Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenocarcinoma of the pancreas is currently the fifth leading cause of death in the United States. It remains generally incurable by available treatment modalities. We report here on the characterization of a permanent pancreatic cell line (KCI-MOH1), established as a xenograft in severe combined immune deficient (SCID) mice, from a 74 year-old African American male patient diagnosed with pancreatic cancer. Sections from paraffin-embedded tumors excised from SCID mice revealed typical adenocarcinoma of the pancreas. Karyotypic analysis of cultured cells derived from tumors grown in SCID mice revealed a male karyotype with multiple clonal aberrations: 42, XY, add (3)(p11.2), der(7) t(7;12) (p22;q12), -10, -12, add (14)(p11), -18, add (20)(q13)-22/84, idemx2. Immunostaining of KCI-MOH1 tissues shows strong expression of p53 and p21 proteins. The xenograft model was established by transplanting the KCI-MOH1 cells subcutaneously (s.c.) in SCID mice. When the s.c. tumor was transplanted in vivo to other SCID mice, the success rate was 100%, with a doubling time of 8.5 days. The SCID mouse xenograft model was used to test the efficacy of selected standard chemotherapeutic drugs (taxol, gemcitabine, 5-fluorouracil, and Ara-C) and novel biological agents (Bryostatin 1 and Auristatin-PE). Results show that gemcitabine, Ara-C, and Bryostatin 1 were active against KCI-MOH1. The xenograft described herein can be used as an animal model to facilitate the development of novel therapeutic agents against human pancreatic cancers.
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PMID:Establishment of a human pancreatic tumor xenograft model: potential application for preclinical evaluation of novel therapeutic agents. 943 58

Our understanding of the molecular genetics of pancreatic cancer has advanced spectacularly over the last 5 years so that this tumour type is now one of the best characterised of all malignancies. A small proportion of cases results from inherited predisposition due to germline transmission of a mutated CDKN2 or BRCA2 gene, while patients with familial pancreatitis due to a mutated cationic trypsinogen gene have a greatly increased risk of developing pancreatic cancer. The majority of cases are sporadic and are characterised at the molecular level by several key genetic abnormalities. The most frequent of these is point mutation of the dominant oncogene KRAS, a lesion which occurs as an early and possibly initiating event in tumourigenesis. Inactivating mutations of the tumour suppressor genes TP53, CDKN2 and SMAD4 are also frequently observed and this constellation of genetic defects sets pancreatic cancer apart from other types of cancer, a feature which could have important implications for molecular diagnosis. Genetic intervention for cancer prevention and therapy is becoming a clinical reality and several approaches are being pursued for pancreatic cancer. As well as tumour suppressor gene replacement and oncogene blockade, strategies with a potential bystander effect are showing promise. These include genetic prodrug activation therapy using selective expression of suicide genes and genetic immunomodulation with cytokines and tumour-associated antigens.
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PMID:Molecular advances in pancreatic cancer. 943 1

Diagnosing and monitoring pancreatic cancer is an ongoing challenge. Conventional markers such as tumor-associated antigens might be supplemented by molecular markers such as gene mutations and growth factor/growth factor receptor alterations in the future. Tumor-associated antigens can easily be measured by different EIA/ELISA systems, but the analysis of gene mutations, growth factors and their receptors requires advanced molecular techniques. CA 19-9 is the most widely used conventional marker for pancreatic cancer and is a useful tool in the diagnosis and follow-up of patients after tumor resection. Nonetheless, its role in detecting early pancreatic cancer is limited. The detection of K-ras and p53 mutations, which occur in about 90 and 50% of pancreatic cancers, respectively, in blood, stool, or bile samples, seems to be a promising approach in the diagnosis. Growth factor and growth factor receptor alterations are often associated with increased tumor aggressiveness and shorter survival following tumor resection. To date the analysis of growth factors/growth factor receptors in pancreatic cancer has not entered clinical use, but further molecular characterization of pancreatic cancer is necessary for earlier and more accurate diagnosis and it may result in new treatment options.
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PMID:Molecular versus conventional markers in pancreatic cancer. 943 2

Cancer of the pancreas is a genetic disease. Sporadic cancers of the pancreas are frequently associated with the activation of an oncogene, K-ras, and the inactivation of multiple tumor suppressor genes, including p53, DPC4, p16, and BRCA2. An improved understanding of the genetics of pancreas cancer should lead to new tests to screen for this disease and novel rational gene-based therapies.
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PMID:Genetics of pancreatic cancer. From genes to families. 944 84

Plasminogen activators (PAs) play an important role in tumor cell invasion. We have analysed the expression of tissue-type PA (t-PA), urokinase-type PA (u-PA), and their respective receptors, annexin II and u-PAR, in normal and neoplastic cultures of pancreatic cells, as well as in pancreatic tissues, and have examined their role in tumor invasiveness in vitro. Using Northern blotting, Western blotting, and ELISA, t-PA is detected in cultured pancreas cancer cells displaying a well differentiated phenotype but it is undetectable in less differentiated cells and in normal pancreatic cultures. In contrast, u-PA transcripts, protein, and enzymatic activity are detected both in cancer cells and in normal cultures. Higher levels of u-PAR and annexin II are present in cancer cells than in normal cultures and, in SK-PC-1 cells, both receptors are localized in the basolateral membrane. In vitro invasion assays indicate that both t-PA and u-PA contribute to the invasiveness of SK-PC-1 cells through reconstituted extracellular matrix. To determine the relevance of these studies to pancreas cancer, immunohistochemical assays have been used to examine the expression of t-PA, u-PA, and their receptors in normal and neoplastic tissues. t-PA is absent from normal pancreas and from tumor associated pancreatitis, whereas it is detected in the majority of pancreas cancer tissues (16/17). Annexin II is also overexpressed in some tumors (5/13). u-PAR is overexpressed in most tumor samples examined (14/15), while u-PA is weakly detected in a low number of cases (3/14); both u-PAR and u-PA are overexpressed in areas of tumor associated pancreatitis. Indirect evidences indicate that K-ras and p53 mutated proteins can regulate the expression of PAs. In pancreatic cancer we have found an association between codon 12 K-ras mutations and t-PA expression (P=0.04). These results support the contention that, in the exocrine pancreas, activation of t-PA is more specifically associated to neoplastic transformation and to the invasive phenotype, whereas the induction of u-PA/u-PAR system might be more relevant to inflammatory or non-neoplastic events.
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PMID:The plasminogen activator system in pancreas cancer: role of t-PA in the invasive potential in vitro. 948 8

New innovations are needed for the treatment of pancreatic cancer, as current treatments do not offer significant improvements in overall survival. p21WAF1--a tumor suppressor gene--acts as a downstream effector of p53 function and mediates G1 cell cycle arrest by inhibiting cyclin-dependent kinases, which promote cell growth. p21 expression has also been shown to increase more than 20-fold in senescent cells in culture. The replication-defective recombinant adenoviral system (rAd), a major innovation in gene transfer technology, has recently been used in gene therapy applications for various malignancies but not for pancreas cancer. In this study we used rAd-p21 in cell growth inhibition studies of pancreatic tumor cell lines in vitro to explore its potential as a prospective gene therapy for pancreatic adenocarcinoma. We studied two pancreatic cell lines in culture, HPAC and Hs766T. HPAC revealed higher endogenous levels of p21 gene expression at the protein and RNA levels compared to Hs766T. p21 induction was tested using different doses of rAd-p21 to establish an optimum dose for significant induction of p21 gene expression. Tumor cell growth in culture following rAd-p21 infection was also analyzed in both cell lines. HPAC and Hs766T cell lines showed a significant dose-dependent increase in p21 protein expression when infected with rAd-p21. Both cell lines showed significant growth arrest, but Hs766T showed less cell growth inhibition than HPAC cells. Flow cytometric cell cycle analysis of rAd-p21-infected cells showed a statistically significant increase in the number of cells in G0/G1 in HPAC cells. Similar results were also obtained in Hs766T cells, however, the data were not statistically significant. In conclusion, pancreatic tumor cell growth can be inhibited by rAd-p21 in vitro, with significant numbers of tumor cells reverting from S to G0/G1. Thus rAd-p21 may be effective as a candidate gene therapy for pancreatic cancer and should be further evaluated with in vivo studies.
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PMID:Inhibition of pancreatic tumor cell growth in culture by p21WAF1 recombinant adenovirus. 951 Jan 31

The p16 tumor suppressor gene is thought to play an important role in cell cycle regulation by encoding for protein products that can inhibit the progression from G1 to S phase in the cell cycle. Recently, the p16 gene has been found to be mutated or deleted in a variety of different types of primary human malignant tumors and human-derived malignant tumor cell lines. In this study, primary ductal pancreatic adenocarcinomas from 32 human patients were analyzed immunohistochemically for expression of p16 protein, with emphasis on the role of abberant p16 protein expression as a prognostic indicator. In addition, the same tumors were also assessed for p53 protein expression, AgNOR counts, and DNA ploidy. Nineteen out of the 32 cases (59%) showed positive immunoreactivity for p16 protein in their tumors and a significant association was found between lack of p16 protein expression, and both advancing clinical stage classification of disease, and poorer survival (p<0.05). The rate of positive immunoreactivity for p53 protein expression was 59%, however, no clear association was found between p53 protein expression, and either clinical stage of disease, or survival. These findings suggest that alteration of the p53 gene may be a relatively early event in pancreatic tumorigenesis, whereas alteration of the p16 gene is more likely to be correlated with tumor progression in pancreatic malignancies. Further survival analysis revealed that all five of the 32 cases that survived for three years or longer had positive immunostaining for p16 protein, and a relatively low level of AgNOR counts. In four out of five of these patients, the tumors also exhibited negative immunostaining for p53 protein and DNA diploidy. These findings suggest that molecular analysis of patient tumor sections may yield potentially useful prognostic indicators for patients undergoing surgical resection for pancreatic cancer.
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PMID:Aberrant p16INK4 expression related to clinical stage and prognosis in patients with pancreatic cancer. 953 37

Pancreatic adenocarcinoma is one of the most incurable and least understood of all human cancers. It is the fourth leading cause of cancer-related mortality in males (after lung, prostate, and colon) and in females (after lung, breast, and colon) in the United States with <2-3% of patients surviving >5 years. In an attempt to search for more effective therapies for this disease, we report here, for the first time, an effective treatment, the combination of gemcitabine and auristatin-phenethylamine (PE), against an orthotopic implantation of a human pancreatic adenocarcinoma cell line (HPAC) in severe combined immunodeficient (SCID) mice. Tumor implantation was performed by injecting 100 microl of the HPAC cell suspension (1 x 10(6) cells) directly into the pancreas of 5-week-old SCID mice. After implantation, tumor formation was checked twice a week. All palpable tumors were detected within 21 days (100% take rate), and tumors were confirmed histologically to be pancreatic adenocarcinoma. For the subsequent efficacy trial, tumor-bearing SCID mice were randomized into four groups with five mice in each group. One served as a control, the second received gemcitabine alone (2.5 mg/kg/injection i.p.), the third received auristatin-PE alone (2.0 mg/kg/injection i.v.), and the fourth group received the combination of gemcitabine (i.p.) and auristatin-PE (1.5 mg/kg/injection i.v.). All animals were euthanized 7 days after the completion of their treatments, and the pancreases were resected. Histological examination revealed the tumors to be adenocarcinoma. The tumors were composed of diffuse sheets of cells interrupted by glandular spaces containing secretory material. Cytologically, the tumor cells were large, pleomorphic, and hyperchromatic. Many cells contained intracellular lumina containing mucin. Immunohistochemical studies showed strong p21WAF1 (p21) expression but no immunoreactivity with p53 and Her-2/neu antibodies. The mean pancreatic weight in the gemcitabine/auristatin-PE combination group was significantly (P = 0.014) lower (0.84 +/- 0.639 g) when compared with those of the control (2.91 +/- 1.19 g) and gemcitabine alone (1.84 +/- 0.796 g; P = 0.064) groups. In addition, the mean weight in the combination group approached statistical significance when compared with the auristatin-PE group alone (1.16 +/- 0.635 g; P = 0.028). We conclude that the combination of gemcitabine and auristatin-PE is an effective treatment against HPAC tumors in this xenograft model and more effective than treatment with either gemcitabine or auristatin-PE alone and could be considered for future animal studies with pancreas cancer and/or for human clinical trials.
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PMID:An orthotopic model of human pancreatic cancer in severe combined immunodeficient mice: potential application for preclinical studies. 956 82

The expression of apoptosis suppressing protein bcl-2, tumour-suppressor protein p53, and proliferation marker Ki-67 and their possible prognostic value were analysed in pancreatic ductal adenocarcinoma. Fifty-two % (34/64) of the samples were positive for bcl-2 and immunostaining were mainly localized in the cytoplasm of tumour cells. Bcl-2 expression was not related to tumour grade, DNA ploidy or S-phase fraction or to any clinical parameters. In univariate analysis bcl-2 expression predicted favourable outcome (p = 0.008). Positive nuclear staining for p53 was found in 40% (24/59) of samples and 80% (60/74) of the tumours were positive for Ki-67. p53 and Ki-67 expressions were not related to patient survival. According to our results, bcl-2 expression seems to be a predictor of disease outcome and may have some clinical value in human pancreatic cancer.
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PMID:Clinical contribution of bcl-2, p53 and Ki-67 proteins in pancreatic ductal adenocarcinoma. 956 86

Pancreatic cancer is an aggressive disease with a dismal prognosis. It has long been regarded as one of the most difficult cancers to accurately diagnose and stage preoperatively. The purpose of this review is to provide an update of the state-of-the-art for early detection, diagnosis, and staging of pancreatic cancer. These methods include spiral CT scans, magnetic resonance imaging, positron emission tomography (PET) imaging, laparoscopy, endoscopic ultrasound, CA 19-9 serology, fine needle aspiration cytology, ERCP brush cytology, and screening for p53 and ras oncogenes. These advanced techniques should help us to detect pancreatic cancers in high-risk populations at a curative stage and to decrease pancreaticoduodenectomies for benign disease which could otherwise be treated with less morbid procedures. In addition, these tests will help reliably diagnose pancreatic cancer preoperatively.
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PMID:Advances in the early detection, diagnosis, and staging of pancreatic cancer. 957 31


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