Reticuloendothelial System Blockade Promotes Progression from Mild to Severe Acute Pancreatitis in the Opossum

Schleicher, Christina; Baas, J. C.; Elser, H.; Senninger, N.

doi:10.1097/00000658-200104000-00008

Cited by 8 publications

(8 citation statements)

References 32 publications

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“…(a) Bile duct ligation alone is known to raise circulating cholecystokinin levels in the blood and could, by itself, exert a stimulatory effect on the pancreas (14). (b) It has been suggested that bile duct obstruction could be a confounding or aggravating factor for the events involved pancreatic duct obstruction-induced pancreatitis (15,16). (c) Ligation of the pancreatic duct system in mice without compromising the unimpaired flow of bile is technically more prone to surgical complications than ligation of both ducts and the latter is a more likely to reflect the situation that arises when a gallstone is impacted at the papilla.…”

Section: Methodsmentioning

confidence: 99%

Early Changes in Pancreatic Acinar Cell Calcium Signaling after Pancreatic Duct Obstruction

Mooren¹,

Hlouschek²,

Finkes³

et al. 2003

Journal of Biological Chemistry

115

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Intracellular Ca2؉ -changes not only participate in important signaling pathways but have also been implicated in a number of disease states including acute pancreatitis. To investigate the underlying mechanisms in an experimental model mimicking human gallstone-induced pancreatitis, we ligated the pancreatic duct of Sprague-Dawley rats and NMRI mice for up to 6 h and studied intrapancreatic changes including the dynamics of [ influx in response to secretagogue stimulation. Serum pancreatic enzyme elevation as well as trypsinogen activation was significantly reduced by pretreatment of animals with the calcium chelator BAPTA-AM. These experiments suggest that pancreatic duct obstruction rapidly changes the physiological response of the exocrine pancreas to a Ca 2؉ -signaling pattern that has been associated with premature digestive enzyme activation and the onset of pancreatitis, both of which can be prevented by administration of an intracellular calcium chelator.Alterations in intracellular calcium signaling have previously been reported from an experimental animal model of acute pancreatitis that employs supramaximal secretagogue stimulation for the disease induction (1). Moreover, the spatial and temporal distribution of intracellular calcium signals in response to either physiological or pathological stimuli has been found to be directly related to premature digestive enzyme activation in the pancreas and to acinar cell injury (2-5). Intracellular activation of trypsinogen on the other hand can be completely prevented with agents that interfere with either the uptake of calcium, the maintenance of a calcium gradient across the plasma membrane, or the rapid release of calcium from apical intracellular stores (4, 6). All of these studies indicate clearly that the spatial and temporal distribution of intracellular calcium signals plays a critical role in the early cellular events that precede the onset of pancreatitis. The mechanism, however, that was used to induce acinar cell injury in these studies or in response to which intracellular calcium changes were characterized, supramaximal secretagogue stimulation, is not necessarily an event that is generally involved in the pathogenesis of clinical pancreatitis.In many parts of the world the most common etiological factor associated with acute pancreatitis is gallstone disease. Experimental (7) as well as clinical studies (8, 9) suggest that the onset of gallstone-induced pancreatitis requires migration of the offending stone through the biliary tract and its impaction at the duodenal papilla. Here, at the junction of the common bile duct and the pancreatic duct, the stone can impair the flow of pancreatic secretion or lead to a complete blockage of the pancreatic duct. It is now generally accepted that this impairment of pancreatic secretion (7, 10, 11), rather than a potential reflux of bile into the pancreas (13), represents the critical pathophysiological event for the development gallstoneinduced pancreatitis. To investigate whether this clinically relevant...

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Section: Methodsmentioning

confidence: 99%

Early Changes in Pancreatic Acinar Cell Calcium Signaling after Pancreatic Duct Obstruction

Mooren¹,

Hlouschek²,

Finkes³

et al. 2003

Journal of Biological Chemistry

115

View full text Add to dashboard Cite

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“…In gallstone pancreatitis, stone impaction may occur either at the choledochoduodenal junction below the confluence of the biliary and pancreatic ducts, which produces a common channel, or at the confluence of the biliary and pancreatic ducts, which produces obstruction of both ducts. The common channel theory proposed by Opie24 has been challenged by the observation that pancreatic duct pressure exceeds biliary duct pressure, suggesting that, even if a common channel existed, reflux of pancreatic juice into the biliary duct, rather than flow of bile into the pancreas would be expected 29. Fumino et al30 showed clinical evidence of two‐way regurgitation: pancreaticobiliary reflux (PBR) and biliopancreatic reflux (BPR), in patients with anomalous arrangements of the pancreaticobiliary ducts (AAPBD).…”

Section: Discussionmentioning

confidence: 97%

“…They also noted that abdominal pain with hyperamylasemia was significantly more frequent in patients with PBR than in patients with BPR, and hypothesized that hyperamylasemia in patients with AAPBD is caused by cholangiovenous reflux. Today, most authors disagree with the common channel theory proposed by Opie 29…”

Section: Discussionmentioning

confidence: 99%

Gallstone pancreatitis: positive correlation between severe pancreatitis and passed stone

Isogai

Yamaguchi

Harada

et al. 2005

J Hepatobiliary Pancreat Surg

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“…CAR is preferentially incorporated by the Kupffer cells in the liver [36]. Administration of CAR to animals also creates an experimental model of jaundice [37].…”

Section: Discussionmentioning

confidence: 99%

Comparative Analysis of Hepatic CD14 Expression between Two Different Endotoxin Shock Model Mice: Relation between Hepatic Injury and CD14 Expression

et al. 2013

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CD14 is a glycoprotein that recognizes gram-negative bacterial lipopolysaccharide (LPS) and exists in both membrane-bound and soluble forms. Infectious and/or inflammatory diseases induce CD14 expression, which may be involved in the pathology of endotoxin shock. We previously found that the expression of CD14 protein differs among the endotoxin shock models used, although the reasons for these differences are unclear. We hypothesized that the differences in CD14 expression might be due to liver injury, because the hepatic tissue produces CD14 protein. We investigated CD14 expression in the plasma and liver in the carrageenan (CAR)-primed and D-galN-primed mouse models of endotoxin shock. Our results showed that severe liver injury was not induced in CAR-primed endotoxin shock model mice. In this CAR-primed model, the higher mRNA and protein expression of CD14 was observed in the liver, especially in the interlobular bile duct in contrast to D-galN-primed-endotoxin shock model mice. Our findings indicated that the molecular mechanism(s) underlying septic shock in CAR-primed and D-galN-primed endotoxin shock models are quite different. Because CD14 expression is correlated with clinical observations, the CAR-primed endotoxin shock model might be useful for studying the functions of CD14 during septic shock in vivo.

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Reticuloendothelial System Blockade Promotes Progression from Mild to Severe Acute Pancreatitis in the Opossum

Cited by 8 publications

References 32 publications

Early Changes in Pancreatic Acinar Cell Calcium Signaling after Pancreatic Duct Obstruction

Early Changes in Pancreatic Acinar Cell Calcium Signaling after Pancreatic Duct Obstruction

Gallstone pancreatitis: positive correlation between severe pancreatitis and passed stone

Comparative Analysis of Hepatic CD14 Expression between Two Different Endotoxin Shock Model Mice: Relation between Hepatic Injury and CD14 Expression

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