Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0149521 (chronic pancreatitis)
7,199 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic pancreatitis is a common inflammatory disease of the pancreas. Mutations in the genes encoding cationic trypsinogen (PRSS1) and the pancreatic secretory trypsin inhibitor (SPINK1) are associated with chronic pancreatitis. Because increased proteolytic activity owing to mutated PRSS1 enhances the risk for chronic pancreatitis, mutations in the gene encoding anionic trypsinogen (PRSS2) may also predispose to disease. Here we analyzed PRSS2 in individuals with chronic pancreatitis and controls and found, to our surprise, that a variant of codon 191 (G191R) is overrepresented in control subjects: G191R was present in 220/6,459 (3.4%) controls but in only 32/2,466 (1.3%) affected individuals (odds ratio 0.37; P = 1.1 x 10(-8)). Upon activation by enterokinase or trypsin, purified recombinant G191R protein showed a complete loss of trypsin activity owing to the introduction of a new tryptic cleavage site that renders the enzyme hypersensitive to autocatalytic proteolysis. In conclusion, the G191R variant of PRSS2 mitigates intrapancreatic trypsin activity and thereby protects against chronic pancreatitis.
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PMID:A degradation-sensitive anionic trypsinogen (PRSS2) variant protects against chronic pancreatitis. 1669 18

Ten years ago, the groundwork for the discovery of the genetic basis of chronic pancreatitis was laid by linkage analyses of large kindreds with autosomal dominant hereditary chronic pancreatitis. Subsequent candidate gene sequencing of the 7q35 chromosome region revealed a strong association of the c.365G > A (p.R122 H) mutation of the PRSS1 gene encoding cationic trypsinogen with hereditary pancreatitis. In the following years, further mutations of this gene were discovered in patients with hereditary or idiopathic chronic pancreatitis. In vitro the mutations increase autocatalytic conversion of trypsinogen to active trypsin and thus probably cause premature, intrapancreatic trypsinogen activation in vivo. The clinical presentation is highly variable, but most affected mutation carriers have relatively mild disease. In this review, we summarize the current knowledge on trypsinogen mutations and their role in pancreatic diseases.
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PMID:Mutations of human cationic trypsinogen (PRSS1) and chronic pancreatitis. 1679 40

Mutations and polymorphisms in the SPINK1 gene, which encodes trypsin's physiological inhibitor, pancreatic secretory trypsin inhibitor, have been found to be associated with chronic pancreatitis. However, to date, all currently reported SPINK1 variants are either single-nucleotide substitutions or microinsertions/deletions. It is possible that large genomic rearrangements at this locus may underlie certain cases of chronic pancreatitis. However, such events, if indeed they exist, may have been overlooked by conventional PCR-based techniques. Here we attempted to screen all four exons as well as the promoter region of the SPINK1 gene for large genomic deletions by means of quantitative high-performance liquid chromatography analysis. Of the 47 pancreatitis families (not carrying any known PRSS1, SPINK1 and CFTR variants/mutations after screening the coding regions by our previously established denaturing high-performance liquid chromatography methods), one family was suggested to carry a large genomic deletion in the SPINK1 gene. The aberrant chromosomal junction was encapsulated by long-range PCR and the breakpoints were determined by direct sequencing of the rearranged fragment. A 2-bp short direct repeat was present at the deletion breakpoints; this simple deletion (c.1-320_c.55+961del1336 bp) can thus in principle be explained by replication slippage. Identification of this lesion has not only expanded the SPINK1 mutational spectrum but also served to identify a novel mutational mechanism causing chronic pancreatitis.
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PMID:Detection of a large genomic deletion in the pancreatic secretory trypsin inhibitor (SPINK1) gene. 1682 94

Alcohol-associated acute and chronic pancreatitis occur in a minority of alcohol users, suggesting that most drinkers are protected from pancreatic diseases while a subset is susceptible. Ongoing studies suggest that the pathophysiology is complex and can involve multiple genetic and environmental pathways and stochastic events. Both rat models and human genetic epidemiology studies have been used to understand susceptibility and modifying factors in humans. Rat studies suggest that different types of altered pancreatic physiology occur depending on dose, they occur rapidly and that alcohol changes the immune response to recurrent pancreatic injury. Human studies suggest that PRSS1 and SPINK1 mutation increase the pancreas' susceptibility to alcohol-associated pancreatitis, and that tobacco smoking, and some factors, affect disease progression.
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PMID:Gene-environment factors that contribute to alcoholic pancreatitis in humans. 1695 73

Chronic pancreatitis (CP) is characterised by pancreatic inflammation and fibrosis leading eventually to destruction of pancreatic parenchyma and loss of exocrine and endocrine function. A model of interactions between environmental triggers of pancreatic inflammation and disease susceptibility or modifying genes (including PRSS1, SPINK1 and CFTR) provides a framework within which to understand disease pathogenesis. Early in the disease, when fibrosis is mild and pancreatic damage limited, it is difficult to distinguish CP from recurrent acute pancreatitis (RAP) although it is likely these represent opposite ends of a spectrum of disease with a common aetiology in which CP represents either a later disease stage or disease in individuals predisposed to generate a chronic fibrogenic inflammatory response. Pain is a dominant feature resulting in part from neuroimmune interactions within the pancreas. Diagnosis at an early stage of disease is challenging, though in later stages is dependent upon the demonstration of pancreatic fibrosis and duct ectasia using one or more imaging modalities including transabdominal and endoscopic ultrasound, CT and MRCP or ERCP. Current treatments are largely supportive and reactive. The challenge for pediatricians is to achieve diagnosis at an early stage of the disease and to develop treatments that can alter its natural history.
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PMID:Chronic pancreatitis. 1709 Sep 3

Hereditary chronic pancreatitis (HCP) is a very rare form of early onset chronic pancreatitis. With the exception of the young age at diagnosis and a slower progression, the clinical course, morphological features and laboratory findings of HCP do not differ from those of patients with alcoholic chronic pancreatitis. As well, diagnostic criteria and treatment of HCP resemble that of chronic pancreatitis of other causes. The clinical presentation is highly variable and includes chronic abdominal pain, impairment of endocrine and exocrine pancreatic function, nausea and vomiting, maldigestion, diabetes, pseudocysts, bile duct and duodenal obstruction, and rarely pancreatic cancer. Fortunately, most patients have a mild disease. Mutations in the PRSS1 gene, encoding cationic trypsinogen, play a causative role in chronic pancreatitis. It has been shown that the PRSS1 mutations increase autocatalytic conversion of trypsinogen to active trypsin, and thus probably cause premature, intrapancreatic trypsinogen activation disturbing the intrapancreatic balance of proteases and their inhibitors. Other genes, such as the anionic trypsinogen (PRSS2), the serine protease inhibitor, Kazal type 1 (SPINK1) and the cystic fibrosis transmembrane conductance regulator (CFTR) have been found to be associated with chronic pancreatitis (idiopathic and hereditary) as well. Genetic testing should only be performed in carefully selected patients by direct DNA sequencing and antenatal diagnosis should not be encouraged. Treatment focuses on enzyme and nutritional supplementation, pain management, pancreatic diabetes, and local organ complications, such as pseudocysts, bile duct or duodenal obstruction. The disease course and prognosis of patients with HCP is unpredictable. Pancreatic cancer risk is elevated. Therefore, HCP patients should strongly avoid environmental risk factors for pancreatic cancer.
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PMID:Hereditary chronic pancreatitis. 1720 47

Diagnosis of chronic pancreatitis in its early stage is an extremely difficult task. If the genetic predispositions are identified, it may help make possible the earlier diagnosis of chronic pancreatitis or the detection of patients at risk. There are two major hypotheses about the pathogenesis of chronic pancreatitis known as the "necrosis-fibrosis" and "pancreatic stone protein" hypotheses. Recent molecular and genetic evidence suggests that both pathways contribute to the pathogenesis of chronic pancreatitis. Chronic pancreatitis may be caused by either increased proteolytic activity [the cationic trypsinogen (PRSS1) gene] or decreased protease inhibition (the pancreatic secretory trypsin inhibitor (PSTI) gene]. The impaired pancreatic duct function [cystic fibrosis transmembrane conductance regulator (CFTR) gene] may also be involved in the pathogenesis of the disease. Except for PRSS1 mutations, the known genetic risk for chronic pancreatitis is not high. The high individual variability and low incidence of chronic pancreatitis suggest that yet unidentified genetic and environmental factors are important. Further genetic analysis is necessary for understanding the pathogenesis of chronic pancreatitis, which may be helpful for the earlier diagnosis of the juvenile- or young-onset disease.
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PMID:Is genetic analysis helpful for diagnosing chronic pancreatitis in its early stage? 1723 30

Early-stage chronic pancreatitis may be undetected as a clinical entity. However, it may carry a definite risk for subsequent secondary damage, depending on the etiology of the disease. Therefore, the most important question is whether indeed the patient in question does have early-stage chronic pancreatitis rather than oligosymptomatic advanced-stage chronic pancreatitis. This can be easily determined by appropriate imaging such as abdominal computed tomography. For early changes, endoscopic ultrasound is superior to any other technique. Endosonography may also tell about anatomical obstacles (e.g., papillary stenosis, pancreas divisum) that may be treated to prevent progression of the disease. Treatment options at this stage are endoscopic for the most part. Depending on the etiology and familiar/hereditary background of the given patient, one must look further into molecular markers. Such markers may give an estimate on the progression or dynamics of the disease in the future and include mutations in the cationic (PRSS1) and anionic (PRSS2) trypsinogen genes as well as mutations in the serine protease (SPINK1) or cystic fibrosis (CFTR) genes. Admitted ly, these are not markers of early-stage chronic pancreatitis but must be investigated if and when such pathogenesis is suspected. Further, rare forms of chronic pancreatitis, such as autoimmune pancreatitis, which can be cured by appropriate medical treatment with steroids, must be excluded. Markers for autoimmune pancreatitis are elevated serum IgG, especially IgG4, and autoantibodies to carbonic anhydrase (type II) and lactoferrin. It is noteworthy that these markers, present in almost every Asian patient with autoimmune pancreatitis, are mostly lacking in Caucasian populations of patients with autoimmune pancreatitis.
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PMID:What are the useful biological and functional markers of early-stage chronic pancreatitis? 1723 31

Acute recurrent/chronic pancreatitis (CP) is a complex multigenic disease. This is a case-control study consisting of 25 Greek patients with CP and a control population of 236 healthy Greek subjects. The whole coding area and neighboring intronic regions of the three genes were screened. Seventeen of 25 patients (68%) had mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene: nine compound heterozygotes with either mild or severe mutations and eight heterozygotes. Four patients (16%) carried CFTR-modulating haplotypes V470-TG11-T5 and V470-TG12-T7. All were negative for PRSS1 gene mutations, while variants c.486C/T and c.738C/T were found in nine patients each, three homozygotes for the minor alleles. Two carried SPINK1 gene mutation p.N34S, one being transheterozygote with CFTR mutation p.F1052V. The promoter variant -253T>C was found in four individuals (one homozygous for the minor allele), all four being transheterozygotes with mutations in the CFTR gene as well. Finally two carried c.272C/T in the 3' untranslated region, one being a p.N34S carrier as well. In total, 80% (20/25) of patients had a molecular defect in one or both of the CFTR and SPINK1 genes, suggesting that mutations/variants in the CFTR plus or minus mutations in the SPINK1, but not the PRSS1 gene, may confer a high risk for recurrent pancreatitis.
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PMID:Contribution of the CFTR gene, the pancreatic secretory trypsin inhibitor gene (SPINK1) and the cationic trypsinogen gene (PRSS1) to the etiology of recurrent pancreatitis. 1748 51

Hereditary pancreatitis is a rare, autosomal dominant, inherited disease characterized by recurrent attacks of acute pancreatitis with the development of chronic pancreatitis and an increased risk of pancreatic cancer. R122H or N29I mutation in cationic trypsinogen (protease serine 1, PRSS1) gene causes hereditary pancreatitis. R122H mutation is the most common mutation that causes pancreatitis by preventing deactivation of trypsin within the pancreas and prolonging its action. Three members of the family, the patient, her elder son, and her niece experienced recurrent attacks of pancreatitis. We analyzed five exons of the PRSS1 gene in DNA samples of five family members including her husband and younger son who were asymptomatic. We found out that four members of the family, the patient, her two sons, and her niece, had R122H mutation in the exon 3 of PRSS1 gene. Finally, we diagnosed hereditary pancreatitis in two households in the same family.
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PMID:[Three cases of hereditary pancreatitis in two households in the same family associated with R122H mutation in cationic trypsinogen gene]. 1764 59


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