EC:3.4.21.37 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.37 (neutrophil elastase)
4,078 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adult respiratory distress syndrome (ARDS) is a serious complication of disseminated intravascular coagulation (DIC) or multiple organ failure. To determine whether recombinant soluble human thrombomodulin (rsTM) may be useful in treating ARDS due to sepsis, we investigated the effect of rsTM on lipopolysaccharide (LPS)-induced pulmonary vascular injury in rats. The intravenous administration of rsTM prevented the increase in pulmonary vascular permeability induced by LPS. Neither heparin plus antithrombin III (AT III) nor dansyl Glu Gly Arg chloromethyl ketone-treated factor Xa (DEGR-Xa), a selective inhibitor of thrombin generation, prevented LPS-induced vascular injury. The agents rsTM, heparin plus AT III, and DEGR-Xa all significantly inhibited the LPS-induced intravascular coagulation. Recombinant soluble TM pretreated with a monoclonal antibody (moAb) that inhibits protein C activation by rsTM did not prevent the LPS-induced vascular injury; in contrast, rsTM pretreated with a moAb that does not affect thrombin binding or protein C activation by rsTM prevented vascular injury. Administration of activated protein C (APC) also prevented vascular injury. LPS-induced pulmonary vascular injury was significantly reduced in rats with leukopenia induced by nitrogen mustard and by ONO-5046, a potent inhibitor of granulocyte elastase. Results suggest that rsTM prevents LPS-induced pulmonary vascular injury via protein C activation and that the APC-induced prevention of vascular injury is independent of its anticoagulant activity, but dependent on its ability to inhibit leukocyte activation.
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PMID:Recombinant human soluble thrombomodulin reduces endotoxin-induced pulmonary vascular injury via protein C activation in rats. 860 7

We evaluated the effects of antithrombin III (AT III) on the pulmonary vascular injury induced by injecting rats with lipopolysaccharide (LPS) to investigate the possible usefulness of AT III as a treatment for acute respiratory distress syndrome. The intravenous administration of AT III prevented the pulmonary accumulation of leukocytes (as evaluated by myeloperoxidase activity) and the increase in pulmonary vascular permeability to 125I-bovine serum albumin induced by LPS. The increase in pulmonary vascular permeability induced by LPS administration was unaffected by various anticoagulants but was inhibited by the leukocytopenia induced by nitrogen mustard or by the administration of a granulocyte elastase inhibitor, ONO-5046. AT III given alone, but not heparin plus AT III or Trp49-modified AT III, which lacks affinity for heparin, significantly increased the plasma concentration of 6-keto-prostaglandin F1alpha, suggesting that the interaction of AT III with heparin-like substances at the endothelial cell surface promotes the release of prostacyclin from endothelial cells in vivo. Trp49-modified AT III failed to prevent the LPS-induced accumulation of leukocytes and vascular injury. The pulmonary accumulation of leukocytes and vascular injury induced by LPS were not prevented by administering AT III to rats that were pretreated with indomethacin. The continuous intravenous infusion of prostacyclin prevented the LPS-induced pulmonary accumulation of leukocytes and vascular injury. Findings suggest that AT III depends on its ability to promote the release of prostacyclin, a potent inhibitor of leukocyte activation, from endothelial cells to prevent pulmonary vascular injury induced by LPS.
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PMID:Attenuation of endotoxin-induced pulmonary vascular injury by antithrombin III. 876 16

The three-dimensional interaction of the enzyme-activated (suicide) inhibitor AA 231-1 [N-(2-chloromethyl)-3, 3-difluoro-azetidin-2-one] with human leukocyte elastase has been studied using computer graphics and molecular mechanics. Systematic conformational analyses and energy minimizations have been performed for the inhibitor AA 231-1 and its presumed complexes formed during the enzymatic process of inactivation, i.e., the Michaelis complex, the acyl-enzyme, and the inactivated enzyme with the covalently bound inhibitor. The beta-lactam ring characteristics of modeled AA 231-1 were in agreement with crystallographic data of related structures. Lowest energy conformations were found when the angle between the planes of the beta-lactam ring and that of its phenyl substituent was about -60 or 60 degrees. To study the interaction with the enzyme, the enzyme-inhibitor complexes were constructed by docking the inhibitor in the active site using enzyme coordinates from an X-ray crystallographic structure. The whole enzyme structure was used for conformational analyses and energy mechanics. Favorable conformations for the Michaelis complex have been obtained in which the carbonyl oxygen of the inhibitor was located in the oxyanion hole and the hydroxyl of Ser195 was in position to interact with the beta-lactam carbonyl carbon on the alpha face of AA 231-1. Simulations of the approach of the benzylic carbon by the nucleophilic amino acid His40 or His57 through an SN2 displacement on the halomethyl group of AA 231-1 were performed. The results agreed with the alkylation of the imidazole nitrogen N epsilon 2 of His57 leading to the inactivated enzyme (bis-adduct form).
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PMID:Interaction of human leukocyte elastase with a N-aryl azetidinone suicide substrate: Conformational analyses based on the mechanism of action of serine proteinases. 890 43

The disposition of L-694,458, a potent monocyclic beta-lactam inhibitor of human leukocyte elastase, was studied in male Sprague-Dawley rats and rhesus monkeys. After iv dosing, L-694,458 exhibited similar pharmacokinetic parameters in rats and rhesus monkeys. The mean values for its plasma clearance, terminal half-life, and volume of distribution at steady state were 27 ml/min/kg, 1.8 hr, and 4.0 liters/kg in rats and 34 ml/min/kg, 2.3 hr, and 5 liters/kg in rhesus monkeys. The bioavailability of a 10 mg/kg oral dose was higher in rats (65%) than in rhesus monkeys (39%). In both species, concentrations of L-694,458 in plasma increased more than proportionally when the oral dose was increased from 10 mg/kg to 40 mg/kg. In monkeys a protracted plasma concentration-time profile was observed at 40 mg/kg, characterized by a delayed T(max) (8-24 hr) and a long terminal half-life (6 hr). [3H]L-694,458 was well absorbed after oral dosing to rats at 10 mg/kg, as indicated by the high recovery of radioactivity in bile (83%) and urine (6%) of bile duct-cannulated rats. Only approximately 5% or less of the radioactivity in bile, urine, and feces was a result of intact L-694,458, indicating that the compound was being eliminated by metabolism, followed by excretion of the metabolites in feces, via bile. Demethylenation of the methylenedioxyphenyl group resulting in the catechol was the primary metabolic pathway in human and rhesus monkey liver microsomes. In rat liver microsomes, the major metabolite was the N-oxide of the methyl-substituted piperazine nitrogen. In rats dosed iv and orally with [3H]L-694,458, concentrations of radioactivity were highest in the lung (the primary target tissue), adrenals, and liver. L-694,458 was unstable in rat blood and plasma, degrading via a pathway believed to be catalyzed by B-esterases and to involve cleavage of the beta-lactam ring and loss of the methylpiperazine phenoxy group. In vitro studies indicated that in human liver, L-694,458 was metabolized by CYP3A and 2C isozymes, and in both monkey and human liver microsomes the compound acted as an inhibitor of testosterone 6beta-hydroxylation.
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PMID:Orally active inhibitors of human leukocyte elastase. II. Disposition of L-694,458 in rats and rhesus monkeys. 928 Apr 1

We found that human matrix metalloproteases (MMPs) may be processed from their proenzyme forms (proMMP) to their active forms by two new and unique mechanisms: Firstly, by bacterial proteases such as Pseudomonas elastase and Vibrio cholerae protease, which cleave off the N-terminal autoinhibitory domain (so-called cysteine switch) from proMMPs. The second mechanism depends on free radical generation by activated polymorphonuclear leukocytes (PMNs). In this case, peroxynitrite (ONOO-) or nitrogen dioxide radical (.NO2), the reaction products of either superoxide (O2.-) or molecular oxygen (O2) and nitric oxide (.NO), are the key reactants. Both O2.- and .NO are generated by activated macrophages and PMNs as a result of immunologic responses involving various proinflammatory cytokines. .NO2 or ONOO- seems to interact with a single cysteine residue in the propeptide autoinhibitory domain, or so-called cysteine switch of proMMPs, thus transforming proMMPs into their active conformation. Furthermore, reactive oxygen species are known to inactivate the alpha1-protease inhibitor (alpha1-PI), a potent neutrophil elastase inhibitor in plasma. In addition, we found that such radicals activate MMPs which degrade and inactivate alpha1-PI by proteolysis. Thus, the activation of MMPs, accompanied by the inactivation of alpha1-PI, will bring about enhanced proteolytic damage to the matrix tissues of the infected sites by both MMPs and elastase.
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PMID:Human matrix metalloprotease activation by insults of bacterial infection involving proteases and free radicals. 952 71

A severe acute pancreatitis was produced by intraperitoneal injection of lipopolysaccharide (LPS) in rats with preexisting hemorrhagic and necrotizing pancreatitis induced by retrograde injection of a 5% taurocholate plus 1% trypsin solution into the pancreatic duct. Mortality and time-course changes in pancreatic, hepatic, renal and pulmonary functions, and organ myeloperoxidase (MPO) levels were examined in this model. LPS at an intraperitoneal dose of 30 mg/kg, which scarcely caused death and had no marked effect on serum parameters and organ MPO levels in rats without pancreatitis, increased the mortality in rats with taurocholate plus trypsin-induced pancreatitis. Pancreatic weight and ascitic volume increased in rats with taurocholate plus trypsin-induced pancreatitis regardless of the presence or absence of LPS. Serum amylase and lipase levels were also significantly increased in rats with induced pancreatitis, but was higher in the group given LPS. Serum glutamic oxaloacetic transaminase (GOT), glutamic pyruvic transaminase (GPT), blood urea nitrogen (BUN) and creatinine levels were significantly elevated in LPS-treated rats with induced pancreatitis, whereas levels in rats with induced pancreatitis not given LPS were only slightly elevated. Renal weight was also significantly increased in rats with induced pancreatitis despite the presence or absence of LPS. In LPS-treated rats with induced pancreatitis, the arterial oxygen pressure, pulmonary weight and pulmonary MPO level were significantly elevated. However, the MPO level in the kidney in these rats was not different from that in control rats, indicating that the renal dysfunction was not produced by the infiltration of neutrophils into the kidney. Increase in the pancreatic MPO level was observed in rats with induced pancreatitis, but combination treatment with LPS did not raise it. Protective effects of prophylactic treatment of 2-(3-methylsulfonylamino-2-oxo-6-phenyl-1,2-dihydro-1-pyridyl)-N-( 3,3,3-trifluoro-1-isopropyl-2-oxopropyl)acetamide (compound 1), a neutrophil elastase inhibitor, and trifluoroacetyl-L-lysyl-L-alaninanilide hydrochloride (compound 2), a pancreatic elastase inhibitor, on mortality were also examined in this model. Results were compared with that of the combined treatment of compound 1 and compound 2. In LPS-treated rats with taurocholate plus trypsin-induced pancreatitis, the combined treatment of compound 1 (2 mg/kg/h) and compound 2 (30 mg/kg/h) significantly reduced mortality, whereas single treatment of compound 1 or compound 2 did not show the beneficial effect. These results suggest that marked hepatic and renal dysfunction accompanies pancreatitis in this pancreatitis model rats, which may be good models for acute pancreatitis in humans. It is also suggested that neutrophil and pancreatic elastases may be synergistically involved in the pathogenesis of acute pancreatitis in this model.
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PMID:Protective effect of the combined treatment of pancreatic and neutrophil elastase inhibitors on acute pancreatitis elicited by lipopolysaccharide in rats given intraductal injection of taurocholate plus trypsin. 965 Aug 10

Activated neutrophils play an important role in tissue injury by releasing various inflammatory mediators capable of damaging endothelial cells. To investigate whether neutrophil elastase (NE) is involved in stress-induced gastric mucosal injury, we examined the effects of 2 NE inhibitors (ONO-5046 and L-658 758) as well as nitrogen mustard-induced leukocytopenia on the formation of gastric mucosal lesions, gastric mucosal blood flow, gastric mucosal microvascular permeability, and gastric neutrophil accumulation in rats subjected to water immersion-restraint stress (WIR). Gastric mucosal injury peaked 8 hours after WIR. Gastric mucosal blood flow, as measured by laser-Doppler flow cytometry, decreased to 45% of its initial level 8 hours after WIR. Gastric mucosal microvascular permeability, evaluated by Evans blue dye leakage to the gastric mucosa, showed an increase, peaking 8 hours after WIR. Gastric accumulation of neutrophils, determined by measuring gastric myeloperoxidase activity and by histologic examination, was also significantly increased 8 hours after WIR. Both of the NE inhibitors markedly prevented the formation of gastric mucosal lesions. They also decreased the reduction in gastric mucosal blood flow seen in animals subjected to WIR while preventing increases in gastric mucosal microvascular permeability. Gastric neutrophil accumulation was significantly reduced in animals given either inhibitor 8 hours after WIR. Leukocytopenia produced effects similar to those produced by the inhibitors. Taken together, these observations strongly suggest that NE promotes stress-induced gastric mucosal injury in rats by reducing gastric mucosal blood flow and increasing neutrophil accumulation.
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PMID:Role of neutrophil elastase in stress-induced gastric mucosal injury in rats. 982 37

Diabetic ketoacidosis (DKA) is frequently associated with pancreatic enzyme abnormalities. In order to determine the main factors that lead to this increase, serum total amylase (TA), pancreatic amylase (PA), lipase (L) and leukocyte elastase (LE), an early predictor of acute pancreatitis, were measured in four groups of patients on admission. Group 1 consisted of 52 patients with DKA (age: 41.9 +/- 19.2 years; blood glucose (Glc): 27.4 +/- 11.5 mmol/L; pH: 7.20 +/- 0.16; plasma bicarbonate: 10.5 +/- 6.2 mmol/L; blood urea nitrogen (BUN): 0.60 +/- 0.44 g/L; HbA(1C): 12.5% +/- 2.8%). Group 2 consisted of 90 patients with poorly controlled non-ketotic diabetes (age: 53.4 +/- 16.0; Glc: 14.3 +/- 0.6; HCO(3)(-): 26.6 +/- 3.2; BUN: 0.38 +/- 0.20; HbA(1C): 11.3 +/- 2.1). Group 3 consisted of 22 patients with well-controlled diabetes (age: 53.7 +/- 12.8; Glc: 10. 1 +/- 5.2; HCO(3)(-): 27.4 +/- 3.8; BUN: 0.36 +/- 0.19; HbA(1C): 6.8 +/- 0.8). Group 4 (controls) comprised 27 non-diabetic patients (age: 46.0 +/- 15.0; Glc: 4.9 +/- 0.5; HCO(3)(-): 28.4 +/- 2.5; BUN: 0.30 +/- 0.16; HbA(1C): 5.2 +/- 0.7) (means +/- SD). Increased enzyme activities were more frequent in group 1 (TA: 30.7; PA: 27.0; L: 36.5; LE: 73%) than in groups 2 (TA: 8.9; PA: 7.1; L: 8.9; LE: 45. 5%), 3 (TA: 13.6; PA: 9.0; L: 18.1; LE: 31.8%) and 4 (TA: 7.0; PA: 3. 0; L: 0.0; LE: 29.6%). Mean serum enzyme activities were significantly different in the 4 groups (ANOVA, P < 0.01) and were higher in group 1 than in groups 2, 3 and 4 (Student's t-test; group 1 vs 2 or 3 or 4: P < 0.001). In groups 1 + 2 + 3 + 4 (all patients), the four enzymes correlated with one another and also with Glc, BUN and HCO(3)(-) (P < 0.001). In group 1, TA correlated negatively with HCO(3)(-) (P < 0.001) and pH (P < 0.05); PA and L correlated positively with Glc and BUN (P < 0.01) and negatively with HCO(3)(-) (respectively, p < 0.01 and 0.05). PA correlated positively with pH (P < 0.01); LE correlated with Glc (P < 0.05) and BUN (P < 0.01). In conclusion, this study suggests that the serum levels of pancreatic enzymes increase with the degree of diabetic disequilibrium, and mainly correlate with metabolic factors such as hyperglycaemia, dehydration and acidosis. Increased pancreatic enzyme activities in patients with DKA, even in combination with abdominal pain, should not be diagnosed as acute pancreatitis; this could be important, particularly for younger clinicians.
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PMID:Changes in serum amylase, lipase and leukocyte elastase during diabetic ketoacidosis and poorly controlled diabetes. 1043 51

Neutrophil elastase decreases production of PGI2 by cultured endothelial cells. Thus, neutrophil elastase may play an important role in gastric mucosal injury by decreasing the tissue level of PGI2, an important gastric cytoprotective substance. We examined whether activated neutrophils inhibit gastric PGI2 production in rats subjected to water-immersion restraint stress. Gastric 6-keto-PGF1alpha levels were determined by enzyme immunoassay. Gastric mucosal blood flow was determined by laser-Doppler flowmeter. Gastric microvascular permeability was determined by Evans blue leakage. Gastric levels of 6-keto-PGF1alpha were transiently increased 0.5 hr after the stress, followed by a decrease to below baseline at 6 hr, when mucosal blood flow fell to 60% of baseline. Gastric levels of 6-keto-PGF1alpha were significantly higher in animals with nitrogen mustard-induced leukocytopenia than in controls 1 and 6 hr after the stress. In leukocytopenic animals, levels 6 hr after stress were not lower than those preceding stress. Leukocytopenia markedly limited both the decrease in mucosal blood flow and the increase in gastric microvascular permeability. The level of gastric mucosal injury observed 6 hr after the stress was markedly attenuated by leukocytopenia. Pretreatment with neutrophil elastase inhibitors (ONO-5046 and Eglin C) or an anti-P-selectin monoclonal antibody produced effects similar to leukocytopenia. Neutrophil elastase is involved in the stress-induced gastric mucosal injury by decreasing gastric production of PGI2. Thus, pharmacologic inhibition of neutrophil elastase should help to prevent stress-induced gastric mucosal injury.
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PMID:Activated neutrophils impair gastric cytoprotection role of neutrophil elastase. 1087 39

We investigated the roles of neutrophil and neutrophil elastase in acute lung injury (ALI) to elucidate the mechanism of ALI. We designed two protocols. Protocol I: Experimental ALI was induced by endotoxin (0.02 mg/kg) and platelet-activating factor (8 microg/kg/4 h) in untreated rabbits (control group I), in neutropenic rabbits pretreated with nitrogen-N-oxide hydrochloride, and in untreated rabbits infused with a neutrophil elastase inhibitor (ONO-5046; 20 mg/kg/4 h). Protocol II: ALI was induced by smaller doses of endotoxin (0.015 mg/kg) and platelet-activating factor (7 microg/kg/4 h) than those used in protocol I in untreated rabbits (control group II), in neutrophilic rabbits pretreated with human recombinant granulocyte colony-stimulating factor, and in neutrophilic rabbits infused with ONO-5046 (as in protocol I). The severity of ALI was assessed by the protein concentration, the elastase activity in the bronchoalveolar lavage fluid, and the histologic pulmonary edema ratio. The degree of pulmonary neutrophil accumulation was assessed by pulmonary myeloperoxidase activity and histological findings. Both ALI and pulmonary neutrophil accumulation were suppressed by neutropenia (protocol I), while they were exacerbated by neutrophilia (protocol II). The neutrophil elastase inhibitor could suppress ALI, but it could not suppress pulmonary neutrophil accumulation in both untreated and neutrophilic rabbits (protocols I and II). These findings indicate that neutrophils play an important role in the pathogenesis of ALI via neutrophil elastase.
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PMID:Neutrophils mediate acute lung injury in rabbits: role of neutrophil elastase. 1118 17

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