Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.9 (enterokinase)
 675 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The association of serum amylase activity with the extent of pancreatic injury in acute pancreatitis is unclear. To clarify this relationship, we induced acute pancreatitis ranging from mild to lethal in 118 Sprague-Dawley rats (350-450 g). This was achieved by controlled intraductal infusion of low- or high-dose bile salt, with or without enterokinase, followed by intravenous cerulein or saline for 6 hr. Serum amylase was measured at baseline and 6 hr. Pancreatic histopathology was evaluated by two blinded pathologists employing total surface scoring (N = 118) and morphometric 20-field documentation (N = 22). Serum amylase correlated best with edema (r = 0.61) and fat necrosis (r = 0.58), less well with acinar necrosis (r = 0.53) and inflammation (r = 0.50), and poorly with hemorrhage (r = 0.33) and perivascular infiltrate (r = 0.31). Inasmuch as edema and fat necrosis are not important determinants of severity, these observations could explain the poor prognostic value of serum amylase activity in patients with acute pancreatitis.
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PMID:Histopathologic correlates of serum amylase activity in acute experimental pancreatitis. 138 Apr 25

Pretreatment of the purified jack bean inhibitor with enterokinase activated human pancreatic preparation for 1 hr decreased its inhibitory capacity against crystalline bovine alpha-chymotrypsin by 30% but did not affect its trypsin inhibitory activity. Preincubation of the inhibitor with bovine chymotrypsin for 60 min resulted in partial loss of the inhibitory potency. Complex formation studies by gel chromatography on Sephadex G-100 indicated that the trypsin-inhibitor and chymotrypsin-inhibitor complexes dissociated to release inactivated inhibitor and active proteinases. Gel chromatography of the inhibitor in presence of 1.5 M ammonium sulphate indicated that the inhibitor showed a tendency to aggregate without loss of biological activity. However, in 4.2 M salt medium after 3 hr, antichymotryptic activity was lost completely without any effect on antitryptic activity. Treatment with methylamine, a nucleophile, caused a greater loss of antichymotryptic activity. Trinitrobenzene sulphonate and ethylacetamidate, the amino group modifiers, affected only the antichymotryptic activity. Treatment with ninhydrin, a specific arginine modifier, at pH 9.0 abolished the antitryptic activity whereas only 50% of the antichymotryptic activity was lost. Diethylpyrocarbonate, a histidine reagent, also decreased only the antitryptic activity. Modification of tryptophan and cysteine residues of the inhibitor had no effect on its inhibitory potency. Treatment with mercaptoethanol and sodium borohydride caused nearly 50% loss of antitryptic and antichymotryptic activities. Chloramine-T, a reagent that modifies methionine residues, inactivated the inhibitor.
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PMID:Chemical modification and complex formation studies with jack bean proteinase inhibitor. 181 77

Diversion of pancreatic-biliary (PB) secretions in rats for 23 days led to loss of enterokinase (EK) activity in bypassed segments of the small intestine. Simultaneous oral trypsinogen and bile salt (TB) supplements prevented the loss of EK activity. To study the temporal course of events after PB diversion and to determine if the loss of EK is reversible, PB diversion was performed in rats by surgical transposition of the 4-cm segment of duodenum including the ampulla of Vater to a point 30 cm distal to its original site. Bypassed and control (sham- and nonoperated) rats fed standard rat chow were sacrificed at 10, 23, and 45 days after surgery. One bypassed group was fed standard chow for 23 days and then chow supplemented with TB until sacrifice at 45 days. At sacrifice, the intestines were divided into segment 1 (the bypassed proximal 30 cm) and segment 2 (the 30 cm distal to the bypass). In segment 1, EK disappeared almost completely by 10 days and remained at the same low levels at both 23 and 45 days (p less than 0.05). No significant changes in EK levels were found at any time in segment 2 distal to the bypass. Mucosal disaccharidase activity in segment 1 increased or showed no change. In rats with delayed TB supplementation, EK activity in segment 1 returned almost to control levels at the time of sacrifice. The results confirm the importance of PB secretions in the maintenance of EK activity. The effects of bypass on EK are both enzyme- and site-specific.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term pancreatic-biliary diversion in the rat: persistent loss of mucosal enterokinase, with reinduction by delayed oral pancreatic biliary supplementation. 322 68

Controlled intraduct infusion and peri-acinar dispersal of 100 microliter buffer containing sodium glycodeoxycholate (GDOC) at concentrations of 8.5, 17 and 34 mmol/l in rats caused a progressively severe acute pancreatitis from which none of the animals died over the experimental period. Infusion of affinity-purified active human enterokinase in buffer did not cause pancreatitis, presumably because of the inability of the macromolecule to gain access to its specific intracellular substrate trypsinogens. The addition of enterokinase 200 ng to GDOC 34 mmol/l in the infusate resulted in a severe systemic disturbance and a form of acute necrotizing pancreatitis which was uniformly and rapidly lethal. This effect was not seen when equimolar trypsin was substituted for enterokinase. These findings show that enterokinase specifically increases the lethality of experimental bile salt pancreatitis and suggest that this bile-borne enzyme may in some cases pose a significant clinical threat.
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PMID:Intraduct enterokinase is lethal in rats with experimental bile-salt pancreatitis. 354 76

The cascade enterokinase-trypsinogen-prophospholipase A2 lecithin, generating trypsin, phospholipase A2 and lysolecithin, respectively, was studied in vitro using a novel phospholipase A2 assay. The rate of enterokinase catalysed activation of trypsinogen was maximal at 4 mmol/1 glycodeoxycholic acid; higher concentrations of bile salt progressively inhibited enterokinase activity. Net phospholipase A2 activity in reaction mixtures was critically dependent on the trypsin/prophospholipase A2 molar ratio. Lecithin hydrolysis by phospholipase A2 was dependent on the bile salt/lecithin molar ratio and was optimal at 1.25 to 1. The addition of enterokinase to lecithin and bile salt mixtures, containing trypsinogen and prophospholipase A2 at presumed pathophysiological concentrations, resulted in the generation of concentrations of lysolecithin lytic for pancreatic acinar cells within 5 min. These findings would support the concept that the entry of bile containing active enterokinase into the pancreatic duct system in vivo may in some cases be involved in the initiation of necrotising acute pancreatitis in man.
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PMID:The generation of lysolecithin by enterokinase in trypsinogen prophospholipase A2 lecithin mixtures, and its relevance to the pathogenesis of acute necrotising pancreatitis. 390 74

The activation of trypsinogen to trypsin in the small intestine can occur by the action of enterokinase or, alternatively, as an autocatalytic process catalysed by trypsin itself. We have found that bile salts and human bile cause a significant enhancement of the autocatalytic activation of trypsinogen. This effect is dependent on the calcium ion concentration and is most marked around pH 5.4 and 7.8. An optimum concentration exists for each bile salt at which the greatest enhancement occurs. At this concentration, certain bile salts have been shown to produce activation effects of up to 55-fold. It is suggested that this activation of the autocatalytic process by bile plays an important role in protein digestion in the small intestine, since it has been shown previously that duodenal trypsin levels are abnormally low in patients with an impairment of bile secretion.
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PMID:Enhancement of the autocatalytic activation of trypsinogen to trypsin by bile and bile acids. 398 21

The influence of bile salts on the mucosal surface of rat jejunum was tested with an in vivo technique of segmental perfusion. Sodium taurocholate and chenodesoxycholate were applied in a concentration of 3 mmol/l. The release of 5 brush border membrane enzymes, 5 cytosolic, 1 mitochondrial, and 2 lysosomal enzymes during a perfusion time of 150 min as well as morphological alterations after bile salt treatment were investigated. Among the membrane enzymes, due to their superficial localization, the solubilization of enteropeptidase and alpha-1,4-glucosidase was highest both in the control perfusion and in the presence of bile salts. At the same time, cytoplasmic enzyme activities were liberated extensively whereas lysosomal and mitochondrial enzymes were scarcely detectable. This disproves any serious injury of the enterocytes. Electronmicroscopic results supported this suggestion. After administration of taurocholate (in physiological concentration), only an occasional diminution of the glycocalyx was observed and even chenodeoxycholate (in an unphysiological concentration) caused only negligible destructions of intestinal brush borders. Investigations with ruthenium red to contrast the glycocalyx showed a partially unchanged structure. Microvesiculation from the microvilli was observed in many electron microscopic photographs. That is a possibility for the release of membrane-bound and cytosolic enzymes without destruction of enterocytes.
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PMID:[Biochemical and morphologic studies on the effect of bile acids on the epithelium of the rat jejunum]. 643 37

We report the characterization of N-linked oligosaccharides on six foreign glycoproteins secreted from the methylotrophic yeast Pichia pastoris. These proteins included: a bacterial enzyme, Bacillus licheniformis alpha-amylase; three fungal enzymes, Saccharomyces cerevisiae invertase, Penicillium minioluteum dextranase, and Mucor pusillus aspartic protease; and two higher eukaryotic proteins, Boophilus microplus (tick) gut antigen and bovine enterokinase catalytic subunit. The carbohydrates on these proteins were observed to vary in size, with Man8GlcNAc2 and Man9GlcNAc2 structures being the most frequently observed species. Substantial amounts of shorter oligomannoside structures were present only on invertase, and longer structures (up to Man18GlcNAc2) were common on aspartic protease and enterokinase. Phosphorylated oligosaccharides were observed on one protein, aspartic protease. Unlike oligosaccharides on glycoproteins secreted from S. cerevisiae, no terminal alpha1,3-linked mannosylation was observed on any of the six P. pastoris-secreted proteins. Changing the growth and induction medium from a minimal salt-based medium to a molasses-based medium had little effect on the size of the oligomannosides. From these results, it is apparent that most foreign proteins secreted from P. pastoris are not subjected to the extensive mannosylation (hyperglycosylation) that commonly occurs in proteins secreted from S. cerevisiae.
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PMID:Variation in N-linked oligosaccharide structures on heterologous proteins secreted by the methylotrophic yeast Pichia pastoris. 979 Aug 82

Enteropeptidase is a membrane-bound serine protease that initiates the activation of pancreatic hydrolases by cleaving and activating trypsinogen. The enzyme is remarkably specific and cleaves after lysine residues of peptidyl substrates that resemble trypsinogen activation peptides such as Val-(Asp)4-Lys. To characterize the determinants of substrate specificity, we solved the crystal structure of the bovine enteropeptidase catalytic domain to 2.3 A resolution in complex with the inhibitor Val-(Asp)4-Lys-chloromethane. The catalytic mechanism and contacts with lysine at substrate position P1 are conserved with other trypsin-like serine proteases. However, the aspartyl residues at positions P2-P4 of the inhibitor interact with the enzyme surface mainly through salt bridges with the Nzeta atom of Lys99. Mutation of Lys99 to Ala, or acetylation with acetic anhydride, specifically prevented the cleavage of trypsinogen or Gly-(Asp)4-Lys-beta-naphthylamide and reduced the rate of inhibition by Val-(Asp)4-Lys-chloromethane 22 to 90-fold. For these reactions, Lys99 was calculated to account for 1.8 to 2.5 kcal mol(-1) of the free energy of transition state binding. Thus, a unique basic exosite on the enteropeptidase surface has evolved to facilitate the cleavage of its physiological substrate, trypsinogen.
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PMID:Crystal structure of enteropeptidase light chain complexed with an analog of the trypsinogen activation peptide. 1049 81

A versatile gene-fusion technique for immobilizing and visualizing biologically active enzymes which includes from the N to C-termini, an affinity histidine tag, the green fluorescent protein (GFP), a proteolytic enzyme (enterokinase, EK) cleavage site and the enzyme of interest, were developed. Specifically, the organophosphorus hydrolase was bound to the affinity (His(6))-reporter(GFP)-EK fusion elements. Organophosphorus hydrolase (OPH) is capable of degrading a variety of pesticides and nerve agents. In the case of immobilized OPH, paraoxon was rapidly degraded when pumped through a packed column. In reaction mixtures containing CHES buffer at pH 6.9, a continual decay in OPH activity was observed and importantly, this was monitored by GFP fluorescence. This decay in activity was fully restored, along with fluorescence, upon washing with PBS buffer. Many subsequent experiments were performed at varied pH and in different background buffer solutions. In all cases when there was OPH activity there was also marked fluorescence from the GFP fusion partner. Likewise, when OPH activity was lost, so was GFP fluorescence and, importantly, both were regenerated when washed in the presence of the kosmotropic salt, phosphate. Recently, Waldo et al. (1999) showed that GFP fluorescence from whole cells indicated the extent of proper folding of normally aggregated proteins designed via directed evolution. The present work demonstrates an application wherein GFP fluorescence indicates stability and activity of its fusion partner.
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PMID:GFP-visualized immobilized enzymes: degradation of paraoxon via organophosphorus hydrolase in a packed column. 1175 28


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