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)

Activities of organelle specific enzymes (succinate dehydrogenase, glucose-6-phosphatase, acidic DNAase, acidic RNAase, acidic and alkaline phosphatases) were measured in homogenates and subcellular fractions of liver tissue of patients with cholelithic disease. Liver tissue samples analyzed were investigated also by light and electron microscopy. The data obtained were considered in connection with localization of cholelith in biliary system, type of inflammation, presence of subhepatic cholestasis and of accompanying syndrome of pancreatitis. Typical alterations were observed in the activity of organelle specific enzymes and in the ultrastructure of mitochindria, lysosomes and endoplasmic reticulum in cholelithic disease. The most distinct alterations in the enzymatic activities were found in choledocholithiasis as well as in subhepatic jaundice.
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PMID:[Changes in organelle-specific enzyme activity and the ultrastructure of liver cells in cholelithiasis]. 19 99

The enzyme gamma-glutamyl transpeptidase is widely distributed throughout the body, notably kidney, seminal vesicles, pancreas, liver, spleen and brain. Being one of the enzymes of the gamma-glutamyl cycle, it is involved in aminoacid transport, catalysing a transpeptidation reaction between gamma-glutamyl peptides and most common amino acids. Methods of assay of the enzyme are based on its ability also to act on synthetic amides of glutamic acid; kinetic methods monitoring the release of p-nitroaniline from the substrate L-gamma-glutamyl p-nitroanilide are the most satisfactory. In diseases of the liver, the highest levels occur in association with cirrhosis, alcoholism, hepatic secondaries and cholestasis. As the enzyme is present in the endoplasmic reticulum of the hepatocyte, its activity is increased in situations leading to microsomal enzyme induction. Raised levels can also occur in pancreatitis, diabetes, myocardial infarction, congestive cardiac failure, chronic renal failure, cerebrovascular accidents, cerebral tumours and chronic obstructive pulmonary disease. Although the lack of specificity must be recognised, the estimation can be useful in the elucidation of some clearly defined problems arising during investigation of patients with suspected hepatic disease, especially where performed as part of a biochemical profile.
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PMID:Role of gamma-glutamyl transpeptidase activity in the diagnosis of hepatobiliary disease. 24 76

Beta-3 thienylalanine, an inhibitor of zymogen formation, was studied in the experimental model of ethionine pancreatitis in the rabbit. Beta-3TA pretreated and nonpretreated rabbits were given ethionine for six days and controls were given chow only. Animals were killed and serum amylase values determined. Pancreatic tissue was studied by light and electron microscopy. Beta-3TA pretreated rabbits on ethionine showed normal amylase values, while those receiving only ethionine showed high values. Microscopic examination showed severe pancreatitis in the nonpretreated group but only mild vacuolization of cells in the Beta-3TA pretreated animals. Electron microscopy demonstrated integrity of rough endoplasmic reticulum in pretreated animals and severe distortion of cytoplasmic organelles in nonpretreated animals.
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PMID:Inhibition of ethionine pancreatitis in the rabbit by DL-BETA-3 thienylalanine pretreatment. 70 64

Acute pancreatitis was induced by ligating the opossum common biliopancreatic duct immediately proximal to its entry into the duodenum, and macroscopic as well as microscopic changes were evaluated during the subsequent 24 hours. Transient pancreatic edema and progressive hyperamylasemia were noted within 6 hours of pancreatic and bile duct ligation. Light microscopic evidence of pancreatic injury including acinar cell necrosis, hemorrhage, fat necrosis, and inflammatory cell infiltration was noted within 12 hours of duct obstruction. Electron microscopic changes included massive dilatation of the rough endoplasmic reticulum and disruption of the apical plasmalemma of acinar cells during the initial 3 hours. These observations indicate that pancreatic and bile duct ligation in the opossum results in the rapid (less than 24 hours) appearance of changes consistent with acute hemorrhagic and necrotizing pancreatitis and that the initial lesion in this model of experimental pancreatitis involves acinar cells.
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PMID:Acute necrotizing pancreatitis in the opossum: earliest morphological changes involve acinar cells. 846 17

A new protein was purified from the pancreatic juice of rats with acute pancreatitis. That protein, not detectable in control animals, was called "pancreatitis-associated protein." It was first observed 6 hours after induction of experimental pancreatitis with taurocholate or cerulein, reached maximal levels of 45 micrograms/mg protein in zymogen granules and 1.8 micrograms/mg protein in pancreatic tissue during the acute phase (48 hours), and disappeared during recovery (day 5). It was never detected in spleen, liver, kidney, heart, or lung. The detection limit of the assay system was 12 ng/mg protein, so that pancreatitis-associated protein levels increased at least 100-fold in pancreatic tissue during the acute phase. The molecular weight (12,000) and isoelectric point (8.2) were determined by two-dimensional gel electrophoresis. Subcellular fractionation and immunoelectron microscopy showed that the protein was synthesized on the rough endoplasmic reticulum and stored in zymogen granules before being secreted, similar to other pancreatic secretory proteins. Immunoblotting and two-dimensional gel electrophoresis revealed that the same protein was synthesized upon induction of pancreatitis by cerulein infusion, by retrograde injection of bile acids, or pancreatitis induced by pancreatic surgery. The pancreatitis-associated protein is therefore an acute-phase protein that differs from other proteins of that family because of its exocrine nature.
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PMID:Characterization of a rat pancreatic secretory protein associated with pancreatitis. 170 29

A membrane-bound system through which secretory and lysosomal proteins travel in a vectorial fashion is essential for the preserved integrity of pancreatic acinar cells. This system is composed of an ordered array of compartments, such as the rough endoplasmic reticulum, the Golgi complex, lysosomes, and secretory granules. As a principle, in acute pancreatitis the final steps of this transport seem to be disturbed. Caerulein-induced pancreatitis is a valuable experimental model for studying altered intracellular transport, and compartmentation of lysosomal and digestive enzymes. The formation of enlarged secretory vacuoles containing lysosomal and digestive enzymes is paralleled by the activation of lysosomes and degradation of cellular organelles in autophagosomes. On the level of secretory and autophagic vacuoles, activation of serine proteases occurs, which in addition to increasing lysosomal enzyme activities can represent the initial stage for acinar cell destruction and the development of pancreatitis.
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PMID:Mechanism of acute pancreatitis. Cellular and subcellular events. 174 43

Hypercalcemia has been associated with acute pancreatitis clinically and in the experimental animal. We studied the pancreatic ultrastructure in acute experimental hypercalcemia. Anesthetized cats (Pentobarbital, 0.55 mg/kg) received Ca++ (Calcium-Gluconate: 0.6 mmol/kgh; n = 4), K+ (KCl: 1.1 mmol/kgh; n = 4) or NaCl (0.9%; n = 4) locally through retrograde infusion into the splenic artery. Biopsies for electron microscopy (EM) were taken at three hours. Eight cats received intravenous Ca++ (0.6 mmol/kgh, 0.3 mmol/kgh after three hours) or NaCl (0.9%) for 12 hours. Biopsies were collected in two animals in three-hour intervals, and in all animals at twelve hours. After local calcium infusion necrotizing pancreatitis was seen macroscopically in the body of the pancreas. Biopsies for EM showed acinar cell necrosis, hydrops of nuclei and mitochondria and needle-like precipitates in the cytoplasma in the center of calcium perfusion. Biopsies taken from the peripheral region of the macroscopically altered tissue revealed desorganisation of the acinar polarisation and the endoplasmic reticulum, with zymogen granules appearing in the basolateral cell-portion. After intravenous calcium administration no macroscopical changes were seen. In EM acinar cells showed dilatation and proliferation of the golgi apparatus and increased number of condensing vacuoles indicating stimulation. Again, disorganisation of acinar cell polarisation was present. Control animals treated with K+ or NaCl showed normal pancreatic ultrastructure. The morphological changes after calcium infusion indicate direct damage to the acinar cell. Our results suggest that hypercalcemia induced pancreatitis could originate in the acinar cell.
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PMID:[Electron microscopy of the exocrine pancreas in experimental acute hypercalcemia]. 186 39

Previous studies using the isolated ex vivo perfused canine pancreatitis preparation showed that during a 4-hour perfusion pancreatitis (edema, weight gain, hyperamylasemia) can be induced by four different stimuli. The stimuli include the intra-arterial infusion of oleic acid (FFA), a 2-hour period of ischemia before perfusion (ISCH), partial obstruction of the pancreatic duct with secretin stimulation (POSS), and the intra-arterial infusion of cerulein at supramaximal doses (CER). In the present study, changes in high-energy phosphate metabolism, as determined by nuclear magnetic resonance spectroscopy, and changes in cellular structure, determined by light and electron microscopy, were documented for all four models of acute pancreatitis. The control preparations remained stable for the 4-hour perfusion period, with no decrease in adenosine triphosphate (ATP) levels. In the FFA preparations, ATP decreased to 36% of baseline levels during the 4-hour perfusion (p less than 0.001). In the ISCH preparations, ATP decreased to undetectable levels during the 2-hour period of ischemia, but recovered rapidly and remained at baseline levels during the perfusion. ATP levels remained stable in the remaining two models of pancreatitis (POSS, CER). Microscopy demonstrated that the initial injury was located chiefly in the capillaries (swollen endothelium, intravascular thrombi) in the FFA and ISCH preparations. In the POSS and CER preparations, capillary changes were minimal and the injury was located chiefly in the acinar cells (swollen endoplasmic reticulum, zymogen granule depletion, vacuolization). The POSS preparations also showed striking dilation of centroacinar lumens reflecting duct obstruction. In additional studies it was shown that the ATP decline in the FFA preparations could be significantly reduced by pretreatment with free radical scavengers. The morphologic changes could be reduced by free radical scavengers in the FFA and ISCH preparations. Any amelioration of morphologic injury in the POSS preparations was obscured by dilatation of centroacinar lumens in both treated and untreated groups. The morphologic changes in the CER preparations were reduced by treatment with a cholecystokinin inhibitor.
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PMID:Changes in high-energy phosphate metabolism and cell morphology in four models of acute experimental pancreatitis. 200 16

The early lesions induced in the pancreas of dogs by the intraductal injection of bile-trypsin were studied. Histological, histochemical and electron microscopic techniques were used. The primary lesions analyzed thirty three minutes after the induction of pancreatitis consisted in cell alterations, blood stasis and oedema. At first, the affected acinar cells showed enlargement of the rough endoplasmic reticulum cisternae, later they were disrupted and then appeared vesicles with ribosomes adhering to the external surface. Mitochondria were swelled and showed cristae disrupted which finally appeared destroyed. The zymogen granules lost density, decreased in size and number and later disappeared, Ducts maintained the normal structure and their cells were still observed in areas where the tissue was greatly destroyed. the results obtained suggest that: 1) The experimental acute pancreatitis induced by bile-trypsin is characterized by primary and severe damage in the acinar cells, with secondary ischemia due to stasis and intravascular coagulation. 2) Cellular rests and probably endogenous enzymes invade the periacinar spaces, then would penetrate into the vascular system producing the generalization of lesions.
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PMID:[Acute pancreatitis induced by bile trypsin: structural and ultrastructural study]. 227 10

The regeneration of the rat exocrine pancreas from a hormone-induced pancreatitis was investigated. In a previous study it was shown that the [3H]thymidine labeling index of interstitial cells increases 20- to 30-fold on day 1.5 after the induction of pancreatitis. Here we show by electron microscopic autoradiography that 80% of the labeled interstitial cells are fibroblasts. Their replication, fine structure, and collagen biosynthesis was further investigated: By day 2.5 numerous mitotic figures were found, indicating an enhanced proliferative activity of fibroblasts at the early stage of pancreatic regeneration. The ultrastructural analysis revealed that many fibroblasts contain abundant cytoplasm with a well-developed rough endoplasmic reticulum, prominent Golgi complexes, and secretory granules filled with fibrillar material. In contrast, the pancreatic fibroblasts of saline-infused control animals were shown to be spindle-shaped and to contain only very little cytoplasmic organelles. The collagen biosynthesis was quantified by in vivo labeling with [3H]proline and quantification of [3H]hydroxyproline in pancreatic protein hydrolysates. The collagen biosynthesis of experimental pancreata was measured to be 15 times that of controls on days 1.5 and 2.5 after the induction of pancreatitis and to remain fourfold elevated on days 3.5 through 10.5. In pulse-chase experiments using [3H]proline as the labeled precursor for collagen, the newly synthesized collagen was shown to be degraded with a half-life of 35 h. We conclude that replication of pancreatic fibroblasts and collagen biosynthesis as well as collagen degradation play important roles in the early phase of pancreatic regeneration.
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PMID:Fibroblast structure and function during regeneration from hormone-induced acute pancreatitis in the rat. 275 41


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