UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Within the past 4 years major advances in our understanding of pancreatic carcinogenesis have been made. The discovery of a high frequency of mutations in the tumor suppressor genes p16 and p53 together with an extraordinary high rate of K-ras mutations have shed light on how the disturbance of cell cycle control is a major hallmark in this tumor type. Furthermore, another very recently identified tumor suppressor gene, DPC4 (deleted in pancreatic carcinoma, locus 4), revealed that the TGFbeta-Smad signalling pathway is also likely to contribute to the development of this tumor type. It is now hoped that our improved knowledge of the molecular profile of pancreatic carcinoma will also translate into better diagnostic and therapeutic options to deal with this dismal disease.
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PMID:Recent discoveries in cancer genetics of exocrine pancreatic neoplasia. 970 34

This review summarizes data on the occurrence, the trends, and the life-style, environmental, occupational and genetic determinants of pancreatic cancer. Epidemiologic evidence implicates tobacco smoking as one cause. The evidence regarding alcohol consumption is inconsistent. Although both positive and inconclusive findings are encountered, the bulk of the evidence on coffee consumption is negative. Fat intake is linked with obesity and diabetes mellitus, which are risk factors for pancreatic cancer. Fruit and vegetable consumption appears to be protective. No occupational or environmental agent has been confirmed to increase the risk, but epidemiologic evidence is inconsistent, Little is known about the role of genetic polymorphisms of metabolic enzymes in pancreas carcinogenesis. Pancreatic cancer shows high rates of mutations of Ki-ras and losses or mutations of tumor suppressor genes (p53, p16INK4A, and SMAD4/DPC-4). Ki-ras mutations have been associated with life-style factors in relation to pancreatic cancer, but the evidence is still scant and inconsistent.
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PMID:Occurrence, trends and environment etiology of pancreatic cancer. 971 Mar 67

Adenocarcinoma of the pancreas carries a grave prognosis for affected patients. Certain oncogenes (K-ras and HER-2/neu) are mutated in a large proportion of these aggressive tumors. Adenocarcinoma of the pancreas has also been associated with loss of tumor suppressor genes (p53, DPC4, p16/MTS), either by deletion or by mutation and loss of function. Growth factors (EGF, TGF-alpha, HGF) and growth factor receptors (EGF-R, c-met, CCK) are expressed at levels not found in the normal pancreas. Finally, factors important for angiogenesis (FGF, integrins, selectins) are likely to play an important role in the growth and metastasis of clinically relevant tumors. This review attempts to summarize and assimilate current research into the molecular and cellular biology of pancreatic cancer.
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PMID:The molecular and cellular biology of pancreatic cancer. 980 1

Pancreatic adenocarcinoma is a major cause of cancer death in the United States. Most cases are sporadic and are discovered at late stage when they are not curable by surgery. Information about the molecular biology of pancreatic adenocarcinoma has increased significantly in the last five years with the identification of alterations in the K-ras proto-oncogene and the p16INK4a, p53, FHIT, and DPC4 tumor suppressor genes in a high percentage of tumors. Pancreatic adenocarcinoma is not homogeneous genetically, however, and other genes are clearly involved in some sporadic and heritable tumors. This review summarizes recent data relating to the molecular biology of pancreatic adenocarcinoma with emphasis on features which may be of clinical significance for diagnosis and/or therapy. Molecular genetic alterations that disturb cell cycle regulation in tumor cells can affect their response to chemotherapeutic agents and radiation and many of these genes are targeted in pancreatic adenocarcinoma. Knowledge of these genetic alterations in individual tumors may allow selection of optimal therapeutic strategies for individual patients. Furthermore, molecular detection of oncogene and tumor suppressor gene mutations may find application as screening tests for pancreatic adenocarcinoma at least in high risk populations. Biological therapy aimed at specific oncogenes and tumor suppressor gene replacement therapy protocols for pancreatic adenocarcinoma are beginning and may offer promise in the future.
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PMID:Molecular pathobiology of pancreatic adenocarcinoma. 982 Jul 39

We performed molecular biological studies as well as immunohistochemical analysis of three cases of giant cell carcinoma of the pancreas. Histologically, one case was a pleomorphic giant cell carcinoma consisting of pleomorphic giant/ small cells and spindle cells, one an osteoclast-like giant cell tumor composed of osteoclastoid giant cells and pleomorphic small cells, and one a pleomorphic giant cell carcinoma with osteoclastoid giant cells. Immunohistochemically, pleomorphic giant cells and small pleomorphic cells were positive for epithelial and mesenchymal markers throughout the cases. Osteoclastoid cells were strongly positive for PG-M1 (CD68), but negative for lysozyme and epithelial markers. Pleomorphic spindle cells showed the same immunoreactivity as pleomorphic giant/small cells. Genetically, all cases contained a mutation in the K-ras (codons 12, 13) oncogene, but neither p53 (exons 5-8) nor p16INK4 (exons 1, 2) gene mutations were found in any case. Furthermore, Loss of heterozygosity (LOH) of the p53, p161NK4. APC, and DPC4 gene loci was not found in any of the cases. Immunohistochemical study demonstrated this tumor to be of epithelial origin with mesenchymal differentiation. Genetically, initiation of the tumor is similar to that of usual ductal adenocarcinoma, but progression might be rather different. The peculiar histologic and biologic features of this tumor would be the result of changes in other functional genes.
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PMID:Immunohistochemical and molecular analysis of giant cell carcinoma of the pancreas: a report of three cases. 1020 90

Cancer of the exocrine pancreas is a disease of considerable importance in gastroenterology. In Western countries it is the fourth commonest cause of death from cancer after those of lung, colorectal, and breast. The incidence of pancreatic carcinoma has increased in Northern Europe and North America during recent decades and contrary to for example, lung, gastric and oesophageal carcinoma, its incidence is still increasing the annual incidence is about 8-10/100,000 population. The causes of its increased incidence are unknown, as is the aetiology of the disease itself. Pancreatic cancer generally grows without symptoms until late in its natural history and there are therefore many discouraging unresolved problems in management. However, some progress has been made in understanding the molecular basis of pancreatic carcinogenesis. Recent molecular pathological studies have described mutation or overexpression of important oncogenes such as K-ras and bcl-2 and deletions of tumour suppression genes such p53, DPC4, CDKN2, and the Rb gene. The present prognosis of pancreatic cancer is, however, controversial, and as these new markers may have the potential for improving our ability to predict its course, we have reviewed current knowledge, and concentrated on the classic and the recently-introduced factors in the prediction of its prognosis.
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PMID:Prognosis of human pancreatic adenocarcinoma: review of clinical and histopathological variables and possible uses of new molecular methods. 1036 29

Abnormalities of several oncogenes and tumor suppressor genes have been identified in carcinomas of the pancreas during the last decade, and multiple genetic changes have been demonstrated in individual carcinomas. The variety of genetic changes suggests that multiple etiologic factors contribute to carcinogenesis in the pancreas. Several of these changes are characteristically found in specific types of tumors, suggesting that different causes and molecular mechanisms are involved. One example is the loss of heterozygosity at the von Hippel-Lindau (VHL) gene locus in both wild type and hereditary serous cystadenomas, and another is the virtual absence of K-ras mutation and p53 abnormalities in acinar cell carcinomas, whereas both are frequently found in ductal adenocarcinomas. Multiple lines of evidence place K-ras mutation very early and loss of p53 and p16 as late events during ductal cell carcinogenesis. The timing and order of other genetic changes such as loss of the DPC4 tumor suppressor function is less certain.
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PMID:Molecular pathology of invasive carcinoma. 1041 52

Biliopancreatic malignancy is one of the leading causes of cancer death in the Western world. Defining at risk groups has been difficult. Diabetes mellitus and pancreatitis increase the risk of pancreatic carcinoma, and inflammatory bowel disease and associated sclerosing colangitis increase the risk of biliary tract malignancy. Pancreatic carcinoma has also been described in pedigrees with inherited cancer predisposition. Extensive molecular profiling of pancreatic carcinomas has been accomplished over the past few years, but similar knowledge in other biliopancreatic malignancies is lacking. In almost all pancreas cancers at least one alteration will occur out of a combination of K-ras mutations and inactivation of the tumor suppressor genes p16/MTS1/ink4a, p53 and DPC4/Smad4. Mutations of K-ras and p16 have been described in hyperplastic and dysplastic pancreatic ductal lesions believed to be the non-malignant precursors of pancreatic carcinoma. Detection of K-ras mutations in clinical samples (biliopancreatic secretions, stool, duodenal aspirates, and blood) identical to ones present in primary pancreatic cancers and/or their precursor ductal lesions has been reported in pilot studies. Recently detection of 18q deletions (at the DPC4 locus) in pancreatic secretions from early pancreatic cancers was also reported. These advances raise the possibility that within well defined at risk groups it will be possible to use a combined set of molecular markers to screen clinical samples and detect early pancreatic cancer or even pre-malignant lesions. The fulfillment of this promise will depend on proving the role of molecular screening in decreasing morbidity and mortality, which will require well designed clinical studies.
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PMID:Biliopancreatic malignancy: screening the at risk patient with molecular markers. 1043 11

Transforming growth factor-beta (TGF-beta) inhibits cell proliferation in many cell types, and acquisition of TGF-beta resistance has been linked to tumorigenesis. One class of proteins that plays a key role in the TGF-beta signal transduction pathway is the SMAD protein family. MDM2, a key negative regulator of p53, has recently been shown to suppress TGF-beta-induced growth arrest in a p53-independent manner. Here we show that MDM2 and the structurally related protein MDMX can inhibit the transcriptional activity of ectopically expressed SMAD1, SMAD2, SMAD3, and SMAD4. Immunofluorescence staining indicated that ectopically expressed SMAD4 was present in both the cytoplasm and nucleus, and MDM2 and NIDMX were localized mainly to the nucleus and cytoplasm, respectively. When SMAD4 was coexpressed with either MDM2 or MDMX, nuclear accumulation of SMAD4 was strikingly inhibited. We have no evidence that SMAD4 binds directly to MDM2 or MDMX; hence, the inactivation and nuclear exclusion of SMAD4 by MDM2/MDMX may involve other indirect mechanisms.
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PMID:MDM2 and MDMX inhibit the transcriptional activity of ectopically expressed SMAD proteins. 1053 76

The SMAD4 (DPC4) gene was initially isolated as a candidate tumor suppressor from the convergent site of homozygous deletions on 18q in a panel of pancreatic carcinoma cell lines. It encodes a common cytoplasmic signaling molecule shared by the transforming growth factor-beta, activin, and bone morphogenic pathways. We recently inactivated its mouse homologue Smad4 and demonstrated its role in the malignant progression of benign adenomas to invasive adenocarcinomas by analyzing mice with Apc and Smad4 compound mutations. Although simple Smad4 homozygotes were embryonically lethal, the heterozygotes were fertile and appeared normal up to the age of 1 year. Upon further investigation, however, they have developed inflammatory polyps in the glandular stomach and duodenum. By PCR genotyping and immunohistochemical staining, the wild-type Smad4 allele has been lost in the polyp epithelial cells, ie., loss of heterozygosity. On the other hand, we have not found any mutations in such genes as K-Ras, H-Ras, N-Ras, p53, or PTEN. Histologically, the polyps are similar to human juvenile polyps showing moderate stromal cell proliferation and infiltrations by eosinophils and plasma cells. In addition, foci of adenocarcinoma with signet ring cells are also found. These results are consistent with a recent report that germ-line SMAD4 mutations are found in a subset of familial juvenile polyposis.
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PMID:Gastric and duodenal polyps in Smad4 (Dpc4) knockout mice. 1062

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