAI-1 and uPA, we also examined the effect of benazepril, an angiotensin-converting-enzyme inhibitor, on the expression of PAI-1, uPA, and uPAR messenger RNAs (mRNAs) and type IV collagen protein. Rats with streptozocin-induced diabetes-some untreated and some treated with 30 mg/L benazepril-and nondiabetic control rats were sacrificed at 4, 12, or 24 weeks after induction of diabetes. We examined the expression of PAI-1, uPA, and uPAR mRNAs through the use of in situ hybridization and that of type IV collagen by means of immunohistochemical methods. In control rats, we detected weak signals for PAI-1, uPA, and uPAR mRNAs in glomeruli. Diabetic rats exhibited high levels of expression of PAI-1, uPA, and uPAR mRNAs and type IV collagen protein, mainly in mesangial cells. These mRNAs were synthesized in various renal cells (epithelial, mesangial, and endothelial cells and Bowman's capsule). Benazepril inhibited increases in all 3 mRNAs, especially in the mesangium; reduced type IV collagen expression; and attenuated mesangial expansion. Our results indicated that altered expression of PAI-1, uPA, and uPAR in diabetic nephropathy was associated with mesangial expansion and that the beneficial effects of ACE-I may be at least associated with such expression.
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PMID:Renal synthesis of urokinase type-plasminogen activator, its receptor, and plasminogen activator inhibitor-1 in diabetic nephropathy in rats: modulation by angiotensin-converting-enzyme inhibitor. 1532 1

Atherosclerosis is still an important disease. It accounts for 39% of deaths in the U.K. and 12 million U.S citizens have atherosclerosis-associated disease. Atherosclerosis may exert clinical effects by slow narrowing, producing stable angina or dramatic rupture, producing acute coronary syndromes such as unstable angina or myocardial infarction and death. Macrophages are abundant in ruptured atherosclerotic plaques. Macrophages are innate immune effectors, i.e. they are activated without antigenic specificity. This may make them liable to indiscriminate tissue damage, since they are less selective than lymphocytes. Macrophages are recruited and activated by many signals and have an impressive armamentarium of molecules to promote tissue damage. Macrophage recruitment by abnormal endothelium over developing atherosclerotic plaques, is aided by endothelial expression of adhesion molecules (ICAM-1, VCAM, ELAM). Use of knockout mice has implicated the chemoattractant cytokine (chemokine) MCP-1 in attracting macrophage recruitment in atherosclerosis. Macrophage-activation stimuli associated with atherosclerotic risk factors include oxidised low density lipoprotein (oxLDL, "bad cholesterol"), advanced glycosylation end products (AGEs) of diabetes, angiotensin II and endothelin. Substantial work has clarified macrophage activation by OxLDL via macrophage scavenger receptors (MSRs), especially MSRA and CD36. Activated macrophages express effector molecules that kill cells and degrade extracellular matrix. These include Fas-L and nitric oxide (NO). Macrophage NO is derived from the high output inducible nitric oxide synthase (iNOS) pathway and upregulates vascular smooth muscle (VSMC) cell surface Fas, priming them for apoptosis. Activated macrophages express surface Fas-L, similar to cytotoxic T-lymphocytes and natural killer cells. Since VSMCs promote plaque stability, VSMC apoptosis may promote plaque rupture. Macrophages express multiple metalloproteinases (e.g. stromelysin) and serine proteases (e.g. urokinase) that degrade the extracellular matrix, weakening the plaque and making it rupture prone. Macrophages secrete numerous other effectors including reactive oxygen species, eicosanoids, tumour necrosis factor alpha and interleukin-1. Macrophage-derived transforming growth factor beta promotes fibrosis. Existing cardiovascular treatments including angiotensin II receptor antagonists and angiotensin converting enzyme inhibitors, aspirin, cholesterol reduction agents especially statins may inhibit macrophages. The interaction of NO-donors with macrophages and apoptosis is complex and bifunctional. Traditional anti-inflammatory agents such as glucocorticoids and cyclophosphamide have very serious side effects and are probably inappropriate. Novel anti-inflammatory agents e.g. new immunosuppressives and anti-TNF therapy may have an improved cost-benefit ratio.
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PMID:Macrophage activation in atherosclerosis: pathogenesis and pharmacology of plaque rupture. 1563 83

The spontaneously hypertensive stroke-prone rat (SHR-SP) is an experimental model of malignant hypertension which lead to secondary alterations of the extracellular matrix. Our aim was to determine ACE-inhibitor related changes of proteases involved in the reconstruction of the extracellular matrix in the brain. Twelve SHR-SP rats were randomized into two groups. Each group was treated with either an antihypertensive dose of ramipril or placebo for 6 months. Brain tissue plasminogen activator (t-PA) and urokinase (u-PA) were quantified by using casein-dependent plasminogen zymography, matrix metalloproteinase (MMP)-2 and MMP-9, by MMP-zymography, and tissue inhibitor of MMP (TIMP)-1 and -2, by reverse zymography. The amounts of u-PA, t-PA, and MMPs were significantly reduced in animals treated with ACE inhibitor. Plasminogen zymography showed a 39% reduction of u-PA in the basal ganglia (p < 0.0001); t-PA expression was reduced by 26% in the cortex and by 33% in the basal ganglia (p < 0.0001). MMP-2 expression was reduced by 15% in the cortex (p < 0.05) and by 10% in the basal ganglia (p < 0.05); MMP-9 expression significantly decreased by 37% in the cortex and by 25% in the basal ganglia (p < 0.0001 each). No differences were observed in the amount of TIMP-1 or TIMP-2. These findings provide new insights into the biochemical mechanisms underlying extracellular matrix proliferation and its modulation by ACE inhibitors. Therapeutic alterations that influence the proteolytic systems might prove important in the prevention of extracellular matrix accumulation and secondary microvascular vessel wall changes.
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PMID:ACE inhibition reduces activity of the plasminogen/plasmin and MMP systems in the brain of spontaneous hypertensive stroke-prone rats. 1572 Dec 22


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