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: UMLS:C0030305 (pancreatitis)
16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inhibitory effect of gabexate mesylate, which is used therapeutically in the treatment of pancreatitis and disseminated intravascular coagulation, and as a regional anticoagulant agent for hemodialysis, has been measured on bovine factor Xa, bovine alpha-thrombin, human Lys77-plasmin, human urinary kallikrein, human urokinase, porcine pancreatic beta-kallikrein-B, and bovine beta-trypsin catalyzed hydrolysis of p-nitrophenyl esters of N-alpha-carbobenzoxy-L-arginine and N-alpha-carbobenzoxy-L-lysine. On the basis of enzyme:gabexate mesylate affinities, the serine proteases can be arranged as follows: human urinary kallikrein approximately porcine pancreatic beta-kallikrein-B much less than bovine beta-trypsin approximately bovine factor Xa approximately human Lys77-plasmin approximately human urokinase approximately bovine alpha-thrombin. The mode of binding of gabexate mesylate to the serine proteases conforms to the active-reactive site geometries observed in their complexes with natural and synthetic inhibitors. Differences in gabexate mesylate affinities for these proteases reflect structural differences at their primary specificity subsite, which have been investigated by comparative analysis of amino acid sequences and by computer-graphics techniques.
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PMID:Gabexate mesylate inhibition of serine proteases: thermodynamic and computer-graphics analysis. 310 78

Tetra-L-aspartyl-L-lysine (D4K) containing trypsinogen activation peptides were synthesised on solid-phase supports. Synthetic D4K peptides were N-terminally haptenised and used to generate specific C-terminally directed anti-D4K antibodies. Affinity purification of antisera using Sepharose-immobilised synthetic D4K segregated two highly purified populations of anti-D4K antibodies, one eluting with EDTA recognising the calcium chelate and the other eluting with propionic acid recognising an alternative epitope on the anionic oligopeptide. Both specific anti-D4K antibodies were C-terminally directed and did not bind trypsinogen. Specific antisera and calcium-independent antibodies were used to develop and characterise solution and solid-phase immunoassays specific for free trypsinogen activation peptides (TAP assay), with a detection limit of 10(-11) M and between assay CV of 10.7% for the solution-phase system. The release of D4K peptides by enteropeptidase activation of trypsinogen and dog pancreatic secretion is demonstrated. TAP assays specifically indicate trypsinogen activation and may contribute to the recognition and understanding of disease states such as pancreatitis.
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PMID:Development of radioimmunoassays for free tetra-L-aspartyl-L-lysine trypsinogen activation peptides (TAP). 339 45

Levels of free amino acids were analysed in plasma and muscle tissue of nine patients with acute hemorrhagic necrotising pancreatitis and compared with date from healthy volunteers. In the patient group the concentrations of threonine, serine, glutamine (p less than 0.001) and tyrosine (p less than 0.01) in plasma were found to be significantly lower than in the volunteers group, while increased plasma levels were found for 3-met-histidine (p less than 0.05). In muscle tissue the cytoplasmatic levels of glutamate, glutamine and histidine (p less than 0.001) and also of lysine, ornithine and arginine (p less than 0.,01) showed decreased concentrations. However tyrosine and phenylalanine had increased intracellular concentrations (p less than 0.05). It is concluded that (1) the patients in this study had a severely disturbed amino acid metabolism with extremely reduced levels of free glutamine in muscle tissue and (2) that the disturbed amino acid metabolism results from an acute catabolic situation of the patients, in which the reduced levels of free amino acids may indicate an impaired nutritional state.
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PMID:[Reduced levels of free amino acids in plasma and muscle tissue of patients with acute hemorrhagic necrotising pancreatitis (author's transl)]. 723 25

The removal of amino acids during continuous renal replacement therapies induces clinical problems. Previous studies on animals have shown nephroprotective (glycine, alanine) or negative effects (lysine) on renal function in occurrence of acute renal failure. Disturbed metabolism in acute renal failure needs adequate parenteral nutrition. On the other hand, experience with continuous renal replacement therapies of metabolic crises in inborn errors of metabolism indicate a good control of disturbed amino acid metabolism. The aim of our study was to find amino acids, that might play an important role in the pathogenesis, prognosis and detection of acute renal failure and severe illness, so far only estimated by lactic acid. Thirty-three probes (serum and hemofiltrate) were taken from patients, suffering with acute renal failure caused by septic shock, severe pancreatitis and hepatorenal syndrome, one hour after the beginning of extracorporal circulation, the conditions of treatment were standardized. The material was deproteinized and studied by the amino acid analyzer LBK 4251 Apha Plus (Pharmacia, Stockholm, Sweden), while the lactic acid concentration was determined in a standard laboratory. Proline, glycine, alanine, methionine and histidine showed a close relationship to the lactic acid levels, but these amino acids were an essential part of parenteral nutrition. A statistical relationship was also established in (amino acids with amide groups) asparagine, glutamine, citrulline, cystathionine and phosphoethanolamine. The mean values of most of the amino acids were higher than normal, but standard deviations were increased. The presence of these amino acids in hemofiltrate and the good sieving coefficients could mean that the better prognosis of critically ill patients in continuous renal replacement therapies may also be due to continuous control of amino acid levels (especially with amide groups).
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PMID:Which amino-acids do serum and hemofiltrate of critically ill patients with acute renal failure contain? 925 6

Chemotactic peptides bind specifically to receptors on leukocyte membranes. This property makes them prospective vehicles to evaluate inflammation and infection. We used two well-established models of acute pancreatitis to quantitate the binding of the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine-lysine (fMLFK) to leukocytes and its correlation to degree of organ inflammation. Uptake of the (99m)Tc-labeled nicotinyl hydrazine-derivatized chemotactic peptide analog fMLFK-HYNIC was measured in blood, pancreas, lung, and muscle specimens in rats with edematous or necrotizing pancreatitis and was compared with neutrophil sequestration assessed by myeloperoxidase activity and histology. Chemotactic peptide uptake in the pancreas was increased in mild and severe pancreatitis compared with controls, with higher levels in severe than in mild disease, and correlated with tissue myeloperoxidase activity (r = 0.7395, P < 0.001). Increased pulmonary uptake only in severe pancreatitis reflected pancreatitis-induced neutrophil sequestration in the lungs. Muscle uptake was unchanged compared with controls. Edema formation did not affect chemotactic peptide uptake. The data suggest that uptake of chemotactic peptides can contribute to quantitative assessment of neutrophils in localized inflammatory processes and is independent of associated edema formation or microcirculatory compromise.
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PMID:Chemotactic peptide uptake in acute pancreatitis: correlation with tissue accumulation of leukocytes. 1044 35

Enteropeptidase (enterokinase) (EC 3.4.21.9), a highly specific processing protease, initiating a cascade of reactions activating the digestion enzymes. Catalyzing trypsinogen activation enteropeptidase exhibits unique properties for high efficiency hydrolysis of the polypeptide chain after lysine-15 residue in the -DDDDK15- sequence. In 1998 we found an unusual calcium-dependent autolysis of the enteropeptidase heavy chain leading to the drastic loss of its activity towards trypsinogen: after lysine-360 (-NNYEK360-INCN-), -), arginine-384 (-NEWER384-TQGS-), arginine-422 (-GRRER422-VGLL-) and lysine-465 (-QNMEK465-TIFQ-) residues. We used hepta-nona-peptides as the model substrates for autolysys: human angiotensin II--DRVYIHPF and cattle hemoglobin b-chain fragments: LTAEEKA and MLTAEEKAA. Kinetic parameters of enteropeptidase hydrolysis for these substrates were determined. Recent study demonstrates the ability of enteropeptidase to hydrolyze peptide bonds formed by carboxyl groups of Lys or Arg residues if less than four but at least one negative charged amino acid residue is in any of substrate P2-P5 positions. Ca(2+)-dependent autolysis of enteropeptidase heavy chain and of trypsin were compared; the second one serves as the natural defense mechanism against the undesirable premature proenzymes activation in pancreas leading to pancreatitis. The corresponding enteropeptidase inactivation in low Ca2+ environment ought to be the component of the same protective mechanism.
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PMID:[Hydrolysis by enteropeptidase of nonspecific (model) peptide sequences and possible physiological role of this phenomenon]. 1269 55

Arginine has been used by millions of athletes over the past 20 years to enhance production of human growth hormone. The effects of arginine supplementation include increased fat burning and muscle building, enhanced immunity, and improvement in erectile function in men. Excessive doses of basic amino acids such as ethionine, methionine and lysine are known to damage the rat pancreas. Recent studies have demonstrated that excessive doses of arginine induce necrotizing pancreatitis in rats. In this article, we report a 16-year-old male patient hospitalized in our clinic because of severe pain in upper abdomen, nausea and vomiting who was suspected to have arginine-induced acute pancreatitis.
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PMID:Acute pancreatitis possibly due to arginine use: a case report. 1526 24

Coxsackievirus B3 (CVB3) is a common human pathogen that is endemic throughout the world. There is currently no vaccine available, although the virus is known to be highly lethal to newborns and has been associated with heart disease and pancreatitis in older children and adults. Previously, we showed that the virulence of CVB3 is reduced by a lysine-to-arginine substitution in the capsid protein VP2 (K2168R) or a glutamic acid-to-glycine substitution in VP3 (E3060G). In this report, we show that the double mutant virus CVB3(KR/EG) displays additional attenuation, particularly for the pancreas, in A/J mice. In addition, two other attenuating mutations have been identified in the capsid protein VP1. When either the aspartic acid residue D1155 was replaced with glutamic acid or the proline residue P1126 was replaced with methionine, the resulting mutant also possessed an attenuated phenotype. Moreover, when either of these mutations was incorporated into CVB3(KR/EG), the resulting triple mutant viruses, CVB3(KR/EG/DE) and CVB3(KR/EG/PM), were completely noncardiovirulent and caused only small foci of damage to the pancreas, even at a high dose. Both triple mutants were found to be immunogenic, and a single injection of young A/J mice with either was found to protect them from a subsequent lethal challenge with wild-type CVB3. These findings indicate that the triple mutants could be exploited for the development of a live attenuated vaccine against CVB3.
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PMID:A genetically engineered attenuated coxsackievirus B3 strain protects mice against lethal infection. 1599 22

A patient with severe hypertriglyceridemia and recurrent pancreatitis was found to have significantly decreased lipoprotein lipase (LPL) activity and normal apolipoprotein C-II concentration in post-heparin plasma. DNA analysis of the LPL gene revealed two mutations, one of which was a novel homozygous G-->C substitution, resulting in the conversion of a translation initiation codon methionine to isoleucine (LPL-1). The second was the previously reported heterozygous substitution of glutamic acid at residue 242 with lysine (LPL-242). In vitro expression of both mutations separately or in combination demonstrated that LPL-1 had approximately 3% protein mass and 2% activity, whereas LPL-242 had undetectable activity but normal mass. The combined mutation LPL-1-242 exhibited similar changes as for LPL-1, with markedly reduced mass, and for LPL-242, with undetectable activity. These results suggest that the homozygous initiator codon mutation rather than the heterozygous LPL-242 alteration was mainly responsible for the patient phenotypes.
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PMID:A novel substitution at the translation initiator codon (ATG-->ATC) of the lipoprotein lipase gene is mainly responsible for lipoprotein lipase deficiency in a patient with severe hypertriglyceridemia and recurrent pancreatitis. 1643 Dec 16

Efforts to develop new antiviral chemotherapeutic approaches are focusing on compounds that target either influenza virus replication itself or host factor(s) that are critical to influenza replication. Host protease mediated influenza hemagglutinin (HA) cleavage is critical for activation of virus infectivity and as such is a chemotherapeutic target. Influenza pathogenesis involves a "vicious cycle" in which host proteases activate progeny virus which in turn amplifies replication and stimulates further protease activities which may be detrimental to the infected host. Aprotinin, a 58 amino acid polypeptide purified from bovine lung that is one of a family of host-targeted antivirals that inhibit serine proteases responsible for influenza virus activation. This drug and similar agents, such as leupeptin and camostat, suppress virus HA cleavage and limit reproduction of human and avian influenza viruses with a single arginine in the HA cleavage site. Site-directed structural modifications of aprotinin are possible to increase its intracellular targeting of cleavage of highly virulent H5 and H7 hemagglutinins possessing multi-arginine/lysine cleavage site. An additional mechanism of action for serine protease inhibitors is to target a number of host mediators of inflammation and down regulate their levels in virus-infected hosts. Aprotinin is a generic drug approved for intravenous use in humans to treat pancreatitis and limit post-operative bleeding. As an antiinfluenzal compound, aprotinin might be delivered by two routes: (i) a small-particle aerosol has been approved in Russia for local respiratory application in mild-to-moderate influenza and (ii) a proposed intravenous administration for severe influenza to provide both an antiviral effect and a decrease in systemic pathology and inflammation.
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PMID:Aprotinin and similar protease inhibitors as drugs against influenza. 2180 47


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