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)

Urinary trypsin inhibitor (UTI), a serine protease inhibitor, has been widely used as a drug for patients with acute inflammatory disorders such as disseminated intravascular coagulation, shock, and pancreatitis in Japan. Recent studies have demonstrated that serine protease inhibitors may play an anti-inflammatory role beyond merely an inhibitory action on neutrophil elastase at the site of inflammation at least in vitro. To clarify the direct contributions of UTI to inflammatory condition in vivo, we analyzed its roles in experimental systemic inflammatory response induced by intraperitoneal administration of lipopolysaccharide (LPS) using UTI deficient (-/-) mice and corresponding wild-type (WT) mice. After LPS (1 mg/kg) challenge, UTI (-/-) mice revealed a significant elevation of plasma fibrinogen and fibrinogen/fibrin degradation products and a decrease in white blood cell counts compared with WT mice. LPS treatment induced more severe neutrophilic inflammation in the lung and the kidney obtained from UTI (-/-) mice than in those from WT mice, which was confirmed by histological examination. The protein levels of proinflammatory mediators, such as macrophage chemoattractant protein (MCP)-1 in the lungs, MCP-1 and keratinocyte chemoattractant (KC) in the kidneys, and interleukin-1beta, macrophage inflammatory protein-2, MCP-1, and KC in the liver, were significantly greater in UTI (-/-) mice than in WT mice after LPS challenge. Our results suggest that UTI protects against systemic inflammatory response and subsequent organ injury induced by bacterial endotoxin, at least partly through the inhibition of the enhanced expression of proinflammatory cytokines and chemokines.
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PMID:Urinary trypsin inhibitor protects against systemic inflammation induced by lipopolysaccharide. 1557 31

The identification of a specific mutation in the human cationic trypsinogen gene in large kindreds with hereditary pancreatitis was the key to understand the genetic background of chronic pancreatitis. Rapidly, other variants within the same gene were identified-even in small families with a minority of patients. Later, mutations of the most important intrapancreatic trypsin inhibitor SPINK1 were found with high prevalence in patients with idiopathic, tropical and alcoholic chronic pancreatitis. We summarize interesting genetic and biochemical findings, point to clinical features and review recommendations for genetic analysis, follow-up and cancer prevention.
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PMID:[Clinical implications of genetic risk factors of chronic pancreatitis]. 1565 84

Idiopathic chronic pancreatitis (ICP) is the leading cause of chronic pancreatitis in children and nonalcoholic adults. The risk of developing ICP is increased in individuals who have mutations of the cystic fibrosis gene (CFTR) and of a trypsin inhibitor gene (PSTI). In studies from the United States and France, the risk of ICP is increased about 40-fold by having two abnormal copies of the CFTR gene, about 14-fold by having the N34S PSTI mutation, and about 500-fold by having both. When ICP patients have two abnormal copies of the CFTR gene, there is also evidence of reduced residual CFTR protein function in extrapancreatic tissues based on clinical findings and nasal ion transport responses. Thus, pancreatitis risk is highest in individuals who have abnormalities in both the pancreatic ducts (CFTR) and acini (PSTI). These findings indicate that PSTI is a modifier gene for CFTR-related ICP and have implications for the diagnosis and pathogenesis of pancreatitis.
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PMID:Reduced CFTR function and the pathobiology of idiopathic pancreatitis. 1575 63

Urinary trypsin inhibitor (UTI), a serine protease inhibitor, has been widely used as a drug for patients with acute inflammatory disorders such as disseminated intravascular coagulation, shock, and pancreatitis. However, direct contribution of UTI to inflammatory diseases has not been established. The present study analyzed acute inflammatory lung injury induced by lipopolysaccharide (LPS) in UTI-deficient (-/-) mice and corresponding wild-type (WT) mice. UTI (-/-) and WT mice were treated intratracheally with vehicle or LPS (125 mug/kg). The cellular profile of bronchoalveolar lavage fluid, lung water content, histology, and expression of proinflammatory molecules in the lung were evaluated. After LPS challenge, both genotypes of mice revealed neutrophilic lung inflammation and pulmonary edema. UTI (-/-) mice, however, showed more prominent infiltration of inflammatory cells and edema than WT mice. After LPS challenge in both genotypes of mice, the lung levels of mRNA and/or protein expression of interleukin-1beta, macrophage inflammatory protein-1alpha, macrophage chemoattractant protein-1, keratinocyte chemoattractant, and intercellular adhesion molecule-1 (ICAM-1) were elevated in both groups, but to a greater extent in UTI (-/-) mice than in WT mice. These results suggest that UTI protects against acute lung injury induced by bacterial endotoxin, at least partly, through the inhibition of the enhanced local expression of proinflammatory cytokines, chemokines, and ICAM-1.
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PMID:Protective role of urinary trypsin inhibitor in acute lung injury induced by lipopolysaccharide. 1579 50

Urinary trypsin inhibitor (UTI, Ulinastatin) is a protease inhibitor that has not been yet used in Europe in any experimental trial of severe acute pancreatitis. We have combined the experimental model of severe, hemorrhagic form of acute pancreatitis, and pharmacological treatment with a protease inhibitor. Male Wistar rats were divided into four experimental groups: healthy controls, operated, operated with experimentally induced acute pancreatitis, and animals with acute pancreatitis--treated with UTI preparations. Subjects in the last group were administered UTI intraperitoneally 1 h after pancreatitis induction in an average standard dose of 3000 units/animal. Additionally, four subgroups were created in this treated group, based on the UTI administration time--number of standard doses received: 2 h - 1 standard dose, 6 h - 5 standard doses, 12 h - 11 doses, 24 and 48 h - 15 doses. Statistically significant differences in the serum amylase and lipase activity between the UTI-treated and non-treated subjects were found. In the group of non-treated animals, there a profound destruction of cellular organelles was observed with a total degradation of nuceli, endoplasmatic reticulum and zymogen granules. However, in the UTI-treated subjects, pathological processes proceeded with the significantly slower pace and in much smaller quantities.
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PMID:Selected biochemical parameters and ultrastructural picture of pancreas due to Ulinastatin treatment of experimental acute pancreatitis. 1581 59

Recently, we have reported that surgical stress promoted the metastasis of murine colon carcinoma cells to the lung by inducing the expression of proteases such as matrix metalloprotease-9 (MMP-9) in lung tissue. Urinary trypsin inhibitor (UTI) is a serine protease inhibitor frequently used to treat pancreatitis and to improve the microcirculatory environment. The purpose of this study was to investigate the anti-metastatic properties of UTI in an animal model of surgical stress-induced cancer metastasis. The intraperitoneal administration of UTI after the intravenous injection of colon 26-L5 carcinoma (colon 26-L5) cells into mice subjected to surgical stress suppressed the enhancement of lung metastasis (p<0.05). Furthermore, we investigated the effect of UTI on tumor growth, adhesion to fibronectin, migration, invasion and enzymatic degradation in colon 26-L5. UTI reduced the invasive ability and the degradation by MMP-9 of gelatin substrate in colon 26-L5 cells. UTI may improve therapeutic efficacy in cancer patients after major surgery.
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PMID:Urinary trypsin inhibitor suppresses surgical stress-facilitated lung metastasis of murine colon 26-L5 carcinoma cells. 1586 13

Chronic pancreatitis: Only recently mutations in several genes were found in patients with chronic pancreatitis. In those with a familial chronic pancreatitis mutations of the cationic trypsinogen were identified and the variants N29I and R122H lead to an autosomal dominant disease. In this group of patients the mutation N34S of the trypsin inhibitor SPINK1 was detected. In so-called idiopathic pancreatitis both variants of the SPINK1 and of the CFTR (cystic fibrosis transmembrane conductance regular) were identified. Alterations in both genes were also found in patients with alcoholic chronic pancreatitis. The strongest risk factor for chronic pancreatitis were trypsinogen mutations N29I and R122H mutations. However, both SPINK1 and CFTR increased the risk for chronic pancreatitis to a higher level than alcohol consumption. A genetic investigation should be performed in familial disease and younger age, but also in patients without family history and higher age a mutation could be found. Pancreas cancer: In 10% of the patients with pancreas cancer other members of the family were affected from the disease. Some of them belong to well characterized familial syndroms like HNPCC or Peutz-Jeghers-syndrom. In a minority of the others a genetic factor may be found, too. In sporadic disease the development of the tumor is characterized by continued acquirement of genetic alterations described by the PanIN model (pancreatic intraepithelial neoplesia). This means that the evolution of the neoplasia progresses from normal tissue via epithelial hyperplasy (PanIN 1A), papillary hyperplasy without (PanIN 1B) and with dysplasy (PanIN 2) and carcinoma in situ (PanIN 3) to invasive pancreas cancer. The progression is associated with genetic alterations of the cells (mutations of ki-ras, p16, p53 etc.). This results in deterioration of control of the cell cycle and the apoptosis and explains the malignancy of the disease. These findings may be used in the future to develop newer therapeutic principles in order to improve the dismal prognosis of this disease.
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PMID:[Chronic pancreatitis--pancreas cancer: influence of genetic factors]. 1595 15

More than twenty years ago Rinderknecht et al. identified a minor trypsin isoform resistant to natural trypsin inhibitors in the human pancreatic juice. At the same time, Estell and Laskowski found that an inhibitor-resistant trypsin from the pyloric caeca of the starfish, Dermasterias imbricata rapidly hydrolyzed the reactive-site peptide bonds of trypsin inhibitors. A connection between these two seminal discoveries was made recently, when human mesotrypsin was shown to cleave the reactive-site peptide bond of the Kunitz-type soybean trypsin inhibitor, and degrade the Kazal-type pancreatic secretory trypsin inhibitor. These observations indicate that proteases specialized for the degradation of protease inhibitors are ubiquitous in metazoa, and prompt new investigations into their biological significance. Here we review the history and properties of human mesotrypsin, and discuss its function in the digestive degradation of dietary trypsin inhibitors and possible pathophysiological role in pancreatitis.
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PMID:Human mesotrypsin defies natural trypsin inhibitors: from passive resistance to active destruction. 1602 58

The endogenous pancreatic trypsin inhibitor, SPINK, is believed to limit enzyme activity in the pancreas and reduce the risk of pancreatitis. Recently, mutations in the SPINK1 gene have been associated with development of both acute and chronic pancreatitis. In most patients with SPINK1 mutations, the genetic variants do not cause the disease independently, but may act in concert with other genetic or environmental factors. Recent studies, using mice in which the trypsin inhibitor gene has been deleted or overexpressed, provide novel insights into the role of SPINK in pancreatic development and pancreatitis.
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PMID:Pathophysiology of SPINK mutations in pancreatic development and disease. 1663 97

Trypsin activity is properly suppressed in the pancreatic acinar cells under normal conditions. A small amount of trypsinogen is converted to active trypsin and inactivated by pancreatic secretory trypsin inhibitor (PSTI), thereby preventing damage to pancreatic acinar cells as a first line of defense. However, if trypsin activation (due to excessive stimulation of pancreatic acinar cells) exceeds the capacity of PSTI, a subsequent cascade of events leads to the activation of various proteases that damage cells. This can be interpreted as the main causative event of pancreatitis onset. Trypsin produced in and secreted from the pancreatic acinar cells activates protease activated receptor-2 (PAR-2), which is present at high densities on the luminal surfaces of pancreatic acinar cells and duct cells. Results of PAR-2 activation are the production of cytokines and the regulation of exocrine function via a negative feedback loop. Thus, the actions of trypsin, trypsin inhibitor (PSTI), and trypsin receptor (PAR-2) in the pancreas are strongly interconnected.
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PMID:The role of trypsin, trypsin inhibitor, and trypsin receptor in the onset and aggravation of pancreatitis. 1704 46


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