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)

The human heart is a target organ for the octapeptide hormone, angiotensin II (Ang II). Recent studies suggest that the human heart contains a dual pathway of Ang II formation in which the major Ang II-forming enzymes are angiotensin I-converting enzyme (ACE) and chymase. Human heart chymase has recently been purified and its cDNA and gene cloned. This cardiac serine proteinase is the most efficient and specific Ang II-forming enzyme described. To obtain insights into the cardiac sites of chymase-dependent Ang II formation, we examined the cellular localization and regional distribution of chymase in the human heart. Electron microscope immunocytochemistry using an anti-human chymase antibody showed the presence of chymase-like immunoreactivity in the cardiac interstitium and in cytosolic granules of mast cells, endothelial cells, and some mesenchymal interstitial cells. In the cardiac interstitium, chymase-like immunoreactivity is associated with the extracellular matrix. In situ hybridization studies further indicated that chymase mRNA is expressed in endothelial cells and in interstitial cells, including mast cells. Tissue chymase levels were determined by activity assays and by Western blot analyses. Chymase levels were approximately twofold higher in ventricles than in atria. There were no significant differences in chymase levels in ventricular tissues obtained from non-failing donor hearts, failing ischemic hearts, or hearts from patients with ischemic cardiomyopathy. These findings suggest that a major site of chymase-dependent Ang II formation in the heart is the interstitium and that cardiac mast cells, mesenchymal interstitial cells, and endothelial cells are the cellular sites of synthesis and storage of chymase. In the human heart, because ACE levels are highest in the atria and chymase levels are highest in ventricles, it is likely that the relative contribution of ACE and chymase to cardiac Ang II formation varies with the cardiac chamber. Such differences may lead to differential suppression of cardiac Ang II levels during chronic ACE inhibitor therapy in patients with congestive heart failure.
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PMID:Cellular localization and regional distribution of an angiotensin II-forming chymase in the heart. 768 66

Angiotensin (Ang) II plays a crucial role in regulation of blood pressure and proliferation of vascular tissues. Recent studies have demonstrated that the AngII-forming enzymes, ACE and chymase, are observed in heart and vascular tissues. In isolated human arteries, chymase predominantly converted Ang I to AngII rather than ACE. In hypertensive models, AngII formation by ACE in vascular tissues plays an important role in maintaining hypertension, while that by chymase hardly does. Chymase-dependent AngII formation induces vascular diseases such as neointima formation after balloon injury. AngII receptor antagonists block AngII formation by chymase in addition to ACE and may be useful for cardiovascular diseases rather than ACE inhibitors.
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PMID:[Role of angiotensin II-forming enzymes, angiotensin-converting enzyme and chymase]. 1036 38

The molecular mechanism involved in pulmonary vascular disease (PVD) associated with congenital heart disease (CHD) remains uncertain. Evidence suggesting that angiotensin converting enzyme plays an important role in pulmonary vascular pathology led us to hypothesize that mast cell chymase, another angiotensin I converting enzyme, also had the potential to contribute to the development of PVD in CHD. Twenty-three patients 3 mo to 45 yr of age with atrial or ventricular or both septal defects with increased pulmonary arterial blood flow and pressure, with pulmonary vascular resistance ranging from 1.3 to 8.1 units/m(2), were studied. Mast cells and mast cell chymase were immunohistochemically identified in the lung biopsy tissues obtained during corrective surgery. There was a significant difference in numbers of total mast cells between patients (n = 23) and control subjects (n = 10) with normal pulmonary circulation (p < 0.01). Moreover, chymase-containing mast cells in the lung tissues of patients with CHD showed striking differences from those of control subjects. In the patients, 72% of lung mast cells contained chymase, compared with only 15% in control subjects (p < 0.0001). Chymase-containing mast cells predominantly appeared in the media and adventitia of vessel walls. Importantly, angiotensin II was immunohistochemically detected in perivascular lesions where chymase was present, but not in the lesions where chymase was sparsely seen. Furthermore, the number of chymase-containing mast cells was correlated with pulmonary vascular resistance (r = 0.64). These findings suggest a possible role of mast cell chymase in the development of early-stage PVD in patients with CHD.
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PMID:Increased expression of mast cell chymase in the lungs of patients with congenital heart disease associated with early pulmonary vascular disease. 1050 22

Roles of each angiotensin II producing enzymes of each of the angiotensin II-producing enzymes were reviewed based on experimental models. In vascular tissues, angiotensin II is potentially cleaved from angiotensin I by angiotensin converting enzyme (ACE) and chymase. It has been confirmed that vascular tissues of humans, monkeys, dogs and hamsters have a chymase-dependent angiotensin II-forming pathway. Much like other hypertensive models, hamster hypertensive models show high levels of vascular ACE activity, but not chymase activity. In hypertensive hamsters, administration of either an ACE inhibitor or an angiotensin II type 1 (AT1) receptor antagonist resulted in similar reductions in blood pressure, suggesting that chymase is not involved in the maintenance of high blood pressure in this model. In monkeys fed a high-cholesterol diet, ACE activity was increased in the atherosclerotic lesions, and an ACE inhibitor and an AT1 receptor antagonist prevented atherosclerosis to a similar degree, suggesting that ACE may be mainly involved in the development of atherosclerosis. After balloon injury in dog vessels, both ACE and chymase activities were locally increased about 3-fold in the injured arteries, and an AT1 receptor antagonist was effective in preventing the intimal formation, but an ACE inhibitor was ineffective. In dog grafted veins, the activities of chymase were increased 15-fold, but those of ACE were increased only 2-fold, and the intimal formation was suppressed by either an AT1 receptor antagonist or a chymase inhibitor. In the normal vascular tissues, ACE plays a crucial role for angiotensin II production, whereas chymase is stored in mast cells in an inactive form. Chymase acquires the ability to form angiotensin II following mast cells activation followed by mast cells activation by a strong stimulus such as occurs in catheter-injury or grafting. Together, these results indicate that chymase plays a major role in the vascular angiotensin II-generating system, particularly in cases of vascular injury.
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PMID:Local angiotensin II-generating system in vascular tissues: the roles of chymase. 1140 39

Chymase may play an important role in vascular proliferation, as shown by in-vitro experiments, but the role of chymase in vivo has been unclear. In this study, we investigated the effect of a novel chymase inhibitor, NK3201, on this proliferation in dog grafted veins. NK3201 inhibited human and dog chymases, but not rabbit ACE. NK3201 suppressed the Ang I-induced vascular contraction in isolated dog arteries in the presence of an ACE inhibitor, and the IC50 value of chymostatin and NK3201 in dog artery was 320 nM. In dog, the concentration of NK3201 in blood was about 10 microM at 24 h after oral administration of the drug (5 mg/kg). In the group treated with NK3201, each dog was administered orally 5 mg/kg per day from 5 days before to the day before the removal of the grafted veins. Each dog underwent right common carotid artery bypass grafting with the ipsilaterial external jugular vein. By 28 days after grafting, a significant vascular proliferation was observed in the grafted veins and the chymase activity was also increased significantly. Treatment with chymase inhibitor significantly suppressed the proliferation of the grafted veins and the increased chymase activity. In this study, we demonstrate for the first time that oral administration of a specific chymase inhibitor, NK3201, appears useful for preventing vascular proliferation.
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PMID:Oral administration of a specific chymase inhibitor, NK3201, inhibits vascular proliferation in grafted vein. 1166 34

Chymase mediates a major alternative way of angiotensin II production from angiotensin I beside angiotensin converting enzyme in the final step of the renin-angiotensin system. This enzyme is also involved in other physio-pathological processes such as angiogenesis, atherosclerosis and inflammation. Several purification attempts of natural or recombinant chymase were reported in the literature. Most of these reports were not successful in obtaining the recombinant enzyme in a highly active form and in large quantity. In the present study, we describe a facile route for the purification of the human recombinant chymase. Chymase being produced as inactive prochymase, to be cathepsin C-activated, newly raised anti-chymase Ig were used to follow the purification. In order to complete the available tools for the search of chymase inhibitors, we developed and assessed a new 96-well plate based assay for the measurement of enzyme activity, as well as a low throughput, HPLC-based one. The assays used an original derivative of angiotensin I, or the native hormone. Chymase was produced in CHO cells and appropriately matured. The amount of enzyme obtained at the end of the process is compatible with the medium-throughput screening (up to 10,000 points per day), about 800 microg x L(-1) of culture medium with a specific activity of 6.16 mmol of angiotensin I cleaved per minute per mg of protein. All the biological and technical tools are now available for the discovery of new classes of chymase inhibitors.
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PMID:Development of new assays and improved procedures for the purification of recombinant human chymase. 1172 76

In the normal state, vascular ACE regulates local angiotensin II formation and plays a crucial role in the regulation of blood pressure, whereas chymase is stored in secretory granules in mast cells and has no enzymatic effects such as angiotensin II-forming activity. Chymase has a maximal activity immediately upon release into the extracellular matrix in vascular tissues after mast cells have been activated by a strong stimulus such as experienced by catheter-injured and grafted vessels. Therefore, chymase plays an important role in forming local angiotensin II when vascular tissues are injured, and inhibition of chymase may be useful for preventing vascular proliferation in grafted vessels and after PTCA (Figure 6).
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PMID:Role of chymase on vascular proliferation. 1196 91

The role of a dual angiotensin (Ang) II-forming pathway from the local renin angiotensin system (RAS) of the cardiac tissue was determined in a hamster model of cardiac hypertrophy. Time-dependent expressions of chymase and angiotensin converting enzyme (ACE) genes and their enzymes activities, and Ang II levels were measured in the hamster heart at 3 days, and at 4 and 8 weeks after pressure overload. Cardiac hypertrophy was induced by an operation to constrict the abdominal aorta. Compared to the sham-operated group, the cardiomyocyte diameters of hamster hearts at 3 days after overload underwent no obvious changes, while those at 4 and 8 weeks after overload increased markedly (p<0.01), and both transcriptional expressions of chymase and ACE genes gradually increased in the hamster hearts at 3 days, and at 4 and 8 weeks after overload, but the transcriptional expressions of angiotensin II type 1 receptor (AT1R) gene gradually decreased. Chymase and ACE activities (U/mg) (0.441+/-0.040 vs. 0.175+/-0.014, 0.446+/-0.036 vs. 0.160+/-0.016 and 0.522+/-0.014 vs. 0.148+/-0.038) (p<0.01) and (0.142+/-0.023 vs. 0.056+/-0.038, 0.317+/-0.017 vs. 0.079+/-0.016 and 0.466+/-0.010 vs. 0.098+/-0.003) (p<0.01), respectively and Ang II levels (pg/g) (98.7+/-4.5 vs. 71.2+/-4.9, 134.4+/-7.8 vs. 71.9+/-12.8 and 151.6+/-10.1 vs. 80.7+/-3.0) gradually increased in the hamster hearts, vs. sham treatment, respectively, at 3 days, and at 4 and 8 weeks after overload. However, the increases in chymase and ACE activities were much higher than those in their respective mRNA levels, and the levels of chymase activities were also higher than those of ACE activities during the development of cardiac hypertrophy. The results suggested that the increase in Ang II levels via the dual pathway of Ang II formation by chymase and ACE plays an important role in the cardiac hypertrophy of hamsters caused by the overloaded state. Importantly, in the non-hypertrophied hamster heart in the early stage after overload (at 3 days), chymase could be activated by mechanical stress in advance of an increase in its mRNA, and the Ang II level increased significantly.
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PMID:Time-dependent expression of chymase and angiotensin converting enzyme in the hamster heart under pressure overload. 1245 30

Chymase is a chymotrypsin-like serine protease secreted from mast cells. Mammalian chymases are classified into two subgroups (alpha and beta) according to structure and substrate specificity; human chymase is an alpha-chymase. An important action of chymase is the ACE-independent conversion of Ang I to Ang II, but chymase also degrades the extracellular matrix, activates TGF-beta1 and IL-1beta, forms 31-amino acid endothelins and is involved in lipid metabolism. Under physiological conditions, the role of chymase in blood vessels is uncertain. In pathological situations, however, chymase may be important. In animal models of hypertension and atherosclerosis, chymase may be involved in lipid deposition and intimal and smooth muscle hyperplasia, at least in some vessels. In addition, chymase has pro-angiogenic properties. In human diseased blood vessels (e.g. atherosclerotic and aneurysmal aorta; remodeled pulmonary blood vessels), there are increases in chymase-containing mast cells and/or in chymase-dependent conversion of Ang I to Ang II. These findings have raised the possibility that inhibition of chymase may have a role in the therapy of vascular disease. The effects of chymase can theoretically be attenuated either by reducing availability of the enzyme, with a mast cell stabiliser, or alternatively with specific chymase inhibitors. The mast cell stabiliser, tranilast, was shown to be beneficial in animal models of atherosclerosis, where a prevention protocol was used, but was not effective in clinical trials where it was administered after angioplasty. Chymase inhibitors could have the advantage of being effective even if used after injury. Several orally active inhibitors, including SUN-C8257, BCEAB, NK3201 and TEI-E548, are now available. These have yet to be tested in humans, but promising results have been obtained in animal models of atherosclerosis and angiogenesis. It is concluded that orally active inhibitors of chymase may have a place in the treatment of vascular diseases where injury-induced mast cell degranulation contributes to the pathology.
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PMID:Vascular chymase: pathophysiological role and therapeutic potential of inhibition. 1498 62

In vascular tissues, angiotensin II is potentially cleaved from angiotensin I by chymase and angiotensin converting enzyme (ACE). In the normal state, ACE regulates angiotensin II formation and plays a crucial role in the regulation of blood pressure, whereas chymase is stored in mast cells and has no angiotensin II-forming activity. Chymase is activated immediately upon its release into the extracellular matrix in vascular tissues after mast cells have been activated by local stimuli such as vessel injury by grafting or a balloon catheter. In dog grafted veins, vascular proliferation, chymase activity, angiotensin II concentration and mRNA levels of fibronectin, collagen I and collagen III were significantly increased after the operation, while they were significantly suppressed by a chymase inhibitor. A clinical trial of an angiotensin II receptor blocker (ARB) for preventing restenosis after percutaneous transluminal coronary angioplasty was successful, but that of an ACE inhibitor was not. After balloon injury in dog vessels, chymase activity was signifcantly increased in the injured artery, and a chymase inhibitor and an ARB were effective in preventing the vascular proliferation, but an ACE inhibitor was ineffective. On the other hand, a chymase inhibitor, unlike an ACE inhibitor and an ARB, did not affect blood pressure. These reports indicate that local angiotensin II production by chymase is involved only in the intimal hyperplasia seen in the injured vessels. Therefore, chymase inhibitors may be useful for preventing vascular disoders without affecting blood pressure.
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PMID:A novel therapeutic strategy against vascular disorders with chymase inhibitor. 1532 Aug 45


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