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)

Acute haemorrhagic pancreatitis was induced in greyhound dogs by a bile salt/trypsin injection into the main pancreatic duct. Prostaglandin-like activity in the pancreatic venous blood, right atrial blood, and arterial blood was measured by bioassay. Activity rose significantly in the pancreatic venous blood of test dogs but not in controls. Chromatographic analysis of the peritoneal exudate from the dogs with pancreatitis showed high levels of prostaglandin E-like material (mean 43 ng/ml prostaglandin E2 equivalents). It seems likely that prostaglandins contribute to the induced pancreatitis.
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PMID:Prostaglandin release in canine acute haemorrhagic pancreatitis. 126 76

The pancreatic release of arachidonic acid metabolites was studied in a porcine model of acute pancreatitis. In situ isolation of the pancreatic gland enabled selective collection of pancreatic venous blood, pancreatic lymph, and ascites fluid. Three experimental groups were studied: 1) control (n = 9); 2) hemorrhagic pancreatitis induced by injection of 5% bile salt (sodium taurocholate) into the pancreatic duct (n = 10); and 3) edematous pancreatitis induced by injection of free fatty acid (FFA) into the pancreatic artery (n = 10). Determinations of cyclooxygenase metabolites were performed by radioimmunoassay; lipoxygenase metabolites (LTC4, LTD4) were measured by radioimmunoassay after purification by high-performance liquid chromatography. Prostaglandin (PG)F1 alpha, thromboxane B2, and PGF2 alpha concentrations were almost doubled in the lymph of the FFA group during pancreatitis, as were PGF1 alpha levels in pancreatic venous blood. However, concentrations of cyclooxygenase metabolites remained unchanged in the control group and in the bile salt group. Concentrations of LTC4 and LTD4 in lymph and ascites fluid of both pancreatitis groups increased from about 50 pg/ml to a mean level of 600 pg/ml at 6 h. Leukotriene concentrations in the control group were consistently below 50 pg/ml. The results of this study indicate that above all LTC4 and LTD4 are released from the organ and that these arachidonic acid metabolites may be also involved in the events following acute pancreatitis contributing to the systemic effects of the disease.
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PMID:Release of arachidonic acid metabolites during acute pancreatitis in pigs. 260 7

Alcohol has at least two actions on essential fatty acid (EFA) and Prostaglandin (PG) metabolism. It enhances the conversion of dihomogammalinolenic acid (DGLA) to PGE1 but it blocks the activity of the delta-6-desaturase, an enzyme necessary for replenishment of DGLA stores from dietary precursors. The acute effect of ethanol is therefore an increased production of PGE1 but chronic consumption will lead to depletion of DGLA and PGE1. Withdrawal from alcohol will lead to a precipitous fall in PGE1. PGE1 is known to have profound effects on the nervous system and behaviour. Patients with mania produce more PGE1 than normal while those with depression make less. Alcoholics may drink to maintain a normal PGE1 level, something which will require more and more ethanol as DGLA is depleted. In both animals and humans PGE1 or its precursor, gamma-linolenic acid (GLA) have been shown to attenuate the acute withdrawal syndrome. PGE1 injections prevent the development of fatty liver in alcohol-treated animals. Defective EFA and PGE1 metabolism are known to lead to increased fibrosis, reproductive failure, cardiomyopathy, cardiovascular disorders, gastritis and pancreatitis and could therefore be the basis for these disorders in alcoholics. A PGE1 deficiency could also be responsible for the fetal alcohol syndrome. Three other agents are known to produce constellations of fetal defects very similar to those found in the alcohol syndrome. These other factors are dihphenylhydantoin, lithium, and a deficiency of zinc. These three factors and excessive alcohol consumption all lead to PGE1 deficiency by different routes. If this concept is correct, the key to the management of alcoholism and its medical complications lies in the provision of GLA or DGLA, fatty acids which by-pass the alcohol blocked step and which are unfortunately unlikely to be present in any normal diet. Unlike many concepts of alcoholism and alcohol damage, the EFA/PGE1 idea is very readily testable and already has considerable experimental support.
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PMID:A biochemical basis for alcoholism and alcohol-induced damage including the fetal alcohol syndrome and cirrhosis: interference with essential fatty acid and prostaglandin metabolism. 625 73