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Query: UMLS:C0030305 (
pancreatitis
)
16,014
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of oxygen-derived free radicals in the pathogenesis of acute pancreatitis has been investigated in a series of studies using an ex vivo, perfused canine pancreas preparation. Three models of experimental acute pancreatitis have been developed in this preparation: ischemic
pancreatitis
, gallstone
pancreatitis
, and alcohol-induced
pancreatitis
. In each model, the pancreas becomes edematous, gains weight, and the perfusate develops hyperamylasemia during the 4 hour period of perfusion. Pretreatment with the free radical scavengers superoxide dismutase and catalase significantly ameliorates these manifestations of pancreatic injury in each of the three models. The source of the free radical generation was investigated by pretreating the preparation with allopurinol, a quite specific inhibitor of
xanthine oxidase
. In each of the three models, this also significantly ameliorated the injury process. These experiments demonstrate that oxygen-derived free radicals, generated by activated
xanthine oxidase
, appear to play a central role in the pathogenesis of acute pancreatitis in these models. These findings shed light on the fundamental pathophysiology of this disease and may provide the basis for more effective therapy in the future.
...
PMID:Oxygen-derived free radicals and acute pancreatitis: a review. 352 21
Oxygen-derived free radicals play an important role in the pathogenesis of experimental acute pancreatitis in the isolated perfused canine pancreas. We have previously found that pretreatment with allopurinol inhibits
xanthine oxidase
--apparently the primary source of free radical generation in this model--and prevents the initial development of
pancreatitis
. In these experiments, we evaluated whether allopurinol administered after the onset of
pancreatitis
would arrest the progression of the disease process. Edema formation, weight gain, and the release of amylase activity into the perfusate in the ex vivo perfused canine pancreas model were monitored during a 4-hour perfusion period. There were six experimental groups: Group I (control) received no treatment, group II (allopurinol alone) received only allopurinol (100 mg) at the start of perfusion, and groups III through VI were each given an infusion of 0.3 ml of oleic acid (FFA) over a 1-hour period to initiate acute pancreatitis. Group III (FFA alone) received no other treatment. In group IV (pretreatment with allopurinol), group V (concurrent treatment with allopurinol), and group VI (posttreatment with allopurinol), allopurinol (100 mg) was administered 1 hour before, concurrent with, or at the end of the FFA infusion, respectively. Pretreatment with allopurinol prevented edema formation, markedly attenuated weight gain, and the release of amylase caused by the FFA infusion. Administration of allopurinol concurrent with the FFA infusion provided only partial protection, whereas posttreatment with allopurinol failed to arrest the progression of the injury process. Therefore, the use of allopurinol to inhibit oxygen-derived free radical production from
xanthine oxidase
prevented the development of acute pancreatitis in this model; however, treatment with allopurinol after initiation of the disease process failed to arrest the progression of acute pancreatitis.
...
PMID:Temporal efficacy of allopurinol during the induction of pancreatitis in the ex vivo perfused canine pancreas. 382 61
Evidence is presented that supports a role of oxygen free radicals in the pathogenesis of various disorders of the digestive system. In the intestine, there is evidence that oxygen radicals play an important role in the endothelial and epithelial damage associated with certain models of ischemia. The mechanism for superoxide production in this condition differs from that described for other pathologic states (i.e., oxygen toxicity and neutrophil-mediated inflammation). This mechanism involves the reaction of
xanthine oxidase
, hypoxanthine, and molecular oxygen to produce a burst of oxygen radicals with reperfusion of the ischemic bowel. Evidence implicating oxygen radicals in inflammatory disorders of the digestive tract (i.e.,
pancreatitis
), radiation injury, and hepatic cirrhosis is also presented. The available data suggest that oxygen radicals appear to be a fundamental mechanism of tissue injury in the pathogenesis of various disorders of the digestive system.
...
PMID:Role of oxygen-derived free radicals in digestive tract diseases. 635 11
Lazaroids, 21-aminosteroids without gluco- and mineralocorticoid activity, protect against oxidative injury in nervous system cells and may therefore also have a potential for treatment of
pancreatitis
, where oxidative stress contributes to cell injury. The present study evaluates the protective potential of the lazaroids U-78518F, U-74500A, and U-74389F against damage to isolated pancreatic acinar cells exposed to two models of oxidative stress: (a) a XOD/HX model, consisting of
xanthine oxidase
, hypoxanthine, and chelated FeCl3; and (b) an ADP/Fe model, consisting of FeSO4 and the reducing agent ADP. Both models caused time-dependent cell injury as assessed by uptake of trypan blue and release of lactate dehydrogenase. Short-term peak production of free radicals in the XOD/HX model--as monitored by the deoxyribose assay--was more injurious to cells than continuous radical generation at lower levels in the ADP/Fe model. In general, lazaroids at 1-10 microM reduced oxidative damage and deoxyribose oxidation in both models. The degree of reduction of cell damage and deoxyribose oxidation depended on the type and concentration of the lazaroid and the model used. Lazaroid concentrations < 0.1 microM were ineffective, and concentrations > 50 microM even accelerated cell injury, although lazaroids still served as scavengers at high concentrations. At least part of the noxious effects of high lazaroid concentrations is due to nonspecific membrane damage because these concentrations caused cell injury also in the absence of oxidative stress. The limited range of protective concentrations has to be observed in further in vivo studies. Interestingly, acinar cells in the absence of lazaroids also reduced radical-induced deoxyribose degradation.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Lazaroids protect isolated rat pancreatic acinar cells against damage induced by free radicals. 747 66
Oxygen free radicals (OFR) are postulated to play a role in the pathogenesis of acute pancreatitis. The aim of this work was to examine the role of
xanthine oxidase
in the generation of OFR and the activity of the endogenous defense mechanisms as reflected by pancreatic superoxide dismutase (SOD) activity in a model of edematous
pancreatitis
induced in rats by administration of cerulein at supramaximal doses, as well as in necrohemorrhagic model induced by intraductal administration of sodium taurocholate. Comparison between these two models of
pancreatitis
suggests important differences in origin and importance in the evolution of injury. In necrohemorrhagic
pancreatitis
OFR can be produced by
xanthine oxidase
activity probably associated to cell death. By contrast, in cerulein induced
pancreatitis
, other sources of oxygen free radicals, such as inflammatory cells, can be of more importance.
...
PMID:Xanthine oxidase activation in cerulein- and taurocholate-induced acute pancreatitis in rats. 752 65
The purpose of this study was to determine the effect of superoxide dismutase (SOD) on canine experimental
pancreatitis
.
Pancreatitis
was induced by retrograde biliary juice injection (0.5 ml/kg) to accessory pancreatic duct. Twenty-one mongrel dogs were divided into two groups, i.e. control (untreated) group (n = 13) and SOD-treated group (n = 8). In SOD-treated group, SOD 5000 units/kg was administered from celiac artery immediately after onset of
pancreatitis
.
Xanthine oxidase
(XOD), malondialdehyde (MDA), phospholipase (PL), and SOD were assayed from pancreatic tissue 1 and 3 hours after onset of
pancreatitis
. Serum amylase, elastase I, calcium, and WBC were assayed for 7 days after onset of
pancreatitis
. XOD and MDA levels were increased in untreated group, and not significantly changed in treated group with statistical difference. PL levels were increased after onset of
pancreatitis
in both groups and SOD levels were not changed even in treated group. No statistical difference was seen in PL and SOD levels between two groups. Increase of XOD levels suggests continuous generating of free radical species from pancreatic tissue, and SOD inhibits this increase. Increase of PL level was not improved by SOD. Serum laboratory findings and survival rates were not improved by SOD treatment.
...
PMID:[Role of free radicals on canine bile-induced pancreatitis and effect of superoxide dismutase]. 766 54
Four models of acute pancreatitis have been previously developed that use the ex vivo perfused isolated canine pancreas preparation. The four models include the intraarterial infusion of oleic acid (FFA) that mimics hyperlipemic
pancreatitis
, partial obstruction of the pancreatic duct with secretin stimulation (POSS) that mimics gallstone
pancreatitis
, a 2-hour period of ischemia before perfusion (ISCH 2) that mimics shock
pancreatitis
, and the infusion of cerulein at supramaximal stimulatory doses (CER), which lacks an obvious clinical counterpart. In the FFA, POSS, and ISCH 2
pancreatitis
, but not in the CER
pancreatitis
, toxic oxygen metabolites, generated by the enzyme
xanthine oxidase
(XO), have been shown to be important mediators in the early pathogenesis. Ordinarily XO primarily occurs as xanthine dehydrogenase (XD) but can be converted to XO, which is the form that generates toxic oxygen metabolites. This conversion of XD to XO may take place either reversibly by way of sulfhydryl group oxidation or irreversibly by means of proteolytic cleavage of XD. This study was undertaken to investigate the mechanism of conversion of XD to XO in the FFA-, POSS-, and ISCH 2-induced
pancreatitis
models. CER
pancreatitis
was studied for comparison. After 4 hours of perfusion,
pancreatitis
was manifest by edema, weight gain, and hyperamylasemia in all four models. Dithiothreitol, a sulfhydryl group protector, ameliorated the weight gain in the FFA (40 +/- 14 gm to 18 +/- 13 gm; p < 0.05), POSS (28 +/- 10 gm to 9 +/- 3 gm; p < 0.05), and ISCH 2
pancreatitis
(30 +/- 13 gm to 15 +/- 3 gm; p < 0.05), and ameliorated the hyperamylasemia in the POSS
pancreatitis
(12,062 +/- 4304 units/dl to 5877 +/- 2659 units/dl; p < 0.05). The CER
pancreatitis
was not ameliorated with dithiothreitol. A serine protease inhibitor of low molecular weight, phenylmethylsulfonyl fluoride, ameliorated only the CER
pancreatitis
(weight gain from 28 +/- 10 gm to 17 +/- 10 gm, p < 0.05; amylase activity from 38,116 +/- 6491 units/dl to 23,372 +/- 11,654 units/dl, p < 0.05), and not the FFA, POSS, or ISCH 2
pancreatitis
. We conclude that in the three models of
pancreatitis
(FFA, POSS, and ISCH 2) that are mediated by toxic oxygen metabolites, XD is converted to XO reversibly by way of sulfhydryl group oxidation rather than irreversibly by way of proteolysis. In the CER
pancreatitis
, where XO does not play a role in the pathogenesis, proteolytic enzymes may be important mediators in the injury.
...
PMID:The mechanism of conversion of xanthine dehydrogenase to xanthine oxidase in acute pancreatitis in the canine isolated pancreas preparation. 841 95
Recent studies suggest that enhanced release of free oxygen radicals plays an important role in the pathogenesis of acute pancreatitis. Therefore, we studied the activity of the oxygen radical generating
xanthine oxidase
(XOD) in pancreatic tissue from rats treated with either dibutyltin dichloride/ethanol (DBTC/EtOH: 6 mg kg-1/13.7 mg kg-1, i.v.), ethanol alone (EtOH: 13.7 mmol kg-1, i.v.), or isotonic saline (NaCl) as control. We also investigated activities of the oxygen radical scavengers superoxide dismutase (SOD) and glutathione peroxidase (GPX). In addition, levels of the lipid peroxidation marker malondialdehyde (MDA) were determined. Enhanced activity of XOD was not detected. While SOD activity 1 and 6 h after treatment was significantly more reduced by DBTC/EtOH than by EtOH alone, no difference was found thereafter. Correspondingly, both regimens diminished GPX activity. Moreover, DBTC/EtOH and EtOH rapidly increased MDA levels within 1 h, indicating release of oxygen radicals early on after administration. After 16 h the MDA concentration was still elevated only in the DBTC/EtOH group. Although similar metabolic alterations were observed in both groups, only DBTC/EtOH induced acute interstitial
pancreatitis
within 24 h. We conclude that (a) a tissue imbalance between oxidants and antioxidants might be of importance in the pathogenesis of DBTC/EtOH-induced acute interstitial
pancreatitis
; (b) although EtOH increases oxygen radical levels, additional damage is required for development of acute pancreatitis; (c) XOD does not seem to be responsible for significant oxygen radical generation; and (d) the DBTC/EtOH model is a useful tool to study acute interstitial
pancreatitis
in rats.
...
PMID:Oxygen radical generation and acute pancreatitis: effects of dibutyltin dichloride/ethanol and ethanol on rat pancreas. 853 55
The involvement of active oxygen has been suggested in the development of cerulein-induced acute pancreatitis in rats. Previously, we directly detected pancreatic active oxygen (O2-) production in rats with cerulein-induced
pancreatitis
by using a supersensitive photon counter and a cypridina luciferin analogue (MCLA) that reacts specifically with O2- by emitting luminescence. In the present study, with the specific aim of determining the source of O2-, we prepared two groups of animals with cerulein-induced
pancreatitis
: those treated with allopurinol, a
xanthine oxidase
inhibitor; and those treated with nitrogen mustard, a leukopenia-inducing substance. In each of these two groups, pancreatic O2- production and the severity of pancreatic injuries were comparatively studied. In the leukopenic animal group, decreases in O2- dependent chemiluminescence and improvement in the pancreatic condition coincided. This suggests that neutrophils might be involved in experimentally induced
pancreatitis
as a source of active oxygen.
...
PMID:The involvement and sources of active oxygen in experimentally induced acute pancreatitis. 872 Jun 65
This study compares the susceptibility of pancreatic acinar cells and zymogen granules against oxidative injury and analyzes the mechanisms involved. Zymogen granules and acinar cells, isolated from rat pancreas, were exposed to a reaction mixture containing
xanthine oxidase
, hypoxanthine, and chelated iron. Cell function and viability were assessed by various techniques. Trypsin activation was quantified by an Elisa for trypsinogen activating peptide. Integrity of granules was determined by release of amylase. The reaction mixture rapidly generated radicals as assessed by deoxyribose and luminol assays. This oxidative stress caused lysis of granules in a matter of minutes but significant cell death only after some hours. Nevertheless, radicals initiated intracellular vacuolization, morphological damage to zymogen granules and mitochondria, increase in trypsinogen activating peptide, and decrease in ATP already after 5-30 min. Supramaximal caerulein concentrations also caused rapid trypsin activation. Addition of cells but not of granules reduced deoxyribose oxidation, suggesting that intact cells act as scavengers. Caerulein pretreatment only slightly increased the susceptibility of cells but markedly that of granules. In conclusion, isolated zymogen granules are markedly more susceptible to oxidative injury than intact acinar cells, in particular, in early stages of caerulein
pancreatitis
. The results show that oxidative stress causes a rapid trypsin activation that may contribute to cell damage by triggering autodigestion. Zymogen granules and mitochondria appear to be important targets of oxidative damage inside acinar cells. The series of intracellular events initiated by oxidative stress was similar to changes seen in early stages of
pancreatitis
.
...
PMID:Oxidative injury to isolated rat pancreatic acinar cells vs. isolated zymogen granules. 874 74
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