Sara Sevillano scite author profile

Cytokines play a critical role in acute pancreatitis (AP) but the contribution of different cell sources to cytokine production is unclear. Unfortunately, there are no data concerning the molecular mechanisms involved in the inflammatory response in humans during AP. For this reason, the aim of this study was to analyse the ability of acinar cells, in comparison with leukocytes, to produce TNF-alpha at different stages of AP induced in rats by bile-pancreatic duct obstruction (BPDO) and to investigate the time course of oxidant-sensitive mechanisms involved in cytokine production. The role of oxygen free radicals as messengers of the mechanisms underlying acinar cell TNF-alpha production was assessed in BPDO rats treated with N-acetylcysteine (NAC). While monocytes were not able to produce TNF-alpha until 12 h after inducing AP, acinar cells triggered TNF-alpha production from 6 h after BPDO, at which time the pancreas develops maximal oxidative stress. Phosphorylated p38-MAPK and activated NF-kappaB were detected in acinar cells from 6 h after BPDO. NAC treatment reduced pancreatic glutathione depletion during the early stages of AP and attenuated the activation of p38-MAPK and NF-kappaB for 48 h following BPDO. As a result, acinar cells in NAC-treated rats failed to produce TNF-alpha during AP. In addition, NAC delayed monocyte TNF-alpha production, thereby maintaining low TNF-alpha levels in plasma during BPDO. In conclusion, acinar cells contribute directly to the inflammatory response during BPDO-induced AP by producing TNF-alpha even before inflammatory cells in the peripheral blood. The blockade of oxidant-mediated signal transduction pathways induced by NAC treatment prevented acinar cell TNF-alpha production.

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Time-course of oxygen free radical production in acinar cells during acute pancreatitis induced by pancreatic duct obstruction

Uruñuela

Sevillano

Mano

et al. 2002

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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N-acetylcysteine prevents intra-acinar oxygen free radical production in pancreatic duct obstruction-induced acute pancreatitis

Sevillano

Mano

Manso

et al. 2003

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Although oxygen free radicals (OFR) are considered to be one of the pathophysiological mechanisms involved in acute pancreatitis (AP), the contribution of acinar cells to their production is not well established. The aim of the present study was to determine the effect of N-acetylcysteine (NAC) in the course of AP induced by pancreatic duct obstruction (PDO) in rats, directly analysing by flow cytometry the quantity of OFR generated in acinar cells. NAC (50 mg/kg) was administered 1 h before and 1 h after PDO. Measurements by flow cytometry of OFR generated in acinar cells were taken at different PDO times over 24 h, using dihydrorhodamine-123 as fluorescent dye. Histological studies of pancreas and measurements of neutrophil infiltration in the pancreas, pancreatic glutathione (GSH), malondialdehyde (MDA) levels, plasma amylase activity and hemoconcentration were carried out in order to assess the severity of AP at different stages. NAC effectively blunted GSH depletion at early AP stages and prevented OFR generation found in acinar cells as a consequence of AP induced by PDO. This attenuation of the redox state impairment reduced cellular oxidative damage, as reflected by less severe pancreatic lesions, normal pancreatic MDA levels, as well as diminished neutrophil infiltration in pancreas. Hyperamylasemia and hemoconcentration following AP induction were ameliorated by NAC administration at early stages, when oxidative stress seems to be critical in the development of pancreatitis. In conclusion, NAC reinforces the antioxidant defences in acinar cells, preventing OFR generation therefore attenuating oxidative damage and subsequently reducing the severity of PDO-induced AP at early stages of the disease.

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Contribution of Circulating Leukocytes to Cytokine Production in Pancreatic Duct Obstruction-Induced Acute Pancreatitis in Rats

et al. 2002

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Major Pathological Mechanisms of Acute Pancreatitis Are Prevented by N-Acetylcysteine

et al. 2003

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Aim: To analyze the capability of N-acetylcysteine (NAC) to prevent major intra-acinar pathogenic mechanisms involved in the development of acute pancreatitis (AP). Methods: AP was induced by pancreatic duct obstruction (PDO) in rats. Some animals received NAC (50 mg/kg) 1 h before and 1 h after PDO. During a 24-hour period of PDO, plasma amylase activity and pancreatic glutathione and malondialdehyde levels were measured. Cytosolic Ca²⁺ levels and enzyme (amylase and trypsinogen) load in acinar cells were also analyzed by flow cytometry, and histological analysis of the pancreas was performed by electron microscopy. Results: NAC avoided glutathione depletion at early AP stages, thereby preventing pancreatic oxidative damage, as reflected by normal malondialdehyde levels. By limiting oxidative stress, NAC treatment effectively prevented the impairment of Ca²⁺ homeostasis found in acinar cells from early AP onwards, thus protecting the pancreas from damage. In addition, lower quantities of digestive enzymes were accumulated within acinar cells. This finding, together with the significantly lower hyperamylasemia observed in these animals, suggests that NAC treatment palliates the exocytosis blockade induced by PDO. Conclusion: By preventing oxidative stress at early AP stages, NAC administration prevents other pathological mechanisms of AP from being developed inside acinar cells, thus palliating the severity of disease.

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Sara Sevillano

Kinetic study of TNF‐α production and its regulatory mechanisms in acinar cells during acute pancreatitis induced by bile–pancreatic duct obstruction

Time-course of oxygen free radical production in acinar cells during acute pancreatitis induced by pancreatic duct obstruction

N-acetylcysteine prevents intra-acinar oxygen free radical production in pancreatic duct obstruction-induced acute pancreatitis

Contribution of Circulating Leukocytes to Cytokine Production in Pancreatic Duct Obstruction-Induced Acute Pancreatitis in Rats

Major Pathological Mechanisms of Acute Pancreatitis Are Prevented by N-Acetylcysteine

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