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)

Over the past decade, gene conversion has been shown increasingly to be a cause of human disease. Through this process, a functional gene is converted into a mutant by a homologous, nonfunctional one. In this article, we demonstrate that gene conversion is a likely cause of the mutations of the human cationic trypsinogen (PRSS1) gene that are associated with hereditary or sporadic pancreatitis, including the R122H (CGC>CAT: c.365-366 GC>AT), N29I (AAC>ATC: c.86A>T), and A16V (GCC>GTC: c.47C>T) missense mutations. This hypothesis is strongly supported by four lines of observation. First, human group I trypsinogen genes are tandemly repeated and share a high sequence homology between them. Secondly, a possible donor sequence for each variant is present in the PRSS1 gene's paralog(s). Thirdly, there exist uninterrupted sequence tracts ranging from 30 to 114 bp in the putatively converted regions. Finally, Chi-like and palindromic sequences are found in the vicinity of these missense mutations. This theory, if correct, will make the pancreatitis-associated PRSS1 mutations a unique example, as it shows that a functional gene may be converted by several paralogs, and that such an event may even occur between two functional genes (i.e., the N29I mutation), resulting in disease. This adds further to the diversity of genetic mechanisms underlying human disease. In addition, this genetic finding provides, for the first time, concrete evidence of the contribution made by gene conversion to the molecular evolution of the human trypsinogen family.
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PMID:Gene conversion-like missense mutations in the human cationic trypsinogen gene and insights into the molecular evolution of the human trypsinogen family. 1107 13

Several missense mutations, including R122H, N29I, K23R, A16V and D22G, in the cationic trypsinogen gene (PRSS1), have been associated with certain forms of hereditary pancreatitis (HP). Their occurrence in the idiopathic chronic pancreatitis (ICP) and whether novel mutations could be identified in PRSS1 remain to be further evaluated. These were addressed by the mutational screening of the entire coding sequence and the intronic/exonic boundaries of the PRSS1 gene in 221 ICP subjects, using a previously established denaturing gradient gel electrophoresis technique. Among the known PRSS1 mutations, only the R122H was detected in a single subject and the A16V in two subjects in the cohort, strengthening that HP-associated PRSS1 mutations are rare in ICP. Additional missense mutations, including P36R, E79K, G83E, K92N and V123M, were identified once separately. By analogy with the known PRSS1 mutations, predisposition to pancreatitis by some of them, particularly the V123M autolysis cleavage site mutation, is suspected. Functional analysis is expected to clarify their possible medical consequences.
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PMID:Mutational screening of the cationic trypsinogen gene in a large cohort of subjects with idiopathic chronic pancreatitis. 1126 Feb 29

A causative gene mutation is still undefined in approximately half of patients with hereditary pancreatitis, and no genetic factor has been identified in most patients with sporadic chronic pancreatitis. To identify a pancreatitis-associated gene, we performed a quantitative trait locus (QTL) analysis for the traits of chronic pancreatitis and diabetes mellitus in WBN/Kob rats. We identified two highly significant QTLs for chronic pancreatitis and/or hyperinsulinemia on chromosomes 7 and X. These QTLs were located on completely different chromosomal regions from those of causative genes that have been reported for human chronic pancreatitis: PRSS1, CFTR, and SPINK1. For these QTLs, prevalences of the WBN/Kob allele significantly increased in the rats with chronic pancreatitis. These findings indicate that chronic pancreatitis in WBN/Kob rats is controlled by multiple genes, and a genetic analysis in WBN/Kob rats might be useful for gene targeting for human chronic pancreatitis.
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PMID:Quantitative trait locus analysis for chronic pancreatitis and diabetes mellitus in the WBN/Kob rat. 1141 64

For decades there has been slow progress in understanding pancreatic diseases, particularly acute and chronic pancreatitis. As a result, there were no significant advances in the management of these patients. Treatment was mostly directed towards symptomatic relief and management of complications. A simple clinical observation that multiple members of a large family are affected by acute and chronic pancreatitis, some at very young age and in the absence of any alcohol use, led physician-scientists of the Midwest Multicenter Pancreatic Study Group (investigators from the University of Cincinnati, University of Kentucky, and University of Pittsburgh) to investigate the genetic basis of hereditary pancreatitis. Using information from the human genome project, the hereditary pancreatitis gene was identified as the cationic trypsinogen gene (protease serine 1, PRSS1). This discovery has led to the identification of a number of other genes and their products playing role in the pathogenesis of acute and chronic pancreatitis. In the emerging picture of pathogenesis of acute and chronic pancreatitis, trypsin appears to play a central role. This newly acquired knowledge is setting the stage for new preventive and management strategies for hereditary and sporadic acute and chronic pancreatitis.
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PMID:Lessons from hereditary pancreatitis. 1147 Dec 4

Since the identification in 1996 of a "gain of function" missense mutation, R122H, in the cationic trypsinogen gene (PRSS1) as a cause of hereditary pancreatitis, continued screening of this gene in both hereditary and sporadic pancreatitis has found more disease-associated missense mutations than expected. In addition, functional analysis has yielded interesting findings regarding their underlying mechanisms resulting in a gain of trypsin. A critical review of these data, in the context of the complicated biogenesis and complex autoactivation and autolysis of trypsin(ogen), highlights that PRSS1 mutations cause the disease by various mechanisms depending on which biochemical process they affect. The discovery of these mutations also modifies the classical perception of the disease and, more importantly, reveals fascinating new aspects of the molecular evolution and normal physiology of trypsinogen. First, activation peptide of trypsinogen is under strong selection pressure to minimize autoactivation in higher vertebrates. Second, the R122 primary autolysis site has further evolved in mammalian trypsinogens. Third, evolutionary divergence from threonine to asparagine at residue 29 in human cationic trypsinogen provides additional advantage. Accordingly, we tentatively assign, in human cationic trypsinogen, the strongly selected activation peptide as the first-line and the R122 autolysis site as the second-line of the built-in defensive mechanisms against premature trypsin activation within the pancreas, respectively, and the positively selected asparagine at residue 29 as an "amplifier" to the R122 "fail-safe" mechanism.
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PMID:Molecular pathology and evolutionary and physiological implications of pancreatitis-associated cationic trypsinogen mutations. 1170 3

Over the past 5 years, several gain-of-function missense mutations in the human cationic trypsinogen gene (PRSS1, OMIM 276000) have been associated with hereditary and/or sporadic pancreatitis. This study reports a new pancreatitis-associated mutation--R116C (CGT > TGT: c.346C > T)--in the gene.
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PMID:Identification of a novel pancreatitis-associated missense mutation, R116C, in the human cationic trypsinogen gene (PRSS1). 1170 64

Hereditary pancreatitis has been found to be associated with germline mutations in the cationic trypsinogen (PRSS1) gene. Here we report a family with hereditary pancreatitis that carries a novel PRSS1 mutation (R122C). This mutation cannot be diagnosed with the conventional screening method using AflIII restriction enzyme digest. We therefore propose a new assay based on restriction enzyme digest with BstUI, a technique that permits detection of the novel R122C mutation in addition to the most common R122H mutation, and even in the presence of a recently reported neutral polymorphism that prevents its detection by the AflIII method. Recombinantly expressed R122C mutant human trypsinogen was found to undergo greatly reduced autoactivation and cathepsin B-induced activation, which is most likely caused by misfolding or disulfide mismatches of the mutant zymogen. The K(m) of R122C trypsin was found to be unchanged, but its k(cat) was reduced to 37% of the wild type. After correction for enterokinase activatable activity, and specifically in the absence of calcium, the R122C mutant was more resistant to autolysis than the wild type and autoactivated more rapidly at pH 8. Molecular modeling of the R122C mutant trypsin predicted an unimpaired active site but an altered stability of the calcium binding loop. This previously unknown trypsinogen mutation is associated with hereditary pancreatitis, requires a novel diagnostic screening method, and, for the first time, raises the question whether a gain or a loss of trypsin function participates in the onset of pancreatitis.
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PMID:Hereditary pancreatitis caused by a novel PRSS1 mutation (Arg-122 --> Cys) that alters autoactivation and autodegradation of cationic trypsinogen. 1171 9

The recent genetic discoveries in CP support the hypothesis that inappropriate intrapancreatic activation of zymogens by trypsin results in autodigestion and pancreatitis. Two different protective mechanisms prevent activation of the pancreatic digestive enzyme cascade. First, SPINK1 inhibits up to 20% of potential trypsin activity and, second, trypsin itself activates trypsin-like enzymes readily degrading trypsinogen and other zymogens. Pancreatitis may therefore be the result of an imbalance between proteases and their inhibitors within the pancreatic parenchyma. The discovery of PRSS1 mutations in families with CP was the first breakthrough in the understanding of the underlying genetic mechanisms. Enhanced trypsinogen activation may be the common initiating step in pancreatitis caused by these mutations. The discovery of SPINK1 mutations underlines the importance of the protease inhibitor system in the pathogenesis of CP. Thus, gain-of-function in the cationic trypsinogen resulting in an enhanced autoactivation, or loss-of-function mutations in SPINK1 leading to decreased inhibitory capacity, may similarly disturb the delicate intrapancreatic balance of proteases and their inhibitors. The recent findings of SPINK1, CFTR, and PRSS1 mutations in CP patients without a family history have challenged the concept of idiopathic CP as a non-genetic disorder and the differentiation between HP and ICP. There is a clear mode of autosomal dominant inheritance for some mutations (R122H, N291, possibly MIT), whereas the inheritance pattern (autosomal recessive, complex, or modifying) of other mutations (A16V, N34S) is controverted or unknown. The lack of mutations in the above-mentioned genes in many patients suggests that CP may also be caused by genetic alterations in yet unidentified genes. Evaluation of CP patients without an obvious predisposing factor, e.g. alcohol abuse, should include genetic testing even in the absence of a family history of pancreatitis. Finally, identification of further disease-causing genes will create a better understanding of pathogenesis and may help to develop specific preventive and therapeutic strategies.
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PMID:Genetic aspects of chronic pancreatitis: insights into aetiopathogenesis and clinical implications. 1177 91

Chronic pancreatitis is a rare differential diagnosis of obstructive jaundice and/or recurrent abdominal pain in childhood and adolescence. The hereditary calcifying and the noncalcifying obstructive form are the two major forms of juvenile chronic pancreatitis. Other causes include cystic fibrosis, hyperparathyroidism, hyperlipoproteinemia and ascariasis. Even less common is the so called idiopathic or fibrosing pancreatitis. Since the first description by Comfort in 1946 only 41 further cases of juvenile idiopathic fibrosing pancreatitis have been published. An association with gene mutations (PRSS1, SPINK1, CTFR-5T genotype) is suspected. We report the cases of a 17-year-old male patient who presented with painless obstructive jaundice and a 16-year-old female patient who presented with abdominal pain and obstructive jaundice. Both patients underwent surgical treatment with duodenum-preserving pancreatic head resection. The relevant literature with special regard to modern pancreatic surgery is reviewed to give an overview about this rare but surgically treatable pediatric condition, which merits the attention of pediatricians and gastroenterologists in cases of children and adolescents suffering from unexplained abdominal pain.
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PMID:Juvenile idiopathic fibrosing pancreatitis. 1206 96

Progress in understanding pancreatic diseases has been limited by a number of factors. Primary problems include the absence of good animal models, and difficulty in understanding the origin of pancreatic disease since the disease is usually manifest by the progressive destruction of the gland itself. Beginning in 1995, our laboratory, with the support of the Midwest Multicenter Pancreatic Study Group, began investigating the genetic basis of hereditary pancreatitis. Utilization of information becoming available through the human genome project allowed us to map and identify the hereditary pancreatitis gene as cationic trypsinogen (PRSS1). Molecular modeling, and subsequent experimental evidence, has solved key elements of the mysteries surrounding the origin of acute pancreatitis and the progression of acute pancreatitis to chronic pancreatitis. The availability of new genetic information and genomic tools should produce a revolution in our understanding of pancreatic diseases.
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PMID:Hereditary pancreatitis: a model for understanding the genetic basis of acute and chronic pancreatitis. 1212 Feb 37


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