Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a novel assay method for enterokinase capable of detecting approx. 1 fmol of enzyme. The method depends on quantification of the release of specifically radiolabelled activation peptides from bovine trypsinogen and is unaffected by trypsin inhibitors. The assay is applicable to biological fluids such as serum. The substrate was produced by selective epsilon-amidination of bovine trypsinogen followed by acetylation with [3H]acetic anhydride and deprotection. The assay has been used to study the effects of pH, Ca2+, ionic strength abd glycodeoxycholate on enterokinase activity.
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PMID:Specific one-stage method for assay of enterokinase activity by release of radiolabelled activation peptides from alpha-N-[3H]acetyl-trypsinogen and the effect of calcium ions on the enzyme activity. 703 17

Duodenal fluids from control and cystic fibrosis (CF) patients were assayed for enterokinase (EK), trypsin and chymotrypsin activities. CF patients as a group were found to have higher basal EK activity in spite of low trypsin and chymotrypsin activities. In control patients, pancreozymin (CCK) injection led to increases in specific activities of trypsin and chymotrypsin and a decrease in EK but did not change the total EK activities. Secretin administration led to decreases in specific activities of trypsin and chymotrypsin compared to post-CCK levels. The total EK activities were greatly increased following secretin administration. Thus, secretin may have direct influence on the release of EK into the duodenum. CCK and secretin have no effect on the specific activities of trypsin, chymotrypsin and EK in CF patients. EK release in CF patients is either constitutive and therefore not affected by CCK and secretin or it has been fully induced by the low trypsin content and becomes unresponsive to further hormonal stimulation.
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PMID:Effect of pancreozymin and secretin on intraluminal enterokinase, trypsin, and chymotrypsin activities of cystic fibrosis and control children. 704 59

The osmolality of contrast injected retrograde into the rat pancreatic duct did not affect the severity of the pancreatitis (Urografin, 1,300 mOsm/kg, and Hexabrix, 580 mOsm/kg). The severity of the pancreatitis induced in rats was assessed by survival rate, histologic grading, wet lung ratio, and serum levels of amylase, lipase, and trypsin-like activity. Rats with pancreatitis induced by retrograde injected Urografin, lipopolysaccharide, taurocholic acid plus enterokinase were treated with either intravenous (i.v.) FUT-175 (Nafamstat Mesilate), FUT-175 administered by retrograde pancreatic injection, i.v. terbutaline, i.v. piperacillin sodium, piperacillin sodium by retrograde pancreatic duct injection, or a combination of FUT-175 plus terbutaline and piperacillin. Survival among the rats was increased and the incidence of pancreatic infection reduced in rats treated with i.v. piperacillin or with a combination of FUT-175 plus i.v. terbutaline, plus i.v. piperacillin compared to controls.
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PMID:Therapeutic regimens in acute experimental pancreatitis in rats: effects of a protease inhibitor, a beta-agonist, and antibiotics. 747 69

Histidine 57 of the catalytic triad of trypsin was replaced with alanine to determine whether the resulting variant would be capable of substrate-assisted catalysis [Carter, P., & Wells, J. A. (1987) Science 237, 394-9]. A 2.5-fold increase in kcat/Km was observed on tri- or tetrapeptide substrates containing p-nitroanilide leaving groups and histidine at P2. In contrast, hydrolysis of peptide substrates extending from P6 to P6' is improved 70-300-fold by histidine in the P2 or P1' position. This preference creates new protease specificities for sequences HR decreases, R decreases H, HK decreases, and K decreases H. The ability of histidine from either the P2 or the P1' position of substrate to participate in catalysis emphasizes the considerable variability of proteolytically active orientations which can be assumed by the catalytic triad. Trypsin H57A is able to hydrolyze fully folded ornithine decarboxylase with complete specificity at a site containing the sequence HRH. Trypsin H57A was compared to enteropeptidase in its ability to cleave a propeptide from trypsinogen. Trypsin H57A cleaved the propeptide of a variant trypsinogen containing an introduced FPVDDDHR cleavage site only 100-fold slower than enteropeptidase cleaved trypsinogen. The selective cleavage of folded proteins suggests that trypsin H57A can be used for specific peptide and protein cleavage. The extension of substrate-assisted catalysis to the chymotrypsin family of proteolytic enzymes indicates that it may be possible to apply this strategy to a wide range of serine proteases and thereby develop various unique specificities for peptide and protein hydrolysis.
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PMID:Trypsin specificity increased through substrate-assisted catalysis. 754 82

Enterokinase is a serine protease of the duodenal brush border membrane that cleaves trypsinogen and produces active trypsin, thereby leading to the activation of many pancreatic digestive enzymes. Overlapping cDNA clones that encode the complete human enterokinase amino acid sequence were isolated from a human intestine cDNA library. Starting from the first ATG codon, the composite 3696 nt cDNA sequence contains an open reading frame of 3057 nt that encodes a 784 amino acid heavy chain followed by a 235 amino acid light chain; the two chains are linked by at least one disulfide bond. The heavy chain contains a potential N-terminal myristoylation site, a potential signal anchor sequence near the amino terminus, and six structural motifs that are found in otherwise unrelated proteins. These domains resemble motifs of the LDL receptor (two copies), complement component Clr (two copies), the metalloprotease meprin (one copy), and the macrophage scavenger receptor (one copy). The enterokinase light chain is homologous to the trypsin-like serine proteinases. These structural features are conserved among human, bovine, and porcine enterokinase. By Northern blotting, a 4.4 kb enterokinase mRNA was detected only in small intestine. The enterokinase gene was localized to human chromosome 21q21 by fluorescence in situ hybridization.
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PMID:cDNA sequence and chromosomal localization of human enterokinase, the proteolytic activator of trypsinogen. 771 57

Enteropeptidase (EC 3.4.21.9) is a key enzyme in the intestinal digestion cascade responsible for the conversion of trypsinogen to trypsin, which then activates various pancreatic zymogens. In order to structurally characterize the enzyme, we purified the enzyme from porcine duodenal mucosa and showed that it consists of three polypeptide chains, which we named "mini" chain (M chain), light chain (L chain), and heavy chain (H chain) in order of increasing molecular size. Based on their NH2-terminal sequences, a cDNA clone for porcine enteropeptidase was isolated and analyzed. The clone was 3597 base pairs long, which encoded 1034 amino acid residues of a single-chain precursor form of enteropeptidase. The precursor contained an additional NH2-terminal 51-residue sequence including a putative internal signal sequence, followed by the M chain (66 residues), the H chain (682 residues), and the L chain (235 residues) in that order. The H chain had regions partially homologous in sequence with low density lipoprotein receptor and complement components. On the other hand, the L chain was highly homologous with the catalytic domains of trypsin-like serine proteinases. The structural model of the L chain suggests that the sequence, Arg885-Arg-Arg-Lys888, is probably involved in the unique substrate specificity of the enzyme, preferring acidic amino acid residues at the P2-P5 sites.
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PMID:Structural characterization of porcine enteropeptidase. 805 Oct 81

Enterokinase is a protease of the intestinal brush border that specifically cleaves the acidic propeptide from trypsinogen to yield active trypsin. This cleavage initiates a cascade of proteolytic reactions leading to the activation of many pancreatic zymogens. The full-length cDNA sequence for bovine enterokinase and partial cDNA sequence for human enterokinase were determined. The deduced amino acid sequences indicate that active two-chain enterokinase is derived from a single-chain precursor. Membrane association may be mediated by a potential signal-anchor sequence near the amino terminus. The amino terminus of bovine enterokinase also meets the known sequence requirements for protein N-myristoylation. The amino-terminal heavy chain contains domains that are homologous to segments of the low density lipoprotein receptor, complement components C1r and C1s, the macrophage scavenger receptor, and a recently described motif shared by the metalloprotease meprin and the Xenopus A5 neuronal recognition protein. The carboxyl-terminal light chain is homologous to the trypsin-like serine proteases. Thus, enterokinase is a mosaic protein with a complex evolutionary history. The amino acid sequence surrounding the amino terminus of the enterokinase light chain is ITPK-IVGG (human) or VSPK-IVGG (bovine), suggesting that single-chain enterokinase is activated by an unidentified trypsin-like protease that cleaves the indicated Lys-Ile bond. Therefore, enterokinase may not be the "first" enzyme of the intestinal digestive hydrolase cascade. The specificity of enterokinase for the DDDDK-I sequence of trypsinogen may be explained by complementary basic-amino acid residues clustered in potential S2-S5 subsites.
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PMID:Enterokinase, the initiator of intestinal digestion, is a mosaic protease composed of a distinctive assortment of domains. 805 24

Enterokinase is a glycoprotein and is now designated enteropeptidase (E.C.3.4.4.8.). It is present in the duodenal and jejunal mucosa. Pancreatic proteolytic enzymes are secreted as proenzymes. Enterokinase converts trypsinogen to trypsin in the duodenal lumen. Duodenopancreatic reflux of duodenal enterokinase may be important in the pathogenesis of experimental and clinical acute pancreatitis. Congenital enterokinase deficiency is a distinct clinical entity characterized by diarrhea, failure to thrive, hypoproteinemia, and edema. Acquired enterokinase deficiency may occur in some diffuse small bowel diseases. Steatorrhea of celiac spruce may be due partly to the fact that deficiency of secretin and cholecystokinin may interfere with the action of enterokinase. The interrelationship between secretin, cholecystokinin, enterokinase, and bile salts is not completely understood.
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PMID:Enterokinase. 820 33

Phospholipase A2 (PLA2) has been postulated to play an important role in the pathogenesis of acute pancreatitis. To study the mechanism through which PLA2 may cause cellular damage, we used an in vitro model of isolated rat pancreatic acini prepared by collagenase digestion. Newly synthesized proteins were labeled by [35S]methionine. Cellular destruction was measured by the degree of release of radiolabeled proteins. Incubation of pancreatic acini with PLA2 alone caused only minor damage when very high concentrations of this enzyme were used. However, when acini were incubated with PLA2 in combination with its substrate, lecithin, cells were destroyed in a time- and concentration-dependent manner. Incubating cells with pancreatic homogenates and lecithin caused damage only when there had been prior activation of homogenates with either trypsin or enterokinase. The damage could be simulated by incubating acini with pure lysolecithin. Alcohol and cerulein did not further increase the destruction caused by PLA2 and lecithin. When acini were incubated with supernatants from another set of acini to which oleic acid had been added, a similar degree of damage resulted as compared with acini incubated with oleic acid alone. However, adding PLA2 to supernatants from acini preincubated with fatty acids significantly increased the degree of cellular necrosis. The destruction by PLA2 and lecithin was inhibited by albumin but could not be inhibited by gabexate mesilate, nafamostat mesilate, or cytidine diphosphocholine. We conclude that PLA2 could play a role in pancreatic acinar cell damage, especially in the spread of cellular necrosis within the organ, provided that its substrate, lecithin, is present.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of phospholipase A2 in pancreatic acinar cell damage and possibilities of inhibition: studies with isolated rat pancreatic acini. 841 11

The rates of activation of procolipase, prophospholipase (proPLA2), chymotrypsinogen, and trypsinogen were studied after incubation of human pancreatic juice with porcine enterokinase in vitro. Under the conditions chosen procolipase was fully activated within 10 min of incubation. Full activation of phospholipase (PLA2) was seen within 15 min, whereas complete activation of chymotrypsin and trypsin was not seen until after 30 to 60 min, respectively. The different proenzymes probably differ in their suitability as substrates for trypsin. A physiologic consequence of a differentiated activation of the pancreatic proenzymes in vivo could be a delayed proteolytic degradation of the lipolytic enzymes in the intestine.
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PMID:Human pancreatic proenzymes are activated at different rates in vitro. 851 7


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