EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report the characterization of a novel serine protease of the chymotrypsin family, recently isolated by cDNA-representational difference analysis, as a gene overexpressed in pancreatic cancer. The 2.3-kb mRNA of the gene, named TMPRSS3, is strongly expressed in a subset of pancreatic cancer and various other cancer tissues, and its expression correlates with the metastatic potential of the clonal SUIT-2 pancreatic cancer cell lines. The deduced polypeptide sequence consists of 437 amino acids and exhibits all of the structural features characteristic of serine proteases with trypsin-like activity. TMPRSS3 is membrane bound with a NH2-terminal signal-anchor sequence and a glycosylated extracellular region containing the serine protease domain. Thus, TMPRSS3 is a novel membrane-bound serine protease overexpressed in cancer, which may be of importance for processes involved in metastasis formation and tumor invasion.
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PMID:A novel transmembrane serine protease (TMPRSS3) overexpressed in pancreatic cancer. 1082 29

Hereditary pancreatitis is an unusual form of acute and chronic pancreatitis with a familial predisposition. Recently, the gene mutations causing most cases of hereditary pancreatitis have been identified in the cationic trypsinogen gene. The known mutations are trypsinogen R117H and N211. These may predispose to acute pancreatitis by eliminating one of the fail-safe mechanisms used by the pancreas to eliminate prematurely activated trypsin. Accumulation of active trypsin mutants are hypothesized to initiate a digestive enzyme activation cascade in the pancreatic acinar cells leading to autodigestion, an intense inflammatory response, and acute pancreatitis. The observation that these patients also develop typical chronic pancreatitis and may later develop pancreatic cancer provides strong evidence that these conditions are linked. Knowledge of the pathophysiological conditions leading to acute and chronic pancreatitis and the development of a transgenic mouse expressing the mutant human trypsinogen genes will provide directions and tools necessary for the effective treatment or prevention of this human disease.
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PMID:Hereditary pancreatitis: new insights, new directions. 1103 Jun 5

Transmembrane glycoprotein tumor antigen MUC1 that is overexpressed on pancreatic and breast tumor cells can be found in large amounts in soluble form in serum and ascites fluid. MUC1 has been identified as a target of human antitumor antibody and CTL responses that are generated in the absence of helper T cells. The soluble form of MUC1 should support generation of helper T cells, but we have found recently that this form, although effectively endocytosed by dendritic cells, remains trapped in early endosomes and is not trafficked to antigen-processing compartments. The exact biochemical structure of this form of MUC1 has not been elucidated to date, and it is thus not clear what structural characteristics may be responsible for its retention in early endosomes. We have purified soluble MUC1 from ascites fluid of breast/pancreatic cancer patients (ASC-MUC1) and quantitated O-linked carbohydrates. We have altered ASC-MUC1 by enzymatic treatment: trypsin or clostripain digestion, desialylation, and further in vitro glycosylation. We have found that desialylated ASC-MUC1 was further glycosylated by peptidyl N-acetylgalactosamine transferases and was not when sialic acid was present. These alterations created new forms of ASC-MUC1 that might be handled more efficiently by antigen-presenting cells to generate better tumor-specific immunity and used to identify structures that are directly involved in retention of this antigen in early endosomes.
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PMID:Biochemical characterization of the soluble form of tumor antigen MUC1 isolated from sera and ascites fluid of breast and pancreatic cancer patients. 1130 Apr 73

The bile concentrations of trypsinogen-1, -2 and tumour-associated trypsin-inhibitor (TATI) were determined in 23 patients with benign biliary tract disease, two with biliary tract cancer, and in 15 with pancreatic cancer. We also examined the trypsinogen and TATI expression by immunohistochemistry in tissue specimens from biliary tract cancer and non-neoplastic extrahepatic biliary tract. High levels of trypsinogen-1, trypsinogen-2, and TATI occur in bile of most patients. In contrast to the trypsinogens, the levels of TATI were significantly higher in patients with malignant disease than in those with benign diseases (p=0.04). There was no significant correlation between trypsinogen-2 and amylase (r=0.13, p=0.40), indicating that the occurrence of trypsinogen in bile is not a result of reflux of pancreatic fluid into the bile duct. Immunohistochemically, trypsinogen-2 was detected in five and TATI in 12 out of 15 non-neoplastic biliary tract specimens, and in four and seven out of 11 cholangiocarcinomas, respectively. High concentrations of trypsinogen-1, trypsinogen-2 and TATI occur in the bile of patients with non-neoplastic and malignant biliary tract disease and in patients with pancreatic cancer. At least part of the trypsinogen-2 and TATI found in bile appears to be derived from the biliary epithelium itself.
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PMID:Trypsinogen-1, -2 and tumour-associated trypsin-inhibitor in bile and biliary tract tissues from patients with biliary tract diseases and pancreatic carcinomas. 1134 77

Stem cell factor (SCF) and its receptor c-kit take part in the regulation of developmental processes of mast cells, hematopoietic stem cells, and melanocytes, as well as in the growth control of human malignancies. To explore the possible role of the SCF-c-kit system and of mast cells in pancreatic cancer, the concomitant expression and distribution of the two molecules were examined in 17 normal and 26 cancerous human pancreatic tissues and in 6 cultured pancreatic cancer cell lines. Mast cell distribution was also evaluated in the same tissue samples. In addition, the effects of SCF and of the c-kit tyrosine-kinase inhibitor STI571 on the growth of the cancer cell lines and of the normal pancreatic ductal cell line TAKA-1 were assessed. SCF immunoreactivity was absent in acinar, ductal, and islet cells of the normal pancreas and faint in pancreatic cancer tissues and cell lines. In contrast, c-kit was clearly present in some normal and hyperplastic ducts of the normal pancreas, in the cancer cells of 73% of the tumor samples, and in all the cell lines tested. Mast cells, identified by tryptase and chymase immunostaining on consecutive tissue sections, showed immunoreactivity for SCF and c-kit in both normal and cancerous specimens and their number was significantly increased (p = 0.03) in pancreatic cancer compared with the normal pancreas. SCF showed a dose-dependent growth inhibitory effect on TAKA-1 cells (p < 0.001), whereas pancreatic cancer cells were resistant to the SCF-induced growth inhibition. Nonetheless, the growth of TAKA-1 cells and pancreatic cancer cells was inhibited by the c-kit tyrosine kinase inhibitor STI571. In conclusion, the SCF-c-kit system, possibly with the contribution of mast cells, may have a growth-regulating role in the normal pancreas, which is altered during malignant transformation.
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PMID:The stem cell factor-c-kit system and mast cells in human pancreatic cancer. 1242 8

Hereditary pancreatitis is an autosomal dominant condition, which results in recurrent attacks of acute pancreatitis, progressing to chronic pancreatitis often at a young age. The majority of patients with hereditary pancreatitis express one of two mutations (R122H or N29I) in the cationic trypsinogen gene (PRSS1 gene). It has been hypothesised that one of these mutations, the R122H mutation causes pancreatitis by altering a trypsin recognition site so preventing deactivation of trypsin within the pancreas and prolonging its action, resulting in autodigestion. Families with these two mutations have been identified in many countries and there are also other rarer mutations, which have also been linked to hereditary pancreatitis. Patients with hereditary pancreatitis present in the same way as those with sporadic pancreatitis but at an earlier age. It is common for patients to remain undiagnosed for many years, particularly if they present with non-specific symptoms. Hereditary pancreatitis should always be considered in patients who present with recurrent pancreatitis with a family history of pancreatic disease. If patients with the 2 common mutations are compared, those with the R122H mutation are more likely to present at a younger age and are more likely to require surgical intervention than those with N29I. Hereditary pancreatitis carries a 40 % lifetime risk of pancreatic cancer with those patients aged between 50 to 70 being most at risk in whom screening tests may become important.
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PMID:Hereditary pancreatitis. 1250 40

The proteinase-activated receptor-2 (PAR-2) is a G protein-coupled receptor that is cleaved and activated by trypsin. To clarify the presence of PAR-2 in human pancreatic cancer, the expression of PAR-2 was analyzed by RT-PCR, immunoblotting and immunocytochemistry using 5 human pancreatic cancer cell lines. And to evaluate the biological significance, immunohistochemical expression of PAR-2 in malignant and non-malignant human pancreatic tissues was examined using paraffin-embedded sections. The presence of PAR-2 was confirmed in all 5 pancreatic cancer cell lines and all 21 paraffin-embedded specimens from human pancreatic cancer examined. The expression of PAR-2 was found to be higher in the tissues with infiltrative growth pattern than those with expansive growth pattern. Moreover, significantly higher expression of PAR-2 was observed in the tissues which were accompanied by severe fibrosis. Even in the same specimen, the intensity of immunoreactivity tended to be stronger in the part with severe fibrosis than that with mild fibrosis. Similarly, the higher expression of PAR-2 was observed in chronic pancreatitis with severe fibrosis than with mild fibrosis. Taken together, these results suggest that the activation of PAR-2 is involved in cancer invasion and the induction of fibrosis in human pancreatic cancer.
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PMID:Expression of proteinase-activated receptor-2 in human pancreatic cancer: a possible relation to cancer invasion and induction of fibrosis. 1252 25

Human pancreatic secretions contain two major trypsinogen isoforms, cationic and anionic trypsinogen, normally at a ratio of 2 : 1. Pancreatitis, pancreatic cancer and chronic alcoholism lead to a characteristic reversal of the isoform ratio, and anionic trypsinogen becomes the predominant zymogen secreted. To understand the biochemical consequences of these alterations, we recombinantly expressed and purified both human trypsinogens and documented characteristics of autoactivation, autocatalytic degradation and Ca2+-dependence. Even though the two trypsinogens are approximately 90% identical in their primary structure, we found that human anionic trypsinogen and trypsin exhibited a significantly increased (10-20-fold) propensity for autocatalytic degradation, relative to cationic trypsinogen and trypsin. Furthermore, in contrast to the characteristic stimulation of the cationic proenzyme, acidic pH inhibited autoactivation of anionic trypsinogen. In mixtures of cationic and anionic trypsinogen, an increase in the proportion of the anionic proenzyme had no significant effect on the levels of trypsin generated by autoactivation or by enterokinase at pH 8.0 in 1 mm Ca2+- conditions that were characteristic of the pancreatic juice. In contrast, rates of trypsinogen activation were markedly reduced with increasing ratios of anionic trypsinogen under conditions that were typical of potential sites of pathological intra-acinar trypsinogen activation. Thus, at low Ca2+ concentrations at pH 8.0, selective degradation of anionic trypsinogen and trypsin caused diminished trypsin production; while at pH 5.0, inhibition of anionic trypsinogen activation resulted in lower trypsin yields. Taken together, the observations indicate that up-regulation of anionic trypsinogen in pancreatic diseases does not affect physiological trypsinogen activation, but significantly limits trypsin generation under potential pathological conditions.
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PMID:Human anionic trypsinogen: properties of autocatalytic activation and degradation and implications in pancreatic diseases. 1270 65

Protease-activated receptor (PAR)-2 is a G protein-coupled receptor that is activated by trypsin. The purpose of this study was to examine PAR-2 expression and the role of trypsin in cell proliferation in human pancreatic cancer cells. All four pancreatic cancer cell lines studied, from well to undifferentiated types, AsPC-1, BxPC-3, Panc-1, and MIAPaCa-2, had significant levels of PAR-2 mRNA detected by reverse transcription-polymerase chain reaction, and showed a band of about 55 kDa corresponding to the known molecular weight of PAR-2: AsPC-1, BxPC-3 and Panc-1 showed a strong band, and MIAPaCa-2 showed a weak one. Immunocytochemically, AsPC-1, BxPC-3, and Panc-1 showed intense immunostaining for PAR-2, predominantly in the plasma membrane, while in MIAPaCa-2, immunostaining was weak. Proliferative activity of AsPC-1 cells was increased by concentrations of trypsin as low as 10 nM, and activity peaked at a concentration of 100 nM, representing almost 60% of that induced by 10% fetal bovine serum. In contrast, trypsin had no significant effect on proliferation of MIAPaCa-2 cells. These findings suggest that trypsin plays a role in the growth of PAR-2-positive pancreatic cancer cells and serves as a potent mitogen in vitro, functioning as a growth factor.
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PMID:Protease-activated receptor-2 expression and the role of trypsin in cell proliferation in human pancreatic cancers. 1279 76

Pancreatitis presents clinically as acute and chronic form. A common characteristic of these two forms is enzymatic autodigestion of pancreas in the course of the disease. It results from premature activation of pancreatic digestive enzymes and disturbance of subtle balance between proteolytic enzymes and their inhibitors. The way to understand the character of mechanisms leading to development of pancreatitis has been simplified by discovery of genetic factors, which are able to initiate pathological changes at tissue level. Mutations in the PRSS1 gene (first of all R122H and N29I mutations), which encodes for cationic trypsin, cause trypsin to be protected from autodegradation. These mutations also cause precursor of trypsin - trypsinogen, to be activated easier. On the other hand mutations in the SPINK1 gene have been identified. SPINK1 gene encodes for the most important protease inhibitor of the pancreatic fluid. The most frequent mutation, namely N34S, decrease SPINK1 protein in its activity. The link between the genotype and phenotype is not clear in every case. It is probable that pancreatitis will be recognized as poligenic with many genes engaged in the disease development. Pancreatic cancer is a frequent consequence of pancreatitis. It is a very invasive cancer with high mortality. In the course of pancreatic inflammation intensive cell proliferation takes place for regeneration of pancreas damage. It is the chance for amplification of pathological changes in DNA, which have arisen as a ROS's (Reactive Oxygen Species) and RNOS's (Reactive Nitrogen Oxide Species) action effect. ROS and RNOS are generated in the course of pancreas inflammation.
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PMID:[Hereditary aspects of pancreatitis]. 1313 Jan 70

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