Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recently reported that lipase may play a role in the pathogenesis of acute pancreatitis by its ability to release fatty acids from triglycerides. The aim of this study was to further investigate the effect of lipase and its various digestive products on the integrity of isolated pancreatic rat acini. Pancreatic acini were prepared by collagenase digestion and their newly synthesized proteins labeled with 35S-methionine. Acini were later incubated in buffer to which various factors were added: Products of lipolytic digestion, such as various fatty acids and monoglycerides, fat tissue, nonactivated or trypsin activated homogenized pancreatic tissue, and a specific lipase inhibitor (THL, tetrahydrolipstatin). Cellular destruction was quantified by the degree of radiolabeled proteins released. Short chain fatty acids and monoglycerides (up to C-12) caused cellular destruction, whereas long chain fatty acids and their respective monoglycerides were not harmful. With regard to unsaturated fatty acids, long chain fatty acids (C-18 to C-22) were also able to destroy cells. The degree of cellular necrosis correlated with incubation time and fatty acid concentration. The cellular damage caused by incubation of acini with either inactive or trypsin activated pancreatic homogenates together with triglycerides could be completely inhibited by the specific lipase inhibitor THL. Bile alone caused no damage. When bile was combined with activated-pancreatic homogenates, about 25% of newly synthesized proteins were released by acini within 30 min. Incubation with a combination out of bile activated pancreatic homogenates and triglycerides resulted in the most pronounced damage. This acinar destruction could only be partly inhibited by THL. These studies suggest that both lipase and phospholipase-A2 may play an important role in the pathogenesis of acinar cell destruction.
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PMID:Isolated rat pancreatic acini as a model to study the potential role of lipase in the pathogenesis of acinar cell destruction. 128 21

In order to study the changes of lipid metabolism in acute pancreatitis, the following experiments were performed in monogrel dogs. Bile-induced pancreatitis (severe type) and collagenase-induced pancreatitis (mild type) were prepared, and changes of FFA, TG, IRI and IRG were determined for one week. In addition, IVFTT and PHLA were determined at 24th hour, on the 3rd day and 7th day. A rise of FFA was observed during the first 24 hours, which was considered the lypolytic stage. On the 3rd day TG reached the maximal level, while K values in IVFTT and PHLA showed the lowest levels. The above results suggest that the elimination mechanism of TG was impaired on the 3rd day. Changes of FFA, TG, IRI and IRG showed marked differences between the two groups. Therefore it is thought that lipid metabolism in acute pancreatitis is regulated by balance of endogenous pancreatic hormones.
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PMID:[Lipid metabolism in experimental acute pancreatitis]. 329 13

The early pathogenetic steps that finally lead to acinar cell necrosis in acute pancreatitis have been characterized only scarcely as yet. Among a lot of hypotheses, one concept favors disturbances of cellular energy metabolism as a major factor that contributes to preterm cell decline. To investigate, whether an experimental acute pancreatitis alters cell respiration, the respiratory capacities of acinar cells isolated from rats with acute pancreatitis were measured. Acute pancreatitis was induced using Popper's model, i.e., a combination of duct obstruction, secretory stimulation, and mesenteric short-term ischemia with subsequent reperfusion. Acinar cells were isolated using a collagenase digestion technique. The respiratory rates of the isolated cells in suspension were measured at 37 degrees C in 100% oxygen-saturated N-(2-hydroxyethyl)piperazine-N'-2-ethanesulfonic acid-buffered Eagle's-minimal essential medium. Resting respiration of the acinar cells uniformly amounted to about 60 pmol of O2/s x 10(6) cells in both the control and the pancreatitis group. Cellular respiration could significantly be stimulated by stepwise uncoupling of oxidative phosphorylation by means of 2,4-dinitrophenol in all cell suspensions investigated. The maximum rate of stimulated respiration was diminished in the cells isolated from rats with acute pancreatitis as compared with the controls (79.3 +/- 5.0 vs. 160.2 +/- 15.5 pmol of O2/s x 10(6) cells, p < .05), however. This reduced respiratory load capacity of the acinar cells in acute pancreatitis reflects the restricted ability of the cells to increase respiration on enhanced cellular demand. Since mitochondrial respiration is coupled to oxidative phosphorylation, an altered energy-transforming potential of the acinar cells in acute pancreatitis becomes evident.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acinar cell respiration in experimental acute pancreatitis. 777 97

Active digestive enzymes are involved in the pathophysiology of acute pancreatitis. Previous studies have mainly focused on the role of trypsin in the autodigestive process. The present study compares the noxious potential of different pancreatic enzymes to damage acinar cells. Acinar cells were isolated from rat pancreas by collagenase digestion. Cell viability was studied by (1) exclusion of trypan blue, (2) release of lactate dehydrogenase, and (3) release of newly synthesized proteins identified with methionine labeled with sulfur 35. Cells were then incubated in oxygenated N-2-hydroxyethylpiperazine-N-'-2-ethanesulfonic acid-Ringer solution containing different concentrations of various active digestive enzymes. Uptake of trypan blue was the most sensitive and reliable test of cell damage when compared with release of lactate dehydrogenase or radiolabeled newly synthesized proteins. All active digestive enzymes studied caused dose-dependent cell damage. The noxious potential, however, was strikingly different for the various enzymes. Pancreatic elastase in nanomolar concentrations caused marked cell damage after 45 to 90 minutes of incubation. Lipase and chymotrypsin caused a similar damage only at micromolar concentrations, whereas even millimolar concentrations of trypsin failed to cause significant damage. The present results confirmed recent work showing that lipase and phospholipase A2 probably cause cell damage through release of free fatty acids and lysolecithin. Although activation of trypsin might be the trigger to start the activation cascade in acute pancreatitis, trypsin itself is markedly less noxious to acinar cells when compared with other digestive enzymes. Elastase by far had the greatest noxious potential of all enzymes evaluated. Studies analyzing therapeutic effects of protease inhibitors should evaluate not only the inhibitory potential against trypsin but also that against other digestive enzymes, particularly elastase.
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PMID:Active pancreatic digestive enzymes show striking differences in their potential to damage isolated rat pancreatic acinar cells. 784 75

Due to the complexity of interacting organ systems, in vivo the interpretation of results obtained from whole-animal experiments of acute pancreatitis remains difficult. To enlighten cause-and-effect-relationships, functional isolated parts of the pancreas are applied increasingly in research into the pathogenesis of the disease, therefore. By means of a collagenase digestion technique, intact acinar cells from normal as well as from pretreated rat pancreas could reproducibly be obtained in high yield. Animals were pretreated in situ by induction of either mesenteric ischemia/reperfusion, juice edema, or acute pancreatitis (AP). Pancreatic acinar cells isolated from these pretreated rats consumed oxygen at comparable rates under resting conditions throughout all experimental groups. A reduced stress capacity of cell respiration as well as a preterm decline in short-term culture was observed in the cells of the AP group, however. These results demonstrate that the induction of AP has found its reflection within the acinar cells themselves. Interestingly, these effects were not clouded by the isolation procedure. The manner of in-situ pretreatment of the respective animal proved to be decisive for later viability of isolated acinar cells in short-term culture. Uncoupling of oxidative phosphorylation by 2,4-dinitrophenol (DNP) lead to an accelerated decline of the acinar cells in all groups. The intactness of cellular energy metabolism seems to play a crucial role in maintaining cellular integrity, therefore. In additional experiments in vitro, the intracellularly mediated cell damage by DNP was compared with one induced from the extracellular environment of isolated cells by antibodies directed against cell surface antigens plus complement.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Mechanisms for cell damage in acute pancreatitis using isolated acinar cells]. 784 69

Phospholipase A2 (PLA2) has been postulated to play an important role in the pathogenesis of acute pancreatitis. To study the mechanism through which PLA2 may cause cellular damage, we used an in vitro model of isolated rat pancreatic acini prepared by collagenase digestion. Newly synthesized proteins were labeled by [35S]methionine. Cellular destruction was measured by the degree of release of radiolabeled proteins. Incubation of pancreatic acini with PLA2 alone caused only minor damage when very high concentrations of this enzyme were used. However, when acini were incubated with PLA2 in combination with its substrate, lecithin, cells were destroyed in a time- and concentration-dependent manner. Incubating cells with pancreatic homogenates and lecithin caused damage only when there had been prior activation of homogenates with either trypsin or enterokinase. The damage could be simulated by incubating acini with pure lysolecithin. Alcohol and cerulein did not further increase the destruction caused by PLA2 and lecithin. When acini were incubated with supernatants from another set of acini to which oleic acid had been added, a similar degree of damage resulted as compared with acini incubated with oleic acid alone. However, adding PLA2 to supernatants from acini preincubated with fatty acids significantly increased the degree of cellular necrosis. The destruction by PLA2 and lecithin was inhibited by albumin but could not be inhibited by gabexate mesilate, nafamostat mesilate, or cytidine diphosphocholine. We conclude that PLA2 could play a role in pancreatic acinar cell damage, especially in the spread of cellular necrosis within the organ, provided that its substrate, lecithin, is present.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of phospholipase A2 in pancreatic acinar cell damage and possibilities of inhibition: studies with isolated rat pancreatic acini. 841 11

Interleukin-1 beta (IL-1) is a proinflammatory cytokine which is produced within the pancreas during acute pancreatitis reaching levels which are toxic to many cell types. Since antagonism of this cytokine provides dramatic survival benefits during lethal pancreatitis, we hypothesized that IL-1 had direct secretagogue and cytolytic effects within the pancreas. The effect of IL-1 on pancreatic exocrine function and tissue viability was assessed in vivo by blockade of IL-1 with varying doses of IL-1 receptor antagonist (IL-1ra) prior to the induction of either moderate (caerulein-induced) or severe (choline deficient diet-induced) necrotizing pancreatitis. Subsequent in vitro studies were conducted to determine the direct effect of IL-1 on dispersed rat acini prepared through collagenase digestion. Amylase release was measured after a 30-min incubation with varying doses of recombinant IL-1 beta. Viability was determined in the presence of IL-1 via trypan blue exclusion at multiple time points. Blockade of the IL-1 receptor decreased pancreatic amylase release and tissue necrosis in both models of pancreatitis in a dose-dependent fashion (1.0 mg/kg, P = NS; 10 mg/kg, P < 0.05; 100 mg/kg, P < 0.05). Despite these in vivo findings, the addition of IL-1 to acini in vitro had no effect on exocrine function and failed to decrease acini viability (both, P = NS). Pancreatic amylase release and tissue necrosis are significantly attenuated during experimental pancreatitis by IL-1 antagonism. These changes do not appear to be due to the direct action of IL-1 on pancreatic acini and are likely due to more complex interactions between acini and cytokine-producing leukocytes.
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PMID:Acute pancreatitis-induced enzyme release and necrosis are attenuated by IL-1 antagonism through an indirect mechanism. 907 Jan 89

The pathogenesis of chronic pancreatitis (CP) has been debated as to whether it is a de novo process or the consequence of acute pancreatitis (AP). We investigated whether recurrent AP in rats leads to CP, by sequential morphological and biochemical studies. Thirty male Wistar rats were fed a choline-deficient diet with intraperitoneal ethionine injections twice daily at a dose of 60 mg/100 g body weight twice weekly, and six rats were killed at 4, 6, and 8 weeks; the remaining 12 rats, followed without further treatment, were killed at 12 and 16 weeks. The pancreata from study and control groups were examined by histology, immunohistochemistry, and bio- and immunoassays. Histologically, moderate to severe intra- and perilobular fibrosis and other CP-like lesions appeared maximally at 8 weeks. Immunohistochemically, the earliest extracellular matrix change was strong fibronectin staining at 4 weeks, with a progressive increase to 8 weeks. Collagens I and III came to show strong, and collagen IV moderate, interstitial staining at 6-8 weeks. These morphological changes, however, returned to nearly normal at 16 weeks. Prolyl hydroxylase was significantly elevated at 4 and 6 weeks and normalized after 8 weeks, with no significant change in collagenase. In conclusion, our results suggest that even severe CP-like lesions induced by recurrent AP are reversible in the absence of persistently elevated prolyl hydroxylase and/or suppressed collagenase. The mechanism regulating these changes remains to be studied further.
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PMID:Does recurrent acute pancreatitis lead to chronic pancreatitis? Sequential morphological and biochemical studies. 916 78

One way to prevent the occurrence of insulin-dependent diabetes after major pancreatic resection is to perform islet of Langerhans autotransplantation. Thus far, we have performed nine autotransplantations. The last three autotransplantations were performed in patients with benign tumoral pathology (one corporeal mucinous cyst, one isthmic insulinoma and one corporeal cystadenoma). In these three cases, we performed a distal 40%, 75% and 80% pancreatectomy respectively, since enucleation was not indicated or not feasible. After resection and removal of the tumoral lesion, pancreatic segments were injected intraductally with collagenase and digested according to a modified semi-automated Ricordi's technique. We obtained 105,000, 415,000 and 144,300 non-purified islets which were then embolized into the liver by intraportal injection during the same operative procedure. After surgery, all patients were insulin-independent. There was no morbidity or mortality. In a patient who presented acute pancreatitis of the residual pancreas five months after transplantation, insulin therapy was introduced. More than one year after the graft, the two other patients remain insulin-independent. In conclusion, we propose islet autotransplantation after pancreatic resection for benign focal pathology, to prevent or delay the occurrence of insulin-dependent diabetes.
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PMID:[Islands of Langerhans autotransplantation after pancreatic resection for benign pathology]. 928 39

We investigated the time-course of changes in pancreatic fibrosis accompanied with pancreatitis in WBN/Kob rats. The areas of fibrosis and fatty replacement were analysed morphometrically, and biochemical measurements of pancreatic and plasma prolyl hydroxylase and of pancreatic collagenase were assessed. Male rats showed acute pancreatitis at 2-3 months of age, lesions that later underwent a transition to widespread fibrosis. The fibrosis then decreased, and the fibrotic tissue was replaced with adipose tissue. Morphometrically, the fibrotic area reached its maximal size when the rats were 4 months old, diminishing thereafter. The fibrosis occurred mainly in the intralobular space, and was principally attributable to type-III collagen. Type-I collagen scarcely appeared throughout the experimental period. Alpha-Smooth muscle actin appeared in and around myofibroblasts that developed in an early stage and diminished later in accordance with the progressive manner of fibrosis. The plasma prolyl hydroxylase level was higher in males than in females from 4 through 10 months of age. Pancreatic collagenase activity in the males also increased during the same period. These findings suggest that pancreatic fibrosis in male WBN/Kob rats is affected by the balance between prolyl hydroxylase and collagenase.
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PMID:Histopathological and biochemical studies on pancreatic fibrosis in WBN/Kob rats. 1007 Dec 40


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