Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In order to clarify the derangement of the pancreatic microcirculation in acute pancreatitis, the pancreatic microcirculation in caerulein pancreatitis was monitored intravitally and the roles of bradykinin and nitric oxide were examined using bradkykinin B2 receptor antagonist, HOE140. Under an intravital microscope, the pancreatic microcirculation was observed 2 or 6 hr after the induction of acute pancreatitis. HOE140 was administered 30 min before the induction of acute pancreatitis. The videoimages were taken into the computer, and the value of grayscale was measured with imaging software to quantify the degree of extravasation. Extravasation in the postcapillary venules was remarkable and the velocity in pancreatic terminal arterioles decreased significantly. However, the adherence of leukocytes was not observed until 6 hr after the induction. Both the extension of extravasation and the decrease of velocity were prevented by HOE140. The levels of nitric oxides in the pancreatic tissue declined and this decline was not influenced by HOE140. Bradykinin participates mainly in the regulation of vascular permeability in the early stage of caerulein pancreatitis. Further, the impairment of pancreatic microcirculation may play a key role in the onset and development of acute pancreatitis.
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PMID:Analysis of the derangement of the pancreatic microcirculation in a rat caerulein pancreatitis model using an intravital microscope system. 911 66

Nitroglycerine, acting a nitric oxide donor, is known to relax visceral smooth muscle. We report a case where pain associated with pancreatitis after ERCP was successfully treated with sublingual nitroglycerine 0.5 mg. The analgesic effect lasted approximately two hours. Further controlled studies should evaluate the effect of nitroglycerine on pain associated with pancreatitis as well as clarify the mechanisms involved.
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PMID:[Effect of sublingual nitroglycerin on pain following ERCP]. 912 35

The significance of host defense mechanisms in primary listeriosis in vivo is incompletely understood. Here, we show that tumor necrosis factor receptor p55-/- (TRp55-/-) mice are susceptible to Listeria monocytogenes infection in the presence of leukocyte recruitment, inflammatory cytokine production (including IFNgamma), nitric oxide synthesis, and oxidative burst formation. Mice deficient for oxidative burst (p47[phox-/-] mice) are relatively resistant to listeriosis. Despite activation of these antibacterial effector systems, TRp55-/- phagocytes in vivo are incapable of confining and eradicating L. monocytogenes inside phagolysosomes. Bone marrow chimeras reveal that for eradication of L. monocytogenes, TRp55 is crucially required only on cells from hematopoietic origin. Unexpectedly, prior to death, exocrine pancreatic cells undergo apoptosis in TRp55-/- mice. Collectively, these data demonstrate that in vivo, TRp55 initiates a protective, listericidal mechanism in phagocytes that differs from nitric oxide production and oxidative burst formation and that uncontrolled listeriosis results in necrotizing pancreatitis in TRp55-/- mice.
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PMID:Listeriosis in p47(phox-/-) and TRp55-/- mice: protection despite absence of ROI and susceptibility despite presence of RNI. 932 62

The behavior of neutrophils in a rat acute pancreatitis model was observed in the pancreas and liver using fluorescence microscopy with an image analyzing system after labeling with a specific fluorescent reagent. Nonviable cells of both organs were also labeled and quantified. The role of nitric oxide in neutrophil accumulation and organ damage was estimated by administering a relatively selective inhibitor of constitutive nitric oxide synthase, N-nitro-L-arginine (L-NNA). The animal model of acute pancreatitis was induced by cerulein injection (80 mg/kg). Two groups were created, one given and the other not given L-NNA (2.5 mg/kg) prior to the induction of pancreatitis. The number of accumulated neutrophils in the pancreas and liver increased in a time-dependent manner. There was a close relation between the distribution of the neutrophils and inviable acinar cells or hepatocytes. When pretreated with L-NNA, the numbers of accumulated neutrophils and nonviable cells increased significantly in the pancreas. In the liver, a more pronounced accumulation of neutrophils was observed after treatment with L-NNA. Although hepatocyte injury was mild despite the neutrophil accumulation in the control, such injury was marked in the group treated with L-NNA. This suggests that neutrophils serve an important role in exacerbating acute pancreatitis and that nitric oxide provides a defense mechanism against neutrophil accumulation in pancreas and liver.
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PMID:Neutrophil behavior in pancreas and liver and the role of nitric oxide in rat acute pancreatitis. 933 96

Local microcirculatory dysfunction within the pancreatic gland might be an important factor in the conversion of oedematous to necrotizing pancreatitis. Therapeutic agents, improving the pancreatic blood flow, might be valuable in acute pancreatitis treatment. An influence of nitric oxide, heparin and procaine treatment on microcirculatory values in acute pancreatitis (AP) in rats was investigated. Acute pancreatitis was induced by i.p. injection of cerulein in four doses of 15 microg kg-1 each at 1-h intervals. The rats with pancreatitis were divided into five groups, 12 animals each. One group remained without treatment, four groups were treated i.p. either with NO synthase inhibitor L-NNA (2x25 mg kg-1 or heparin 2x2.5 mg kg-1 or L-arginine 2x100 mg kg-1 or procaine 2x25 mg kg-1. Five control groups, ten animals each, received saline, L-NNA, heparin, L-arginine or procaine only. Five hours after the first ceruleine injection microcirculatory values within the pancreas were measured by means of laser Doppler flowmetry. Acute pancreatitis caused a significant drop of microcirculatory value to 37% of the basal value. The L-NNA administration resulted in a further insignificant reduction of the pancreatic blood flow to 34%. An improvement of microcirculation was observed in rats with pancreatitis receiving heparin (76%) and L-arginine (72%). Procaine had no effect on microcirculatory disturbances within the pancreas in rats with pancreatitis. Cn-induced acute pancreatitis (AP) causes microcirculatory deterioration within the pancreas. Heparin and nitric oxide donor, L-arginine, might be considered as therapeutic agents, improving the diminished pancreatic tissue perfusion observed in acute pancreatitis. Procaine does not improve the pancreatic blood flow in acute pancreatitis.
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PMID:Microcirculatory disturbances of the pancreas in cerulein-induced acute pancreatitis in rats with reference to L-arginine, heparin, and procaine treatment. 934 40

Macrophage overproduction of inflammatory mediators is detrimental in the progression of acute pancreatitis. Although inhibition of inflammatory mediators has been shown to decrease the severity of experimental pancreatitis and improve overall survival, less is known about the mechanism by which blockade produces these benefits. Prior to the induction of lethal acute pancreatitis, rats were randomized to receive a single dose (.01, .1, 1.0, or 10 mg/kg) of a macrophage-pacifying compound (CNI-1493) or vehicle. Escalating doses provided incremental increases in survival from 10% (vehicle) to a maximum of 70% (CNI-1493, 1.0 mg/kg). To evaluate the physiologic mechanism responsible for the improved survival, continuous arterial blood pressure, serial hematocrit, ascites volume, pancreatic edema, bronchoalveolar leukocytes and protein, and pancreatic histology were determined in additional rats receiving CNI-1493 (1.0 mg/kg). Serum tumor necrosis factor-alpha and nitrites were also determined to assess the mechanism of action of CNI-1493. Macrophage pacification decreased pancreatitis severity as determined by enzyme release and pancreatic histology score. Ascites volume and bronchoalveolar protein levels were also decreased, indicating that CNI-1493 prevents the loss of circulating blood volume and maintains hematocrit and mean arterial pressure, thus improving survival. CNI-1493 prevented the increase of serum tumor necrosis factor-alpha but not serum nitrites, implicating macrophage-derived cytokines and not nitric oxide in the pathogenesis of physiologic decompensation and death in this model of pancreatitis.
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PMID:The physiologic consequences of macrophage pacification during severe acute pancreatitis. 974 44

Overproduction of tumor necrosis factor (TNF-), interleukin-1beta (IL-1beta), and nitric oxide (NO) is believed to be detrimental during the progression of acute pancreatitis, yet little is known about the hepatic production of these mediators and their role in mediating pancreatitis-induced hepatic dysfunction. Rats were randomized to receive a single intraperitoneal injection of the macrophage-pacifying compound, CNI-1493 (1.0 mg/kg), or vehicle 1 hour before the induction of retrograde bile salt pancreatitis. Sham-operated animals served as controls. Animals were killed 18 hours later, with serum and livers harvested to determine the degree of hepatocellular injury and the induction of TNF-, IL-1beta, and inducible nitric oxide synthase (iNOS). In addition, serum TNF- and nitrites (end-product of NO breakdown) were determined in each group to assess the mechanism of action of CNI-1493. TNF-, IL-1beta, and iNOS gene expression (by reverse-transcription polymerase chain reaction) as well as aspartate transaminase (AST), alanine transaminase (ALT), and lactic dehydrogenase (LDH) (but not alkaline phosphatase [ALP]) increased following the development of pancreatitis (all P < .05). Macrophage pacification significantly prevented the induction of TNF- and IL-1beta mRNA (but not iNOS), resulting in lessened serum AST, ALT, and LDH (all P < .05). Serum TNF- protein and nitrites correlated with gene induction in that both were increased following the onset of pancreatitis, and TNF- protein production was significantly attenuated in animals receiving CNI-1493. Hepatocellular, but not bile duct, injury occurs during experimental pancreatitis that is associated with hepatic TNF-, IL-1beta, and iNOS mRNA gene induction, as well as TNF- protein and nitrite production. Preventing the production of TNF- and IL-1beta by macrophage pacification attenuates the hepatocellular damage, suggesting that these mediators play a role in pancreatitis-induced hepatic injury.
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PMID:Macrophage pacification reduces rodent pancreatitis-induced hepatocellular injury through down-regulation of hepatic tumor necrosis factor alpha and interleukin-1beta. 979 13

Acute pancreatitis is a disease that has many causes. Each cause seems to affect the acinar cell in some way that results in the premature activation and retention of potent proteolytic enzymes. These activated enzymes then injure the acinar cell and cause the immediate release of cytokines and activate the complement system. Together, these molecules attract and sequester inflammatory cells, in particular neutrophils, which causes further secretion of cytokines, free radicals, and other vasoactive molecules, such as nitric oxide. We propose that the released inflammatory molecules induce local effects, such as pancreatic edema and necrosis, and systemic complications, such as hypotension, tachycardia, fever, capillary leak syndrome, and hypoxia. The cytokines released in the pancreas also stimulate apoptosis, further enhancing the cell death response in pancreatitis. Much of the current research is aimed at understanding the links between these series of events and finding agents that can modulate the cascade of events involved in pancreatitis. What is promising in this endeavor is that the response produced with pancreatitis is nearly identical with all etiologies, suggesting that therapy may not have to be specific to a particular cause. The mechanistic models of AP presented herein are supported by preliminary clinical studies that suggest that protease and cytokine inhibitors may improve the course of AP in specific clinical settings.
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PMID:Etiopathogenesis of acute pancreatitis. 1047 Mar 20

To clarify the role of nitric oxide (NO) in the development and progression of acute pancreatitis, we investigated the effect of different NO synthase inhibitors and NO donors on experimental pancreatitis in rats. Closed duodenal loop (CDL)-induced pancreatitis was produced in male Wistar rats, and the animals were treated with normal saline, the NO-synthase substrate L-arginine, the NO donor S-nitroso-N-acetylpenicillamine, aminoguanidine, which is a more powerful inhibitor of inducible NO synthase (iNOS) than is endothelial NO synthase (eNOS), and N-nitro-L-arginine methyl ester (L-NAME), a more powerful inhibitor of eNOS than of iNOS. All drugs were infused intravenously during a period of 6 or 12 h in each group. Pancreatic tissue was removed at 6 and 12 h after creating the CDL. L-Arginine, S-nitroso-N-acetyl-penicillamine, and aminoguanidine treatment had no effect on the elevation of serum pancreatic enzymes, whereas L-NAME administration significantly exacerbated their elevation. Pathologically, L-NAME treatment resulted in a significantly worse histologic score at 6 and 12 h, especially in terms of the degree of hemorrhage, acinar cell necrosis, and microvascular thrombosis. Addition of L-arginine clearly reversed the effect of L-NAME. Neither the NO substrate nor NO donor could inhibit the progression of hemorrhagic pancreatitis in CDL-induced pancreatitis. Aminoguanidine had no effect on the severity of the pancreatitis. We therefore concluded that NO production by eNOS may play a significant role in preventing the development and progression of acute pancreatitis.
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PMID:An endothelial nitric oxide synthase inhibitor aggravates CDL-induced acute pancreatitis in rats. 1054

The present work critically reviews the evidence for an involvement of free radicals in the pathophysiology of acute pancreatitis and the potential of treatment with antioxidants and scavenger substances. Data originating from clinical trials, experimental pancreatitis studies and in vitro investigations are included. Enhanced free radical activities and increased concentrations of lipid peroxides in plasma and tissue have been found in both patients and experimental animals with acute pancreatitis. The individual contribution of possible sources of free radicals (e.g., invading inflammatory cells, xanthine oxidase, cytochromes P450, nitric oxide synthase) is not yet clear, however. Since prophylactic administration of antioxidants diminished, in particular, pancreatic edema formation, free radicals seem to play an important role in the genesis of edema in acute pancreatitis. An involvement of free radicals in the pathogenesis of pancreatic necrosis could not yet be proven. Thus, no antioxidant treatment has proven useful for therapy of fulminant pancreatitis in animals to date. However, in severe acute pancreatitis characterized by death occurring after 12-18 hours, the seleno-organic compound Ebselen, which has a glutathione peroxidase-like activity, and the membrane permeable ascorbic acid derivative CV-3611 have been demonstrated to be effective. To date, controlled clinical studies have failed to demonstrate the therapeutic efficacy of antioxidant selenium or glutathione precursor supplementation. Therefore, further controlled clinical trials are needed to determine whether supplements of antioxidants can alter the clinical course of acute pancreatitis. Since the nitric oxide radical may even protect the pancreas, a purely negative discussion of the role of free radicals on the pancreas is not justified. The actual role of free radicals in acute pancreatitis, i.e. serving the body's defense against infection, being an epiphenomenon of the inflammatory process without pathophysiological relevance, or having true pathogenic significance, is not yet clear. Lipid peroxidation may perhaps not be the cause but rather the sequel of pancreatic inflammation and may likely reflect the severity of the systemic inflammatory response rather than that of pancreatic parenchyma damage. In vitro, exposure of isolated pancreatic acinar cells to oxidative stress caused rapid cell damage and death. Such knowledge from cellular studies might help to plan therapeutical trials to evaluate potentially effective therapies in the experimental animal, as well as in patients suffering from pancreatitis. Thus, to further clarify the role of oxidative stress in acute pancreatitis, an integrated approach is needed, including investigations at various biological levels, from isolated cells or even organelles to laboratory animals and, finally, clinical studies in man.
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PMID:Oxidative stress in acute pancreatitis. 1057 39


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