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)

A previous report has shown that undernutrition reduces the mortality of acute experimental pancreatitis probably by decreasing pancreatic enzyme content. Cerulein in physiological doses reduces the enzyme content of the pancreas without any harmful effect on the organ. The aim of the present study was to asses the effect of acute reduction of pancreatic enzyme content on the outcome of acute pancreatitis. Two groups of male Wistar rats weighing 230-250 g were studied: group I, 12-h fasted animals, and group II, ad libitum-fed animals who received cerulein at the inframaximal dose (0.2 microgram kg-1 h-1) for 2 h. Cerulein administration resulted in the reduction of the pancreatic contents of chymotrypsinogen (71%), trypsinogen (55%), proelastase (60%), amylase (62%) and cathepsin B (45%) (P < 0.05). However, no significant reduction in pancreatic phospholipase content was observed. Acute pancreatitis was induced in group I after 12-h fasting and in group II at the end of cerulein infusion by retrograde injection o 0.5 ml of 2.5% Na+ taurocholate into the pancreatic duct. Ascites volume and the degree of histologically observed lesions were similar in both groups, but 72-h mortality was 56% in the control group (10/ 18) and 23% (5/22) in the cerulein group (P < 0.05). We speculate that the reduction of pancreatic enzyme content may exert its beneficial effect in acute pancreatitis by decreasing the quantity of pancreatic enzymes reaching the circulation and consequently their pathogenic effects.
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PMID:Reduction of pancreatic enzyme content and mortality in experimental acute pancreatitis in rats. 852 May 45

The effect of a potent protease inhibitor, sepimostat mesilate (CAS 103926-82-5, FUT-187), on acute interstitial edematous pancreatitis induced by a supramaximal dose of cerulein, a cholecystokinin (CCK) analogue, was evaluated. The serum amylase activity increased 18-fold over normal control after the infusion of cerulein at 5 micrograms/kg/h for 6 h. The serum lipase activity showed a 235-fold increase. An elevated pancreatic water content, pancreatic interstitial edema, inflammatory infiltration and vacuolization of the acinar cells were found. Redistribution of cathepsin B shifted from the lysosomal pellet fraction to the zymogen granule pellet fraction was noted in the early stages. All these parameters of pancreatitis mentioned above were inhibited by FUT-187 pretreatment at doses of 30 to 300 mg/kg. These observations suggest that FUT-187 inhibits the redistribution of cathepsin B shift from the lysosomal fraction to the zymogen fraction in cerulein-induced acute pancreatitis and improves the parameters of acute pancreatitis.
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PMID:Effect of the oral administration of sepimostat mesilate on cerulein induced acute pancreatitis in rats. 859 64

Ethanol abuse is a well known association of pancreatitis. Research into the pathogenesis of alcoholic pancreatitis has generally followed two directions. Firstly, factors which may predispose alcoholics to pancreatitis have been examined. To date, these studies have been negative and the predisposing factor(s) remain unknown. The second approach has involved studies on the constant metabolic effects of ethanol on the pancreas which may render the acinar cell susceptible to digestive enzyme induced injury. Recently developed models of experimental pancreatitis have implicated intracellular activation of digestive enzymes by lysosomal enzymes as an early event. Using the Lieber-DeCarli model of ethanol administration to rats, a number of changes have been described in pancreatic acinar cells which may predispose the gland to autodigestion. These changes include: (1) increased glandular content of digestive enzymes as a result of increases in mRNA levels for these enzymes; (2) increased glandular content of the lysosomal enzyme cathepsin B (known to be capable of activating trypsinogen); (3) increased fragility of lysosomes possibly mediated by cholesteryl esters and fatty acid ethyl esters; and (4) increased fragility of zymogen granules. These effects of ethanol constitute a "primed" setting (the "Drinker's Pancreas") for autodigestion. Triggering factors for autodigestion in this setting have not yet been identified.
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PMID:Ethanol induced acinar cell injury. 897 57

Cathepsin B is a lysosomal cysteine protease of the papain family. It functions in intracellular protein catabolism and in certain situations may also be involved in other physiological processes, such as processing of antigens in the immune response, hormone activation and bone turnover. There is also evidence that cathepsin B is implicated in the pathology of chronic inflammatory diseases of airways and joints, and in cancer and pancreatitis. In this short review we outline the major structural features of the enzyme, and describe how these relate to its synthesis, trafficking, processing and function.
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PMID:Cathepsin B. 925 Dec 38

The etiology of acute pancreatitis is based on several causes, among which idiopathic nature (< 30%) is second to biliary stone disease (60-70%). It is still under debate whether alcohol as the main cause of chronic pancreatitic disease can cause acute pancreatitis. Based on Opie's "obstruction theory" of 1901 and experimental data, it is now widely accepted that the gallstone passage into or through the terminal biliopancreatic ductal system triggers acute (necrotizing) pancreatitis by causing pancreatic ductal obstruction. However, the sequential intracellular mechanisms in the pathogenesis of acute pancreatitis remain unclear. A co-localization hypothesis has been proposed to explain the premature intracellular activation of trypsinogen to trypsin: due to a yet unknown defect in the intracellular protein transport and sorting system within the acinar cell, lysosomal hydrolases (i.e. cathepsin B) and secretory proteins (i.e. trypsinogen) co-localize in a fragile postgolgi vacuole where activation can occur. In addition, alterations of exo- and endocytosis at the apical pole exist (i.e. secretion block). The pathophysiological events are characterized by local and systemic hypovolemia and (micro)circulatory failure aggravating necrosis, followed by ARDS, renal failure and several other severe complications (i.e. sepsis and DIC). The systemic overflow of proteolytic enzymes (i.e. PLA-2) and kinins plays a major role as mediating factor in severe cases, resulting in multiorgan failure.
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PMID:[Etiology, pathogenesis and pathophysiology of acute pancreatitis]. 928 10

Activation of trypsinogen is thought to trigger the autodigestive process in acute pancreatitis. The lysosomal enzyme cathepsin B was suggested to cause the activation of trypsinogen because it is known that cathepsin B is able to activate trypsinogen in special circumstances and that lysosomal and digestive enzymes are colocalized within intracellular vacuoles in the early stage of pancreatitis. As yet this hypothesis has been difficult to prove because activated trypsin is difficult to quantify in pancreatitis by conventional enzymatic measurements. We therefore employed an ELISA for trypsin activating peptide (TAP), which is a small peptide cleaved during the activation of trypsinogen and can be determined reliably. Supraphysiological concentrations of cerulein (1 nM-1 microM) resulted in a marked increase in TAP in freshly isolated pancreatic acinar cells, indicating activation of trypsinogen. This activation as determined by the TAP increase was significantly reduced by the serine protease inhibitor Fut-175 but not by the cathepsin B inhibitors E-64 and NCO-700. The concentrations of NCO-700 and E-64 abolished the cathepsin B activity of pancreatic acinar cells but did not significantly reduce the trypsin activity (after enterokinase preincubation); correspondingly the concentrations of Fut-175 used abolished the trypsin activity but did not reduce the cathepsin B activity. The results indicate that an autoactivation of trypsin rather than an activation of trypsinogen by cathepsin B triggers trypsin activation by supramaximal cerulein concentrations.
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PMID:Inhibition of cathepsin B does not affect the intracellular activation of trypsinogen by cerulein hyperstimulation in isolated rat pancreatic acinar cells. 943 69

To investigate the debated role of intracellular trypsinogen activation and its relation to lysosomal enzyme redistribution in the pathogenesis of acute pancreatitis, rats were infused with the cholecystokinin analog caerulein at 5 micrograms.kg-1.h-1 for intervals up to 3 h, and the changes were contrasted with those in animals receiving saline or 0.25 microgram.kg-1.h-1 caerulein. Saline or 0.25 microgram.kg-1.h-1 caerulein did not induce significant changes. In contrast, 5 micrograms.kg-1.h-1 caerulein caused significant hyperamylasemia and pancreatic edema within 30 min. Pancreatic content of trypsinogen activation peptide (TAP) increased continuously (significant within 15 min). TAP generation was predominantly located in the zymogen fraction during the first hour but expanded to other intracellular compartments thereafter. Cathepsin B activity in the zymogen compartment increased continuously throughout the experiments and correlated significantly with TAP generation in the same compartment. Total trypsinogen content increased to 143% with marked interstitial trypsinogen accumulation after 3 h. Supramaximal caerulein stimulation causes trypsinogen activation by 15 min that originates in the zymogen compartment and is associated with increasing cathepsin B activity in this subcellular compartment. However, a much larger pool of trypsinogen survives and accumulates in the extracellular space and may become critical in the evolution of necrotizing pancreatitis.
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PMID:Subcellular kinetics of early trypsinogen activation in acute rodent pancreatitis. 945 75

Supramaximal stimulation of the pancreas with the CCK analog caerulein causes acute edematous pancreatitis. In this model, active trypsin can be detected in the pancreas shortly after the start of supramaximal stimulation. Incubation of pancreatic acini in vitro with a supramaximally stimulating caerulein concentration also results in rapid activation of trypsinogen. In the current study, we have used the techniques of subcellular fractionation and both light and electron microscopy immunolocalization to identify the site of trypsinogen activation and the subsequent fate of trypsin during caerulein-induced pancreatitis. We report that trypsin activity and trypsinogen-activation peptide (TAP), which is released on activation of trypsinogen, are first detectable in a heavy subcellular fraction. This fraction is enriched in digestive enzyme zymogens and lysosomal hydrolases. Subsequent to trypsinogen activation, both trypsin activity and TAP move to a soluble compartment. Immunolocalization studies indicate that trypsinogen activation occurs in cytoplasmic vacuoles that contain the lysosomal hydrolase cathepsin B. These observations suggest that, during the early stages of pancreatitis, trypsinogen is activated in subcellular organelles containing colocalized digestive enzyme zymogens and lysosomal hydrolases and that, subsequent to its activation, trypsin is released into the cytosol.
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PMID:Intra-acinar cell activation of trypsinogen during caerulein-induced pancreatitis in rats. 968 63

This study was designed to evaluate the possible role of cytokines (IL-1 and TNF-alpha) in the pathogenesis of acute pancreatitis in the early stage of the disease and to evaluate the protective effect of the cytokine suppressive agent, FR167653, against pancreatic injuries. Acute pancreatitis was induced in rats by closed duodenal loop. However, the free passage for the gastrointestinal contents was maintained by inserting the tube into the duodenum. In this model, the survival rate was significantly decreased as compared with the control sham-operated rats at 48 h after induction of pancreatitis. Marked hyperamylasemia and a significant increase in pancreatic water and trypsin contents were observed at 24 h after induction of pancreatitis. Pancreatic subcellular redistribution of lysosomal enzyme cathepsin B from the lysosomal fraction to the zymogen fraction was also observed. However, treatment with FR167653 at a dose of 1.5 mg/kg (four times, every 6 h after induction of pancreatitis) significantly prevented all these pancreatic injuries, improving the survival rate. These results indicate that cytokines such as IL-1 and TNF-alpha may be involved in the pathogenesis of acute pancreatitis in the early stage of the disease, and that a cytokine-suppressive agent might be of therapeutic value for the treatment of acute pancreatitis.
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PMID:Cytokine suppressive agent improves survival rate in rats with acute pancreatitis of closed duodenal loop. 992 44

The protective effects of glucagon on the exocrine pancreas were investigated in rats with a closed duodenal loop (CDL). A CDL in rats caused marked hyperamylasemia, pancreatic edema and pancreatic histological damage such as acinar cell vacuolization and interstitial edema. A CDL also caused redistribution of the lysosomal enzyme, cathepsin B, from the lysosomal fraction to the zymogen fraction as well as the activation of trypsinogen in pancreatic tissue. Moreover, a CDL caused a marked motality rate (40% at 48 h). However, treatment with glucagon at a dose of 1.0 mg/kg (subcutaneous injection) every 8 h (3 times) significantly inhibited these pancreatic injuries, improving the survival rate (95% at 48 h). These results indicate the important role of lysosomal enzymes in the pathogenesis of severe acute pancreatitis, and also suggest the possible usefulness of glucagon in the treatment of clinical pancreatitis.
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PMID:Glucagon ameliorates pancreatic subcellular redistribution of lysosomal enzyme in rats with acute pancreatitis of closed duodenal loop. 994 62


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