Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
 9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was designed to determine whether inhibition of neutral endopeptidase 24.11 (NEP) reduces infarct size and enhances protection afforded by ischemic preconditioning (PC) by elevation of the tissue bradykinin (BK) level in the heart in situ. In experiments to determine a dose of thiorphan (Thio) that inhibits NEP activity in the rabbit, infusion of Thio at a rate of 15 micro g/kg per min was found to be NEP-selective, since it increased the extent and duration of hypotension after BK injection (50 ng/kg and 100 ng/kg, i.v.) but did not inhibit pressor response to angiotensin I (100 ng/kg and 500 ng/kg, i.v.). Infusion of Thio at a rate of 25 micro g/kg per min blunted pressor response to angiotensin I by 30%, suggesting this dose partially inhibits angiotensin-converting enzyme activity. In the second series of experiments, myocardial infarction was induced by 30-min coronary occlusion and 3-h reperfusion in rabbits. In untreated controls, infarct size as a percentage of area at risk (%IS/AR) was 50.1+/-4.1%, and infusion of Thio at 15 micro g/kg per min and 25 micro g/kg per min failed to limit infarct size (54.3+/-4.0% and 50.1+/-2.8%, respectively). However, these doses of Thio significantly reduced %IS/AR when combined with PC with 2-min ischemia to 25.7+/-3.3% and 19.7+/-3.1%, respectively, although this submaximal PC protocol alone did not achieve significant cardioprotection (%IS/AR=35.6+/-4.0%). This effect of Thio on PC was abolished by pretreatment with icatibant (2 micro g/kg), a BK B(2) receptor blocker. The results of the present study suggest that NEP inhibition does not increase anti-infarct tolerance of the myocardium but significantly enhances cardioprotection of PC via a B(2) receptor-mediated mechanism.
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PMID:Effects of neutral endopeptidase 24.11 inhibition on myocardial infarct size and ischemic preconditioning in rabbits. 1223 47

Diabetes mellitus impairs the cardiac kallikrein-kinin system by reducing cardiac kallikrein (KLK) and kininogen levels, a mechanism that may contribute to the deleterious outcome of cardiac ischemia in this disease. We studied left ventricular (LV) function and bradykinin (BK) coronary outflow in buffer-perfused, isolated working hearts (n = 7) of controls and streptozotocin (STZ)-induced diabetic rats before and after global ischemia. With the use of selective kininase inhibitors, the activities of angiotensin I-converting enzyme, aminopeptidase P, and neutral endopeptidase were determined by analyzing the degradation kinetics of exogenously administered BK during sequential coronary passages. Basal LV function and coronary flow were impaired in STZ-induced diabetic rats. Neither basal nor postischemic coronary BK outflow differed between control and diabetic hearts. Reperfusion after 15 min of ischemia induced a peak in coronary BK outflow that was of the same extent and duration in both groups. In diabetic hearts, total cardiac kininase activity was reduced by 41.4% with an unchanged relative kininase contribution compared with controls. In conclusion, despite reduced cardiac KLK synthesis, STZ-induced diabetic hearts are able to maintain kinin liberation under basal and ischemic conditions because of a primary impairment or a secondary downregulation of kinin-degrading enzymes.
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PMID:Cardiac kinin level in experimental diabetes mellitus: role of kininases. 1263 59

Sarcolemmal ATP-sensitive potassium (KATP) channels have been mentioned to participate in preconditioning protection. Since these channels are altered in diabetes, it would be possible that preconditioning does not develop in diabetic (D) hearts. The purpose of this study was to assess whether early (EP) and late (LP) ischemic preconditioning protect diabetic hearts against stunning in a conscious diabetic sheep model and whether diabetes might have altered KATP channel functioning. Sheep received alloxan monohydrate (1 g) and were ascribed to three experimental groups: control (DC, 12 min of ischemia (I) followed by 2 h of reperfusion (R)), early preconditioning (DEP, six 5 min I-5 min R periods were performed before the 12 min I) and late preconditioning (DLP, same as DEP except that the preconditioning stimulus was performed 24 h before the 12 min I). Regional mechanics during reperfusion was evaluated as the percent recovery of wall thickening fraction (%WTH) expressed as percentage of basal values (100%) and KATP behaviour was indirectly assessed by monophasic action potential duration (MAPD) and sensitivity to glibenclamide blockade (0.1 and 0.4 mg/Kg). The results were compared to those obtained in normal (N) sheep. EP and LP protected against stunning in normal sheep (%WTH: NC = 63 +/- 3.7, NLP = 80 +/- 5**, NEP = 78 +/- 3*, *p < 0.05 and **p < 0.01 against NC) whereas contrary results occurred in diabetic ones, where DLP (%WTH = 60 +/- 4) afforded a similar recovery to DC (%WTH = 54 +/- 5) and DEP surprisingly worsened instead of improving mechanical function (%WTH = 38 +/- 6, p < 0.01 against DC). KATP channel behaviour appeared altered in diabetic hearts as shown by MAPD during ischemia in normal sheep (153 +/- 9 msec) compared to diabetic ones (128 +/- 11 msec, p < 0.05) and by the sensitivity to glibenclamide (while 0.4 mg/Kg blocked action potential shortening in normal and diabetic animals, 0.1 mg/Kg completely blocked KATP in diabetic but not in normal hearts, p < 0.05). A sarcolemmal KATP channel dysfunction might afford a primary approach to explain the absence of ischemic preconditioning protection against stunning in diabetic sheep.
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PMID:Absence of ischemic preconditioning protection in diabetic sheep hearts: role of sarcolemmal KATP channel dysfunction. 1295 94

Bradykinin is an important endogenous trigger of myocardial ischemic preconditioning (IPC). Through simultaneous inhibition of neutral endopeptidase and angiotensin converting enzyme, omapatrilat prevents enzymatic degradation of bradykinin. The aim of this study was to investigate if omapatrilat, through its ability to augment bradykinin levels, can augment a subthreshold IPC stimulus (Sub-IPC) and to compare the action of omapatrilat with the angiotensin-converting enzyme inhibitor, captopril. Langendorff perfused rat hearts were subjected to 35 min left coronary artery occlusion and 120 min reperfusion. Full IPC was induced with 5 min global ischemia/10 min reperfusion and substantially limited infarct size (21.5 +/- 3.5% of risk zone vs 53.4 +/- 2.0% in controls, P < 0.01). Sub-IPC (2 min global ischemia/10 min reperfusion) did not limit infarct size (48.4 +/- 3.8%). Omapatrilat (10 micromol/L) or captopril (200 micromol/L) were administered alone or in conjunction with Sub-IPC. Reduced infarct size comparable to that observed with the full IPC protocol was seen when sub-IPC was combined with either omapatrilat (19.7 +/- 2.5%) or captopril (20.3 +/- 4.9%). Omapatrilat alone caused modest reduction of infarct size (34.6 +/- 1.5%, P < 0.01 v control), an effect not observed with captopril. Hoe140, a selective kinin B(2) receptor antagonist, eliminated the cardioprotective effect of omaptrilat alone or in combination with sub-IPC. We conclude that omapatrilat elicits cardioprotection via inhibition of bradykinin degradation and that dual inhibition of angiotensin-converting enzyme and neutral endopeptidase may have beneficial effects beyond standard angiotensin-converting enzyme inhibitor therapy in patients with acute coronary syndromes who are at risk of myocardial infarction.
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PMID:Omapatrilat limits infarct size and lowers the threshold for induction of myocardial preconditioning through a bradykinin receptor-mediated mechanism. 1516 74

The origin of the endothelial damage leading to the ischemia-reperfusion injury after lung transplantation has not been elucidated. We postulated that neurotransmitters released during the preservation of the donor lung might explain this vascular derangement. Thus, in isolated rabbit lungs preserved over 24 hours, we evaluated the release of acetylcholine (ACh) and substance P (SP), the activity of their major degrading enzymes, acetylcholinesterase (AChE) and neutral endopeptidase (NEP), and changes in the capillary permeability. Both neurotransmitters showed the highest release rate in the first 15 minutes, followed by a sharp exponential decrement at 1, 6, 12 and 24 hours. AChE and NEP activities showed no variation at these time intervals. Basal capillary permeability significantly increased (P<0.01) after 24 hours preservation with saline. This increased permeability was avoided (P<0.01) by the SP fragment 4-11 (an SP receptors antagonist), but not by atropine. These results suggest for the first time a pathogenic role of SP in the ischemia-reperfusion injury, and thus the potential usefulness of SP antagonists as additives in the lung preservation solutions should be explored.
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PMID:Possible role of substance P in the ischemia-reperfusion injury in the isolated rabbit lung. 1528 Jun 94

The levels of amyloid beta-peptides (Abeta) in the brain represent a dynamic equilibrium state as a result of their biosynthesis from the amyloid precursor protein (APP) by beta- and gamma-secretases, their degradation by a team of amyloid-degrading enzymes, their subsequent oligomerization, and deposition into senile plaques. While most therapeutic attention has focused on developing inhibitors of secretases to prevent Abeta formation, enhancing the rate of Abeta degradation represents an alternative and viable strategy. Current evidence both in vivo and in vitro suggests that there are three major players in amyloid turnover: neprilysin, endothelin converting enzyme(s), and insulin-degrading enzyme, all of which are zinc metallopeptidases. Other proteases have also been implicated in amyloid metabolism, including angiotensin-converting enzyme, and plasmin but for these the evidence is less compelling. Neprilysin and endothelin converting enzyme(s) are homologous membrane proteins of the M13 peptidase family, which normally play roles in the biosynthesis and/or metabolism of regulatory peptides. Insulin-degrading enzyme is structurally and mechanistically distinct. The regional, cellular, and subcellular localizations of these enzymes differ, providing an efficient and diverse mechanism for protecting the brain against the normal accumulation of toxic Abeta peptides. Reduction in expression levels of some of these proteases following insults (e.g., hypoxia and ischemia) or aging might predispose to the development of Alzheimer's disease. Conversely, enhancement of their levels by gene delivery or pharmacological means could be neuroprotective. Even a relatively small enhancement of Abeta metabolism could slow the inexorable progression of the disease. The relative merits of targeting these enzymes for the treatment of Alzheimer's disease will be reviewed and possible side-effects of enhancing their activity evaluated.
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PMID:Targeting amyloid-degrading enzymes as therapeutic strategies in neurodegeneration. 1568 97

Alzheimer's disease (AD) is linked to certain common brain pathologies (e.g., ischemia, stroke, and trauma) believed to facilitate its development and progression. One of the logical approaches to this problem is to study the effects of ischemia and hypoxia on the metabolism of amyloid precursor protein, which plays one of the key roles in the pathogenesis of AD. This involves an analysis of (1) proteases, which participate in proteolysis of amyloid precursor protein either by the nonamyloidogenic route (alpha-secretase) or the amyloidogenic pathway and lead to formation of toxic beta-amyloid peptides (beta- and gamma-secretases) and (2) several metallopeptidases that might play a role in degradation of beta-amyloid peptide (Abeta). The study of the effects of prenatal hypoxia and acute hypoxia in adult animals allowed us to conclude that oxygen deprivation results not only in an increase of amyloid precursor protein expression in the brain but also in a decrease in the activity of alpha-secretase. In some brain structures involved in AD pathology (the cortex and striatum), we also observed a decrease in the expression of two of the Abeta degrading enzymes, neprilysin and endothelin-converting enzyme, after hypoxia. A decrease in expression of these metalloproteases was also observed in the model of four-vessel occlusion ischemia in rats with their restoration to the control levels after reperfusion. Preconditioning to mild hypoxia both in the prenatal period and in adults appeared to have a neuroprotective effect restoring, in particular, the levels of amyloid precursor protein, activity of alpha-secretase, and expression of neprilysin and endothelin-converting enzyme to their control values.
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PMID:Effect of hypoxia/ischemia and hypoxic preconditioning/reperfusion on expression of some amyloid-degrading enzymes. 1568 98

The objective of the present study was to assess the cardioprotective effect of dual NEP-ACE inhibition in relation to endogenous cardiac bradykinin (BK), its active metabolite des-Arg9-BK, endogenous brain natriuretic peptides (BNP), and cGMP. Rats were treated with the dual metallopeptidase inhibitor, omapatrilat, or the ACE inhibitor, ramipril, for 7 d (1 mg.kg(-1).d(-1)). Hearts were then isolated and subjected to a zero-flow ischemia and reperfusion (except controls), in the absence or presence of either a B2-receptor antagonist (Hoe-140), a B1-receptor antagonist (Lys-Leu8-des-Arg9-BK), or the GC-A/GC-B-receptor antagonist (HS-142-1). Chronic omapatrilat and ramipril increased the amount of endogenous BK collected upon reperfusion, but only ramipril increased that of des-Arg9-BK. Only omapatrilat increased both peak BNP and peak cGMP upon reperfusion, those increases being blocked by Hoe-140. Chronic omapatrilat (but not ramipril) decreased the total noradrenaline and lactate dehydrogenase release during the reperfusion period. Importantly, only omapatrilat improved the functional recovery of the ischemic reperfused heart, with a reduced left ventricular end-diastolic pressure, and improved developed left ventricular pressure. All cardio protective effects of omapatrilat were blocked by Hoe-140 and by HS-142-1, but not by the B1-receptor antagonist. In conclusion, a chronic treatment with a dual metallopeptidase inhibitor demonstrated a cardioprotective action not observed with an ACE inhibitor in a context of severe ischemia in rat isolated hearts, which was mediated by both endogenous BK and BNP.
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PMID:The cardioprotective effect of dual metallopeptidase inhibition: respective roles of endogenous kinins and natriuretic peptides. 1579 Dec 90

Pathogenesis of Alzheimer's disease (AD), which is characterised by accumulation of extracellular deposits of beta-amyloid peptide (Abeta) in the brain, has recently been linked to vascular disorders such as ischemia and stroke. Abeta is constantly produced in the brain from amyloid precursor protein (APP) through its cleavage by beta- and gamma-secretases and certain Abeta species are toxic for neurones. The brain has an endogenous mechanism of Abeta removal via proteolytic degradation and the zinc metalloproteinase neprilysin (NEP) is a critical regulator of Abeta concentration. Down-regulation of NEP could predispose to AD. By comparing the effects of hypoxia and oxidative stress on expression and activity of the Abeta-degrading enzyme NEP in human neuroblastoma NB7 cells and rat primary cortical neurones we have demonstrated that hypoxia reduced NEP expression at the protein and mRNA levels as well as its activity. On contrary in astrocytes hypoxia increased NEP mRNA expression.
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PMID:Effects of hypoxia and oxidative stress on expression of neprilysin in human neuroblastoma cells and rat cortical neurones and astrocytes. 1748 46

Proteolytic enzymes constitute around 2% of the human genome and are involved in many stages of cell development from fertilization to death (apoptosis). The identification of many novel proteases from genome-sequencing programs has suggested them as potential new therapeutic targets. In addition, several well-characterized metallopeptidases were recently shown to possess new biological roles in neuroinflammation and neurodegeneration. As a result of these studies, metabolism of the neurotoxic and inflammatory amyloid peptide (Abeta) is considered as a physiologically relevant process with several metallopeptidases being suggested for the role of amyloid-degrading enzymes. These include the neprilysin (NEP) family of metalloproteinases (including its homologue endothelin-converting enzyme), insulin-degrading enzyme, angiotensin-converting enzyme, plasmin, and, possibly, some other enzymes. NEP also has a role in metabolism of sensory and inflammatory neuropeptides such as tachykinins and neurokinins. The existence of natural enzymatic mechanisms for removal of amyloid peptides has extended the therapeutic avenues in Alzheimer's disease (AD) and neurodegeneration. The proteolytic events underlying AD are highly compartmentalized in the cell and formation of amyloid peptide from its precursor molecule APP (amyloid precursor protein) takes place both within intracellular compartments and in the plasma membrane, especially in lipid raft domains. Degradation of amyloid peptide by metallopeptidases can also be both intra- and extracellular depending on the activity of membrane-bound enzymes and their soluble partners. Soluble forms of proteases can be secreted or released from the cell surface through the activity of "sheddases"-another group of proteolytic enzymes involved in key cellular regulatory functions. The activity of proteases involved in amyloid metabolism depends on numerous factors (e.g., genetic, environmental, age), and some conditions (e.g., hypoxia and ischemia) shift the balance of amyloid metabolism toward accumulation of higher concentrations of Abeta. In this regard, regulation of the activity of amyloid-degrading enzymes should be considered as a viable strategy in neuroprotection.
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PMID:New insights into the roles of metalloproteinases in neurodegeneration and neuroprotection. 1767 58


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