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)

In 12 dogs with acute experimental pancreatitis (AEP) and 6 control animals the "free", "latent" and "total" activity of acid phosphatase, beta-glucuronidase and cathepsins in whole homogenates of the pancreas, in a lysosomal-enriched subfraction and the supernatant of pancreatic tissue was estimated. AEP was induced by injection of bile salts and thrombin solution into the pancreatic duct. In 6 dogs the protection with heparin (1.5 mg/kg/body weight) immediately after producing AEP was applied. In AEP without any protection the free activity of hydrolases in the whole homogenate (80--90%) and in the lysosomal enriched subfraction (75--90%) was higher than in the controls (60--70% and 55--75% respectively), suggesting an augmented lysosomal fragility during the course of AEP. Heparin depressed the free activity of hydrolases to 60--80% in whole homogenates, and 64--75% in the lysosomal enriched subfraction. The release of cathepsins during incubation of the lysosomal-enriched subfraction in acidic medium was lower in the group with heparin treatment. The data obtained suggest the stabilising effect of heparin on the lysosomes of the pancreas during acute experimental pancreatitis in dogs.
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PMID:The effect of heparin on lysosomes of the dog pancreas during acute experimental pancreatitis. 47 25

In dogs with acute experimental pancreatitis (AEP) induced according to Elliotts method the total, free and latent activity of lysosomal hydrolases (acid phosphatase, beta-glucuronidase and cathepsins) in whole homogenates and some subfractions of pancreas were studied. The animals were divided into three groups of 6 dogs each: I. control healthy dogs. II. AEP-treated with glucagon (0.33 mg of glucagon in drop infusion 3 times every six hours). III. AEP without any drug treatment. In dogs treated with glucagon the significant decrease of relative free activity of all tested hydrolases (66-80%) in comparison with the group without any treatment (III/80-90%) was found. Moreover significant decrease of total catheptic activity (about 1/3) in the former group was demonstrated. Incubation of lysosomal enriched fraction taken from group II/in medium buffered to pH 5.0 caused decreasing release of catheptic activity (60% of total) in comparison with the group III (75%). The histochemical reaction for acid phosphatase according to Gomoris method in pancreatic acinar cells of dogs treated with glucagon was less intensive than reaction in untreated animals. These results indicate on the less impairment of pancreatic lysosomes in AEP treated with glucagon in comparison with that in untreated animals.
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PMID:The lysosomal hydrolases in acute experimental pancreatitis in dogs treated with glucagon. 84 47

Nineteen patients with acute pancreatitis were examined for the activity of LDH, NADH-tetrazolium oxidoreductase, acid phosphatase, the content of calcium salts, cAMP and cGMP in biopsy tissue of the pancreas; pancreatic enzymes and bicarbonates in the duodenal contents and pancreatic juice. The activity of enzymes participating in oxidative metabolism in epithelial cells of the intact pancreas appeared elevated. During the development of destructive changes in the pancreatic parenchyma, the processes of intracellular oxidation get inhibited, the enzymes go out into the intercellular space, calcium transport gets impaired, and acid phosphatase is activated. It has been found that in acute destructive pancreatitis, primarily impaired are epithelial cells of the islets, followed by the impairment of the epithelium of the acini and at the last moment of that of the excretory ducts. The data obtained enable one to regard cyclonucleotides, calcium, pancreatic enzymes and lysosomal hydrolases as pathogenetic elements of acute pancreatitis.
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PMID:[Morphofunctional elements of the pathogenesis of acute pancreatitis]. 164 89

The role of platelet-activating factor (PAF) as a mediator of pancreatic inflammation was examined in the rat pancreatic duct ligation model of obstructive pancreatitis. Pancreatic generation of PAF, as measured by bioassay (ie, platelet [3H]serotonin secretion), was determined at various times after induction of inflammation. Tissue levels of PAF in the normal pancreas averaged 600 +/- 49 pg/g, but PAF was not detectable during the initial 24 hours of pancreatitis, a time when the inflammatory reaction would be considered acute, that is, during the period of maximal serum amylase release and the development of interstitial edema. However a substantial increase in pancreatic PAF levels (12 times control levels) was observed 7 to 14 days after duct ligation during the late-phase response interval similar to the situation characteristic of chronic pancreatitis in which parenchymal atrophy, fibrosis, and pancreatic insufficiency evolve. One week after duct ligation when PAF levels peaked, an evaluation was made of the effects of PAF antagonists (BN52021 and WEB2170) on pancreatic lesions using Evan's blue extravasation, pancreatic myeloperoxidase (MPO) activity, and acid phosphatase activity in peritoneal lavage fluid. BN52021 or WEB2170 treatment was shown to reduce pancreatic damage and inflammation significantly. Long-term in vivo administration of exogenous PAF (20 micrograms/kg/hr for 7 days) exhibited a reduction of [3H]thymidine uptake into and amylase release from pancreatic acini in vitro. Our observations 1) that pancreatic PAF levels increased significantly during the chronic phase of obstructive pancreatitis induced by duct ligation; 2) that inhibition of the action of PAF, through specific receptor antagonism, caused an attenuation of pancreatic lesions; and 3) that chronic administration of PAF resulted in decreased pancreatic regeneration and exocrine function are consistent with a pivotal role for PAF as a late-phase inflammatory mediator in chronic pancreatitis in rats.
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PMID:Evidence for platelet-activating factor as a late-phase mediator of chronic pancreatitis in the rat. 170 64

Both ethanol abuse and protein deficiency result in pancreatic injury. Moreover, these two variables frequently coexist. As lysosomal enzymes may play a role in the initiation of pancreatic injury, the aim of this study was to determine the effects of ethanol consumption and protein deficiency on pancreatic lysosomal stability. For 3 weeks, male Sprague-Dawley rats were match-fed (in groups of four) isocaloric amounts of one of the following liquid diets: (1) protein-sufficient diet, (2) protein-sufficient diet containing ethanol as 36% of the total energy, (3) protein-deficient diet, and (4) protein-deficient diet containing ethanol as 36% of energy. Pancreatic lysosomal stability was assessed by determining (a) latency, as indicated by the percentage increase in lysosomal enzyme activity in pancreatic homogenate induced by Triton X-100, and (b) by the percentage of lysosomal enzyme remaining in the supernatant after sedimentation of the lysosomal pellet from the pancreatic homogenate. Protein deficiency was associated with a decrease in latency and an increase in supernatant enzyme. Ethanol administration was associated with a decreased latency. Both protein-deficient and ethanol-fed animals exhibited higher pancreatic activities of cathepsin B, a lysosomal protease capable of activating trypsinogen. In addition, protein-deficient animals exhibited higher pancreatic activities of acid phosphatase, N-acetyl-glucosaminidase, and beta-glucuronidase. As lysosomal enzymes are postulated to play a role in the initiation of pancreatitis, these results suggest that ethanol consumption and protein deficiency may at least partly exert their toxic effects on the pancreas by altering pancreatic lysosomal stability and increasing the glandular content of cathepsin B.
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PMID:Both ethanol consumption and protein deficiency increase the fragility of pancreatic lysosomes. 236 35

The pulmonary complications are severe sequeles of acute pancreatitis. The pathogenesis of these complications is unsolved. The purpose of this work was to evaluate the status of lung lysosomes and phospholipase A activity in acute experimental pancreatitis (AEP) and the effect of heparin as a potentially protective agent. Taurocholate-induced AEP in rats lasting 24 and 48 hours was treated with heparin intraperitoneally (2 mg/kg every 8 hours). The total activity of cathepsins and B-glucuronidase in lysosomal enriched subfraction increased markedly during 48 hours of AEP in untreated animals, but the relative free activity was maximal after 24 hours. Free activity of cathepsins and acid phosphatase in supernatant was maximal after 24 hours. The phospholipase A activity was maximally elevated (more than twofold) after 48 hours. Heparin prevented the increase of activity of B-glucuronidase, depressed the relative free activity of all investigated lysosomal hydrolases and inhibited the phospholipase A activity in the lung homogenate. Our results indicate the significance of labilization of lung lysosomes and increment of phospholipase A activity in the lungs in the damage of this organ during AEP in the rats, and suggest the beneficial effect of heparin on these factors.
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PMID:The lung lysosomal hydrolases and phospholipase A in acute experimental pancreatitis with reference to heparin treatment. 243

In acute pancreatitis, damage to the liver is an important aspect of multiorgan failure. In 28 dogs (20 with bile-trypsin induced acute experimental pancreatitis (AEP], 'total' and 'free' activity of lysosomal hydrolases: beta-glucuronidase, cathepsins and acid phosphatase in mitochondrial and lysosomal subfraction of the liver were determined 12 h or 24 h after the induction of AEP. The respiratory control ratio with sodium succinate as a substrate, using Clarck's electrode and uncoupler-dependent ATP-ase activity in mitochondrial subfraction, was assayed. Groups of dogs were treated or pretreated with prostacyclin (PGI2), 20 ng.kg-1.min-1 i.v. for 12 or 13 h. The relative free activity of hydrolases was significantly elevated in untreated AEP after 12 h and was partially normalized in AEP after 24 h or after 12 h followed by treatment and pretreatment with PGI2. Respiratory control ratio was twice lower than normal in AEP after 12 h and partially normalized after 24 h post PGI2 treatment. The relative free activity of lysosomal hydrolases was highly negatively correlated with respiratory control ratio. It was concluded, that during AEP in dogs the function of liver mitochondria and lysosomal stability are impaired. The significant correlation found between the mitochondrial and lysosomal lesions points to lysosomal-mitochondrial interactions in liver damage in AEP. Prostacyclin in the investigated dose partially prevents the mitochondrial and lysosomal lesions in liver in this disease.
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PMID:Lysosomal-mitochondrial interrelationships in damage to the liver in acute experimental pancreatitis in dogs. Treatment with prostacyclin (PGI2). 304 48

The liver affection in acute experimental pancreatitis (AEP) could be reflected by changes of enzymatic activity in the liver and in serum. The histoenzymatic studies of the liver of dogs with AEP of different severity and time of duration induced according to Elliott's method were performed and the constellation of serum enzymatic activities considering treatment with prostacyclin was estimated. The histoenzymatic reactions on succinic dehydrogenase, lactic dehydrogenase and alkaline phosphatase were depressed with progression of time and severity of AEP. In contrast, the reaction on acid phosphatase was augmented at the same time. Serum AspAT, AlAT and alkaline phosphatase were augmented in the later phase of AEP, but acid phosphatase and beta-glucuronidase were not significantly changed. The treatment with PGI2 limited both histoenzymatic reactions and alterations of serum enzymatic activities. These results support the significance of changes in enzymatic activities in the course of liver reaction on pancreatogenic noxa during acute pancreatitis, and suggest the protective effect of PGI2 against liver injury in this disease.
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PMID:The enzymatic studies of the liver in acute experimental pancreatitis in dogs treated with prostacyclin (PGI2). 329 21

The levels of pancreatic digestive enzymes, lysosomal hydrolases, and protease inhibitors were evaluated in ascites fluid from 24 patients with acute pancreatitis diagnosed as alcoholic, gallstone-induced, or idiopathic. In this group the concentrations of amylase (354 +/- 98 ng/ml), immunoreactive cationic trypsinogen (1840 +/- 238 ng/ml), and immunoreactive elastase 2 (1492 +/- 262 ng/ml) were greatly elevated in comparison to the corresponding serum values. Enzyme levels in ascites from the idiopathic pancreatitis group tended to be higher than the levels from the other two groups. Activity of acid phosphatase and beta-glucuronidase was significantly higher in ascites compared to serum in all groups. On the other hand, levels of immunoreactive alpha 1-protease inhibitor and alpha 2-macroglobulin in ascites fluid were about half the average concentrations reported for normal serum. Significant amounts of tryptic amidase activity (61.7 +/- 13.7 micrograms/ml) were observed, indicating a trypsin-alpha 2-macroglobulin complex. These data indicate an imbalance in the protease-to-inhibitor ratio in ascites fluid from patients with acute pancreatitis. Coupled with elevated ribonuclease activity (27.4 +/- 3.4 units), a positive methemalbumin test in 23 of 24 patients (1.1 +/- 0.4 mg hematin/100 ml), and an average protein concentration of 4.0 +/- 0.2 g/100 ml, these observations demonstrate that abdominal paracentesis and the biochemical analyses of ascites fluid provide useful information related to the biochemical events in acute pancreatitis and may be useful in the diagnosis of difficult cases, but their predictive value of severity remains to be established.
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PMID:Biochemical studies in peritoneal fluid from patients with acute pancreatitis. Relationship to etiology. 381 84

The effects of hormonal or cholinergic stimulation on survival and on activities of lysosomal enzymes and amylase in pancreatic tissue and ascites were studied in rats with induced pancreatitis. Pancreatitis per se caused an increase of the activities of cathepsin D, N-acetyl-beta-D-glucosaminidase and amylase, and a decrease of acid phosphatase in pancreatic tissue. Pancreatic protein concentration was not influenced. In pancreatitic rats administration of cerulein or carbachol markedly decreased survival rate. Cerulein increased the activities of cathepsin D and amylase in ascites and cathepsin D and acid phosphatase in pancreatic tissue. Carbachol increased the activities of cathepsin D and amylase in ascites and acid phosphatase in pancreatic tissue. Both cerulein and carbachol decreased the activity of amylase in pancreatic tissue. Administration of secretin or the anticholinergic drug Pro-Banthine did not influence survival rate or the activities of lysosomal enzymes and amylase in ascites. In pancreatic tissue the activity of acid phosphatase was slightly increased by secretin or Pro-Banthine. In conclusion, the results show a nonparallel alteration of lysosomal enzyme activities in pancreatic tissue in rats with pancreatitis. Cerulein and cholinergic stimulation decreased survival rate and brought about a marked increase of cathepsin D activity in ascites and, in the case of cerulein, also in pancreatic tissue. The implication of lysosomes and especially the catheptic proteases in the pathogenesis and outcome of acute pancreatitis deserves further attention.
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PMID:Hormonal and cholinergic effects on amylase and lysosomal enzyme activities in pancreatic tissue and ascites of rats with acute experimental pancreatitis. 619 36


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