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:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chymase is a chymotrypsin-type serine protease mainly localized in mast cells (MCs). Human, primate, and dog chymase generate angiotensin II (Ang II) from Ang I, while mouse and rat chymases degrade Ang II. It is suggested that chymase generating Ang II might be an alternative Ang II-forming enzyme to angiotensin-converting enzyme (ACE) in the renin-angiotensin system in tissues, but not in blood, and cause hypertrophy and remodeling of cardiovascular tissues. Chymase also degrades extracellular matrix, and processes procollagenase, inflammatory cytokines and other bioactive peptides. As a result, chymase plays important roles in inflammatory tissues through its proteolytic activities to cause tissue remodeling, that is, a chymase inhibitor may have the ability to prevent diseases caused by the above inflammatory reactions. The investigation of chymase inhibitors by pharmaceutical companies has yielded peptide and peptide mimetic inhibitors. We also found potent non-peptide low molecular inhibitors. However, the in vivo functions of chymase have not been verified so far by applying a chymase inhibitor to in vivo pathological models. In this article, we overview the pathophysiological roles of chymase and chymase inhibitors proposed to date, and discuss the structure-activity relationships of substituted 3-phenylsulfonyl-1-phenylimidazolidine-2,4-dione derivatives.
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PMID:Chymase: its pathophysiological roles and inhibitors. 1019 55

The renin-angiotensin system has been studied and recognized as one of the major blood pressure-regulating systems for the past century. In the last quarter century, however, many alternative pathways of angiotensin II formation have been found, and among them, chymase has been a focus of interest because of its specificity and potency in the human cardiovascular system. Chymase evidently is not involved in functional regulation of blood pressure at least in the short term, but evidence is accumulating that it may be involved in structural remodeling of the cardiovascular system. We found increased vascular chymase activity in atherosclerotic lesions of the human aorta as well as in cardiac remodeling after myocardial infarction. We found a significant positive correlation between serum total or LDL cholesterol levels and arterial chymase-dependent angiotensin II-forming activity in patients who were undergoing coronary artery bypass operation, suggesting that high serum cholesterol may trigger upregulation of vascular chymase and facilitate the development of atherosclerosis. This hypothesis was tested in Syrian hamsters fed a high cholesterol diet containing 0.5% cholesterol: A marked lipid deposition in the aortic cusp developed and the plasma cholesterol levels were positively correlated with aortic chymase activity. An orally active nonpeptide chymase inhibitor almost canceled this lipid deposition. These clinical and experimental data indicated an association between cholesterol and vascular chymase upregulation that may facilitate the development of atherosclerosis.
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PMID:Hypothesis regarding the pathophysiological role of alternative pathways of angiotensin II formation in atherosclerosis. 1104 Feb 50

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

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

Autosomal dominant polycystic kidney disease (ADPKD) is characterized by exuberant inflammation and fibrosis, a process believed to contribute to progressive loss of normal renal function. Despite early-onset hypertension and intrarenal renin/angiotensin II (AngII) activation, angiotensin-converting enzyme (ACE) inhibition does not consistently confer renal protection in ADPKD. The hypothesis was that mast cells within the inflammatory interstitium release chymase, an enzyme capable of efficient conversion of AngI to AngII, providing an ACE-independent route of AngII generation. End-stage ADPKD renal tissue extracts and cyst fluids were assayed for time-dependent, chymostatin-inhibitable conversion of (125)I-AngI to (125)I-AngII under conditions of ACE and aminopeptidase inhibition by means of HPLC. Thirteen of 14 ADPKD kidney extracts exhibited chymase-like AngII-generating capacity; calculated initial reaction rates averaged 3.9 +/- 2.9 fmol AngII/min/ micro g protein with a mean maximal conversion of 55% +/- 30% of added substrate. AngII-generating activity was both protein and substrate dependent. All five cyst fluid samples were negative. Chymase-like activity was detectable in only three of six non-ADPKD kidney extracts. Immunoreactive chymase protein was present in/around mast cells within the fibrotic renal interstitium in all samples. Findings demonstrate for the first time the presence of mast cells, mast cell-associated immunoreactive chymase protein, and chymase-like AngII generating capacity in ADPKD cystic kidneys. Results support the potential for ACE-independent AngII generation and for mast cell-initiated inflammatory processes in ADPKD, each with therapeutic implications for ADPKD renal progression.
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PMID:Chymase-like angiotensin II-generating activity in end-stage human autosomal dominant polycystic kidney disease. 1474 98

Activity of the renin-angiotensin-aldosterone system (RAAS) is increased in patients with heart failure, and its maladaptive mechanisms may lead to adverse effects such as cardiac remodelling and sympathetic activation. Elevated renin activity has been demonstrated in patients with dilated cardiomyopathy. (Third- generation synthetic non-peptide renin inhibitors, with more favourable properties than earlier renin inhibitors, lower ambulatory blood pressure and may have a role to play in other cardiovascular disease.) Chymase, a protease inhibitor stored in mast cells that generates angiotensin II (Ang II) (in addition to angiotensin-converting enzyme [ACE]), has been linked to extracellular matrix remodelling in heart failure. Again, chymase inhibitors have been developed to investigate its functions in vitro and in vivo . Bradykinin is thought to contribute to the cardioprotective effect of ACE inhibition through modification of nitric oxide release, calcium handling and collagen accumulation. Ang II is believed to influence a number of molecular and structural changes in the heart, mostly mediated through the AT1-receptor. The importance of the RAAS in heart failure is shown by the survival benefit conferred by treatment with ACE inhibitors.
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PMID:The role of the renin-angiotensin-aldosterone system in heart failure. 1552 42

The renin-angiotensin system is a key target for drugs combating cardiovascular disease. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor type-1 (AT1 receptor) blockers are well known. However, angiotensin peptides can be generated through a number of pathways besides the classic system. This review outlines some of these pathways, their relation to the classic system and the likely effect of inhibiting them. Renin is still the key enzyme in angiotensin peptide generation and seems to be the only route to angiotensin I formation in vivo. Renin inhibitors may have some advantages in terms of specificity. Also, by blocking angiotensin I generation, the production of downstream bioactive angiotensin I metabolites should also be blocked. Chymase, a mast cell serine protease, cleaves angiotensin I to produce angiotensin II and may be important at sites of inflammation such as atherosclerotic plaque. Angiotensin-converting enzyme 2 (ACE2), a carboxypeptidase structurally related to ACE but resistant to ACE inhibitors, has a protective effect on cardiac function. Neutral endopeptidase 24.11 breaks down both atrial natriuretic peptide and angiotensin II. Inhibiting it potentiates the action of endogenous atrial peptide but only affects circulating angiotensin II when basal levels are above normal. Dual inhibitors of ACE and endopeptidase 24.11 may be of value where there is both sodium retention and increased angiotensin II. Targeting the renin-angiotensin system by gene therapy or antibody treatment may provide a longer-term treatment for hypertension.
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PMID:Targeting the renin-angiotensin system: what's new? 1563 41

Chymase degrades angiotensin I (AI) to form angiotensin II (AII), probably constituting a bypass of the renin-angiotensin cascade. Chymase activity increases in some vascular diseases. In the kidney, an increase in chymase activity was reported in an animal model of ischemic kidney of renovascular hypertension (RVH); however, no such evidence has been provided in humans. We treated a 64-year-old patient with severe unilateral RVH and atherosclerosis, for whom removal of the ischemic kidney was the only option. Using immunohistochemical staining, we investigated chymase activity in the removed kidney and associated artery and vein. An increase in chymase activity, together with mast cells infiltrating the interstitium, was observed where interstitial fibrosis was seen. In the renal artery, where severe atherosclerosis was seen, and also in the vein, mast cell infiltration in the adventitia was accompanied by chymase. The captopril test showed an increase in serum aldosterone level, with a concomitant increase in plasma renin activity and decrease in blood pressure. Because the decrease in blood pressure implies a decrease in circulatory AII levels, it is plausible that in this patient, chymase had a role in AII formation in the adrenal gland to stimulate aldosterone secretion. Thus, by means of captopril, AI levels increased, and chymase may have produced AII in loci tissues, which, in turn, stimulated aldosterone secretion. This is the first report of an increase in chymase activity in the interstitium of an ischemic kidney and renal artery and vein in a patient with RVH and atherosclerosis.
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PMID:Mast cell chymase in the ischemic kidney of severe unilateral renovascular hypertension. 1575 63

The discovery of a new angiotensin II (Ang II) pathway generated by mast cell chymase has highlighted new biological functions for Ang II that is not related to the classic renin-angiotensin system (RAS). The conversion of Ang I to II occurs not only via the plasma angiotensin converting enzyme (ACE) or tissue ACE but also via chymase produced in the mast cells of humans, monkeys, dogs, and hamsters. The conversion by chymase has been especially found in morbid tissues following the migration of mast cells. The newly discovered functions of chymase are discussed in this review. During the vascular narrowing that occurs after vein grafting or balloon injury in dogs, chymase activity and Ang II concentrations along with intimal proliferation are significantly increased and chymase inhibitors completely suppressed these increase, though ACE inhibitors are ineffective. Similar results have also been confirmed in the dog arteriovenous fistula stenosis model. In both human and animal aneurysmal aortas, chymase activity is significantly increased, and chymase inhibitor has been shown to prevent the development of aneurysms in dogs. Chymase is activated in diseased hearts, and chymase inhibitors reduce both the mortality rates after acute myocardial infarction and the cardiac fibrosis that leads to the development of cardiomyopathy in hamsters. Chymase is also a pro-angiogenic factor, since the injection of chymase strongly facilitates angiogenesis in hamsters. We propose that chymase inhibitors are effective in the prevention of multiple cardiovascular disorders, especially at the local event level without any effect on the systemic blood pressure.
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PMID:Pathological roles of angiotensin II produced by mast cell chymase and the effects of chymase inhibition in animal models. 1683 49

Cardiac mast cells proliferate in cardiovascular diseases. In myocardial ischemia, mast cell mediators contribute to coronary vasoconstriction, arrhythmias, leukocyte recruitment, and tissue injury and repair. Arrhythmic dysfunction, coronary vasoconstriction, and contractile failure are also characteristic of cardiac anaphylaxis. In coronary atherosclerosis, mast cell mediators facilitate cholesterol accumulation and plaque destabilization. In cardiac failure, mast cell chymase causes myocyte apoptosis and fibroblast proliferation, leading to ventricular dysfunction. Chymase and tryptase also contribute to fibrosis in cardiomyopathies and myocarditis. In addition, mast cell tumor necrosis factor-alpha promotes myocardial remodeling. Cardiac remodeling and hypertrophy in end-stage hypertension are also induced by mast cell mediators and proteases. We recently discovered that cardiac mast cells contain and release renin, which initiates local angiotensin formation. Angiotensin causes coronary vasoconstriction, arrhythmias, fibrosis, apoptosis, and endothelin release, all demonstrated mechanisms of mast-cell-associated cardiac disease. The effects of angiotensin are further amplified by the release of norepinephrine from cardiac sympathetic nerves. Our discovery of renin in cardiac mast cells and its release in pathophysiological conditions uncovers an important new pathway in the development of mast-cell-associated heart diseases. Several steps in this novel pathway may constitute future therapeutic targets.
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PMID:Renin: at the heart of the mast cell. 1749 56


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