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:C0149521 (chronic pancreatitis)
7,199 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic alterations such as K-ras mutation, inactivation of the p53, p16 and DPC4 genes and frequent chromosomal loss of the 17p, 9p, 18q and 1p are thought to play a crucial role in the carcinogenesis of pancreatic cancer. Mutations of K-ras oncogene could be detected frequently in pancreatic juice samples from patients with pancreatic carcinoma and intraductal papillary neoplasm (IPN), although they could be detected in some of the samples from patients with chronic pancreatitis and pancreatic cyst. This suggests that K-ras mutation is an early event in the carcinogenesis of the exocine pancreas. In IPN, analysis of other genetic alteration would be available, since pancreatic juice samples from the patient are relatively rich in the proportion of the tumor cells. A new diagnostic modality of sensitive allelotyping would be useful for evaluating malignant potential of these borderline lesions.
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PMID:[Molecular diagnosis of pancreatic cancer]. 927 65

Expression of the p16 gene product in human primary pancreatic carcinoma (PC) was investigated in paraffin-embedded tissue using a monoclonal antibody against p16 protein, clone G175-405, by means of immunohistochemistry, and the correlation of results with various clinicopathological parameters was evaluated. All six cases of normal pancreas and all but 1 of 20 cases of chronic pancreatitis expressed p16 protein, whereas 37.5% (3 of 8) of cystadenomas and 41. 9% (26 of 62) of PCs lost p16 expression. There was a significant difference between chronic pancreatitis and PC for frequency of the loss of p16 expression (P < 0.01). Moreover, loss of p16 expression in pancreatic malignancy was significantly associated with histological grade (G1 versus G2 and G3, P < 0.01) but not with sex, age, clinical stage, tumor location, or resectability. The survival period was shorter and metastasis is more likely in those cases that did not show p16 expression than those that did.
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PMID:Frequent loss of p16 expression and its correlation with clinicopathological parameters in pancreatic carcinoma. 981 33

The clinical management of pancreatic disease is often hampered by a lack of tissue diagnosis. Endoscopic pancreatography offers the opportunity to investigate exfoliated cells. However, the significance of mere cytological investigation is compromised by an insufficient sensitivity. The evaluation of the molecular background of carcinogenesis hopefully is capable of providing more sensitive diagnostic markers. The p16INK4a-/retinoblastoma tumour-suppressive pathway has been shown to be involved in the development of near to all pancreatic neoplasms. p14ARF is another tumour suppressor located in the immediate neighbourhood of p16INK4a. Promoter methylation has been demonstrated to be a major inactivating mechanism of both genes. We sought to further evaluate the role of the gene locus INK4a methylation status in the endoscopic differentiation of chronic inflammatory and neoplastic pancreatic disease. Pancreatic fluid specimens of 61 patients with either pancreatic carcinoma (PCA: 39), chronic pancreatitis (CP: 16) or a normal pancreatogram (NAD: 6) were retrieved. In order to detect methylation of either the p14ARF or the p16INK4a promoter a methylation-specific PCR protocol was applied. While 19 out of 39 patients with PCA showed p16 promoter methylation (49%), none of the 16 patients with CP revealed p16 promoter methylation. p14ARF methylation was found in a lower percentage of PCA specimens and in none of the samples of patients with CP. These results suggest a specific significance of INK4a for the development of malignant pancreatic disease. Our data further indicate a potential role for INK4a methylation as a diagnostic marker in the endoscopic differentiation of benign and malignant pancreatic disease.
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PMID:Methylation status of p14ARF and p16INK4a as detected in pancreatic secretions. 1261 May 6

This paper overviewed risk factors of pancreatic cancer. Both genetic and environmental factors may be playing significant roles in the development of pancreatic cancer. Cigarette smoking has been established as a major risk factor for pancreatic cancer, based on findings from almost all epidemiological studies. Long-term smoking cessation may reduce the risk. The evidence that alcohol drinking and coffee consumption increase the risk is not sufficient, although an association with higher level of consumption remains a possibility. Diabetes mellitus, long-standing diabetes in particular, may be a risk factor for pancreatic cancer. Individuals with hereditary pancreatitis or non-hereditary chronic pancreatitis are possibly at increased risk of pancreatic cancer. Higher intake of meat and fat may be associated with an increased risk, while consumption of fruits/vegetables appears to have a protective effect. Individuals with mutations or deletion in such genes as K-ras, p16, p53, DPC4, and BRCA2 increased the risk of developing pancreatic cancer. Cigarette smoking may play a role in the development of these mutations.
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PMID:An Epidemiological Overview of Environmental and Genetic Risk Factors of Pancreatic Cancer. 1271 18

In the United States, pancreatic cancer is the fourth most frequent cause of cancer death in males as well as females, after lung, prostate or breast, and colorectal cancer. Each year, approximately 30 000 Americans are diagnosed with pancreatic cancer and about the same number die of it. Germline mutations in a few genes including p16 and BRCA2 have been implicated in a small fraction of cases, as has chronic pancreatitis. The one established risk factor for pancreatic cancer is cigarette smoking: current smokers have two to three times the risk of nonsmokers. Studies of dietary factors have not been entirely consistent but do suggest associations of higher risk with consumption of smoked or processed meats or with animal foods in general and lower risk with consumption of fruits and vegetables. Colonization by Helicobacter pylori appears to increase risk, and a history of diabetes mellitus may also increase risk. The purpose of this epidemiologic review is to consider the possibility that risk of pancreatic cancer is increased by factors associated with pancreatic N-nitrosamine or N-nitrosamide exposures and with chronic excess gastric or duodenal acidity. Host genetic variation in inflammatory cytokine mechanisms may also be involved in this process. Many features of the evidence bearing on the pathophysiology of pancreatic cancer appear to support connections with N-nitroso compounds and with gastric acidity.
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PMID:Etiology of pancreatic cancer, with a hypothesis concerning the role of N-nitroso compounds and excess gastric acidity. 1470 43

Patients with long-standing chronic pancreatitis are thought to be at increased risk of developing pancreatic ductal adenocarcinoma, but the mechanism for this increased risk is unknown. Since increasing evidence supports the notion that infiltrating pancreatic ductal adenocarcinomas arise from pancreatic intraepithelial lesions (PanINs), we sought to determine if patients with chronic pancreatitis harbor PanINs with alterations in tumor suppressor genes that are associated with infiltrating pancreatic ductal adenocarcinoma. We identified 122 patients with a diagnosis of chronic pancreatitis and 29 patients with a well-differentiated pancreatic endocrine tumor that underwent pancreatic surgery at the Johns Hopkins Hospital from 1985 to 1999. PanINs from each resection specimen were identified, graded, counted, and correlated with smoking and alcohol history. The expression patterns of p16 and Smad4 were determined in a subset of PanINs by immunohistochemistry, and the pattern of labeling compared with that seen in PanINs associated with infiltrating adenocarcinoma of the pancreas as identified in prior studies, and to PanINs associated with pancreatic endocrine tumor. Duct lesions were present in 80 of the 122 pancreata with chronic pancreatitis (66%). Of 405 duct lesions identified in the chronic pancreatitis group, 7.6% were reactive changes, 65.5% were PanIN-1A, 18% were PanIN-1B, 7.4% were PanIN-2, and 1.5% were PanIN-3. Within the pancreatic endocrine tumor group, 22 PanINs were identified: 15 PanIN-1A, 4 PanIN-1B, and 3 PanIN-2. There were significantly fewer high-grade PanINs in the pancreata with chronic pancreatitis than in pancreata with pancreatic adenocarcinoma (P < 0.0001). Within the chronic pancreatitis group, the 80 patients with PanINs were significantly older than the 42 patients without PanINs (mean age 57.0 +/- 14.1 years vs. 50.9 +/- 14.7 years, P = 0.01). Smoking history was not associated with PanIN prevalence or grade, but patients who reported a history of excessive alcohol consumption had fewer PanINs (25 of 44 harbored PanINs, 57%) than those who did not (54 of 74, 73%, P = 0.07). In the chronic pancreatitis group, 0% of PanIN-1A, 11% of the PanIN-1B, 16% of the PanIN-2, and 40% of the PanIN-3 lesions showed loss of p16 expression, whereas all of the PanINs from patients with an pancreatic endocrine tumor retained p16 expression. All of the PanINs analyzed from patients with chronic pancreatitis retained normal Smad4 expression. We conclude that a significant minority of PanINs arising in patients with chronic pancreatitis show loss of p16 expression. This alteration, common to pancreatic cancer-associated PanINs, may contribute to the predisposition of patients with chronic pancreatitis to develop pancreatic ductal adenocarcinoma.
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PMID:p16 Inactivation in pancreatic intraepithelial neoplasias (PanINs) arising in patients with chronic pancreatitis. 1465 8

Patients with chronic pancreatitis have a markedly increased risk of pancreatic cancer compared with general population. Mechanism of the increased risk is not completely known. The current progression model for pancreatic ductal adenocarcinoma proposes the progression from normal ductal epithelium through a series of lesions called pancreatic intraepithelial neoplasias (PanINs) to invasive cancer. These lesions are frequently seen in chronic pancreatitis tissue. Proliferative activity in PanINs of chronic pancreatitis tissue has not been separately studied using the current nomenclature. Our study included 36 chronic pancreatitis resection specimens. A total number of 106 PanINs found within 32 resection specimens was histologically graded and then immunolabeled using a monoclonal antibody against Ki-67 that is expressed in dividing cells. The Ki-67 labeling indices in the increasing grades of PanINs were counted with following results: PanIN-1A, 0.77%; PanIN-1B, 3.26%; PanIN-2, 14.68%; and PanIN-3, 25.4%. The difference in Ki-67 labeling indices among these types of lesions was statistically significant (p<0.001, t-test). These results correlate with known genetic alterations found in chronic pancreatitis, especially with p16 inactivation that was recently described in PanINs arising in patients with chronic pancreatitis. Moreover, our findings support the currently accepted pancreatic progression model and Ki-67 immunohistochemistry might represent an efficient tool for an identification of a high-risk lesion.
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PMID:Proliferative activity in pancreatic intraepithelial neoplasias of chronic pancreatitis resection specimens: detection of a high-risk lesion. 1564 Sep 47

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

Molecular markers of pancreatic neoplasia could aid in the evaluation of visible pancreatic lesions and indicate neoplasia invisible to imaging. We evaluated methylation-specific PCR (MSP) assays that detect aberrantly methylated DNA for their use as markers of pancreatic neoplasia. Methylation analysis was done on pancreatic juice collected endoscopically or surgically from 155 individuals with suspected pancreatic disease: 56 patients had pancreatic ductal adenocarcinoma, 17 had intraductal papillary mucinous neoplasms, 26 had symptomatic chronic pancreatitis, 12 controls lacked evidence of pancreatic disease, and 44 were asymptomatic individuals at increased risk of developing familial pancreatic cancer undergoing screening for pancreatic neoplasia. Pancreatic juice DNA was analyzed for promoter methylation using conventional MSP assays for 17 genes. For six genes, pancreatic juice methylation was quantified using real-time quantitative MSP (QMSP; Cyclin D2, FOXE1, NPTX2, ppENK, p16, and TFPI2). Quantifying pancreatic juice methylation using QMSP with a cutoff of >1% methylated DNA could better predict pancreatic cancer than detecting methylation using conventional MSP. In the endoscopic group, 9 of 11 patients with pancreatic cancer, but none of 64 individuals without neoplasia had > or =1% methylation for two or more of the best five QMSP assays (82% sensitivity and 100% specificity; P < 0.0001). The prevalence of pancreatic juice methylation in patients with chronic pancreatitis was less than in patients with pancreatic cancer but higher than in controls and similar to high-risk individuals. The detection and quantification of aberrantly methylated DNA in pancreatic juice is a promising approach to the diagnosis of pancreatic cancer.
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PMID:DNA methylation alterations in the pancreatic juice of patients with suspected pancreatic disease. 1642 60

Despite scientific efforts and significant progress in understanding the basic cellular event in pancreatic adenocarcinoma (PA), survival rates have not changed much during the last 20 years. Prognosis in pancreatic cancer remains unsatisfactory due to its late clinical presentation, low surgical resectability rates, and resistance to chemotherapy. Novel therapeutic strategies are needed in order to improve the prognosis of patients with PA. Improvement of our knowledge of the molecular biology of pancreatic cancer may have important clinical implications in pancreatic cancer risk assessment, early diagnosis, and management. In human pancreatic cancer, a specific sequence of oncogene and tumor suppressor gene alterations is observed, including K-ras, HER-2/neu, p16, p53, and DPC4. The prevalence of these genetic alterations rises with increasing severity of dysplasia of the ductal mucosal lesions. Drugs that target these molecular abnormalities hold great promise for PA treatment in the near future. The focus of this review is to evaluate the gene mutations in pancreatic cancer, with emphasis on those studies that are most important to the clinical practice. Our review also summarizes current aspects of PA treatment and the differential diagnosis of pancreatic cancer and chronic pancreatitis.
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PMID:Molecular pathogenesis of pancreatic adenocarcinoma: potential clinical implications. 1694 Sep 43


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