UMLS:C0030305 - FACTA Search

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

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

Hereditary pancreatitis (HP) is the most common form of chronic relapsing pancreatitis in childhood, and may account for approximately 25% of adult cases with chronic idiopathic pancreatitis. Recently, an arginine-histidine (R117H) mutation within the cationic trypsinogen gene was found in 5/5 families studied with HP. In this study we report on the results of linkage and direct mutational analysis for the common R117H mutation examined in 8 nonrelated families with hereditary pancreatitis. Two-point linkage analysis with the 7q35 marker D7S676, done initially in 4 families, yielded lod scores that were positive in 2, negative in one, and weakly positive in one. Direct mutational analysis of exon 3 of the cationic trypsinogen gene in 6 families showed that all symptomatic individuals tested were heterozygous for the R117H mutation. Also, several asymptomatic but at-risk relatives were found to be heterozygous for this mutation. Affected individuals in the remaining 2 families did not have the mutation. Radiation hybrid mapping using the Genebridge 4 panel assigned the trypsinogen gene to chromosome region 7q35, 2.9 cR distal to ETS WI-9353 and 3.8 cR proximal the dinucleotide repeat marker D7S676. The negative linkage and absence of the trypsinogen mutation in 2/8 families suggest locus heterogeneity in HP. Analysis of the R117H mutation is useful in identifying presymptomatic "at-risk" relatives and in genetic counseling. Also, it can be useful in identifying children and adults with isolated chronic idiopathic pancreatitis.
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PMID:Heterogeneity in hereditary pancreatitis. 955 94

1. After monitoring the changes associated with necrotizing acute pancreatitis in rats from early stages to 24 h after infusion of 5% sodium taurocholate in the choledocus, we characterized by flow cytometry the zymogen granules that still remained in the pancreas 18 h after sodium taurocholate infusion in order to explore whether alterations in the enzyme content and/or in the composition of the granule membrane could be related to the intracellular mechanisms involved in the development of necrotizing acute pancreatitis. 2. Significant increases in the haematocrit, plasma and peritoneal exudate amylase levels and oedema were observed from the third hour after 5% sodium taurocholate infusion onwards. Additionally, cell alterations such as hypergranulation, dilatation of the endoplasmic reticulum and autophagic vacuoles were found 3 and 6 h after infusion. DNA decrease, degranulation and necrosis were observed from 12 h after sodium taurocholate infusion onwards. 3. Flow cytometric measurements of zymogen granules isolated from rat pancreas 18 h after 5% sodium taurocholate infusion revealed a significant decrease in their internal complexity without major changes in their size. Double staining of granules with Tetragonolobus purpureus lectin, which specifically binds L-fucose and specific anti-trypsinogen or anti-amylase antisera, showed that rats with induced pancreatitis have decreased amounts of L-fucose in the membrane glycoconjugates and lower enzyme content (70% and 30% less for trypsinogen and amylase respectively). 4. A decrease in L-fucose in the membrane together with membrane abnormalities observed by electron microscopy in zymogen granules isolated 18 h after sodium taurocholate infusion indicate an altered synthesis of new granules or lysis of preformed zymogen granules which would favour differential loss of granular enzymes, mainly trypsinogen, which in turn could increase the severity of disease.
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PMID:Changes in both the membrane and the enzyme content of individual zymogen granules are associated with sodium taurocholate-induced pancreatitis in rats. 961 64

Hereditary pancreatitis (OMIM 167800) is thought to be associated with a mutation of the exon 3 of cationic trypsinogen (Nature Genet (1996): 14:141-145). This paper reports sequence data of two independent families suffering from this disease. PCR amplificates from leukocyte or buccal swab DNA showed no mutation of exon 3 of cationic trypsinogen. Instead, in exon 2, an A-to-T tranversion was found that led to the substitution of Asn by Ile in the sixth amino acid of the active trypsin. In exons 4 and 5, silent mutations were found. In the other expressed trypsinogens, several homozygous alterations not associated to hereditary pancreatitis were identified. As a model of pathogenesis, we hypothesize that mutation of trypsinogen in exon 2 could lead to premature cleavage of the activation peptide of trypsinogen or to altered intracellular transport.
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PMID:Mutations of the cationic trypsinogen in hereditary pancreatitis. 963 18

Although it is widely accepted that trypsinogen activation is an initiating event in the development of acute pancreatitis, its location inside the pancreas is not known. In our studies, acute edematous pancreatitis was induced in rats by one or two intraperitoneal injections of 50 microg cerulein/kg body weight. The pancreas was removed for examination 1 or 2 h after the first and the second cerulein injection, respectively. The cleavage product of trypsinogen activation, trypsinogen activation peptide, was specifically labeled on pancreatic tissue sections by a corresponding antibody, the signal enhanced by a biotin-avidin conjugate, and the site then visualized by coupled peroxidase activity on diaminobenzidine. The sections were examined by light microscopy. Trypsinogen activation peptide, reflecting activation of the pancreatic digestive enzyme trypsinogen, was detected inside pancreatic acinar cells in this animal model of acute pancreatitis. As early as 1 h after the first injection of cerulein, protease activation was seen within the apical pole of acinar cells. Protease activation was increased 2 h after the latter of two injections of cerulein and more evenly distributed within the cells. For the first time morphologic evidence confirms that the activation originates within the acinar cell, rather than from the interstitium or the duct lumen. The location of this activation at the apical site of the acinar cell indicates its origin from subcellular compartments involving the late steps in the secretory pathway.
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PMID:Premature trypsinogen activation during cerulein pancreatitis in rats occurs inside pancreatic acinar cells. 1082 2

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

Hereditary pancreatitis is an autosomal dominant disorder with incomplete penetrance. It is characterised by recurring episodes of severe abdominal pain and often presents in childhood. Recently, a mutation in the cationic trypsinogen gene was identified in this disease. Previously, only one mutation at residue 117 of the trypsinogen gene has been found in the five separate hereditary pancreatitis families, four from the USA and one from Italy. Alteration of the Arg117 site is believed to disrupt a fail-safe mechanism for the inactivation of trypsin, leading to autodigestion of the pancreas under certain conditions. Molecular analysis of the trypsinogen gene was carried out on a hereditary pancreatitis family from the UK. The same G to A mutation at residue 117 was identified in this family, suggesting that this is a common mutation in hereditary pancreatitis.
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PMID:Evidence for a common mutation in hereditary pancreatitis. 971 98

The effects of a new benzodiazepine-derivative, cholecystokinin receptor antagonist, TS-941, on experimental acute pancreatitis were studied in rats. Hemorrhagic pancreatitis was induced by an infusion of a mixture of trypsin and taurocholate into the pancreatic duct. Edematous pancreatitis was induced by intraperitoneal injection of 40 microg/kg body weight of cerulein at 0 and 1 h after the start of the experiment. TS-941 (3 mg/kg) was injected subcutaneously immediately and 3 h after the induction of pancreatitis. In trypsin-taurocholate-induced pancreatitis, TS-941, with or without the synthetic trypsin inhibitor ONO-3403, had no beneficial effects on the survival rate, pancreatic wet weight, and serum pancreatic enzymes. In cerulein-induced pancreatitis, the treatment with TS-941 significantly reduced the increases of pancreatic wet weight and serum amylase and lipase. Plasma trypsinogen activation peptide (TAP) significantly rose 1 h after the first injection of cerulein. TS-941 inhibited the liberation of TAP in cerulein-induced pancreatitis. These results show that TS-941 is effective for prevention of cerulein-induced edematous pancreatitis. ONO-3403 has beneficial effects on trypsin-taurocholate-induced hemorrhagic pancreatitis, but the combination of TS-941 and ONO-3403 has no additive effect.
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PMID:Effects of a new cholecystokinin antagonist, TS-941, on experimental acute pancreatitis in rats. 978 44

The pathological activation of zymogens within the pancreatic acinar cell plays a role in acute pancreatitis. To identify the processing site where activation occurs, antibodies to the trypsinogen activation peptide (TAP) were used in immunofluorescence studies using frozen sections from rat pancreas. Saline controls or animals receiving caerulein in amounts producing physiological levels of pancreatic stimulation demonstrated little or no TAP immunoreactivity. However, after caerulein hyperstimulation (5 micrograms. kg-1. h-1) for 30 min and the induction of pancreatitis, TAP immunoreactivity appeared in a vesicular, supranuclear compartment that demonstrated no overlap with zymogen granules. The number of vesicles and their size increased with time. After 60 min of hyperstimulation with caerulein, most of the TAP reactivity was localized within vacuoles >/=1 micrometer that demonstrated immunoreactivity for the granule membrane protein GRAMP-92, a marker for lysosomes and recycling endosomes. Pretreatment with the protease inhibitor FUT-175 blocked the appearance of TAP after hyperstimulation. These studies provide evidence that caerulein hyperstimulation stimulates trypsinogen processing to trypsin in distinct acinar cell compartments in a time-dependent manner.
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PMID:Codistribution of TAP and the granule membrane protein GRAMP-92 in rat caerulein-induced pancreatitis. 981 30

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