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

Cytogenetic alterations that characterize different histologic subtypes of soft tissue sarcomas have been identified. In a few situations, more precise chromosomal mapping has allowed identification of certain genes that may be involved in the development or tumor progression of sarcomas. Careful family histories must be elicited in sarcoma patients. While "cancer families" are rarely identified when screening close relatives of sarcoma patients, the discovery of the currently known tumor suppressor gene syndromes associated with germ line retinoblastoma gene and p53 gene defects were made possible by their association with sarcomas. Optimal management of primary sarcomas includes function-sparing complete resection and radiotherapy. Innovative radiotherapy, utilizing radiation sensitizers or brachytherapy, may increase local control in patients with unresectable tumors. New drugs are needed. Epirubicin and other anthracycline analogues do have significant activity; however, no other novel drugs have documented efficacy. Dose intensity is being explored with sarcoma trials providing the "vehicle" to evaluate new cytokines. Several mechanisms of doxorubicin resistance have been identified in cell lines and fresh tumors, including alterations in glutathione peroxidase activity and MDR-1 gene expression. These observations need to be taken to the clinic.
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PMID:Advances in the diagnosis and management of sarcomas. 151 Oct 24

Some mutant forms of the p53 protein have been shown to gain new functions that are not shared by the wild-type p53 protein; (1) mutant p53 proteins can transcriptionally transactivate the multi-drug resistance gene-1 (MDR-1) and (2) when expressed in non-tumorigenic cells with no endogenous p53 protein, mutant p53 proteins can enhance the tumorigenic potential of these cells (Dittmer et al., 1993). It has recently been shown (Lin et al., 1994b) that the transcriptional activator domain of the p53 protein contains two amino acids, leu-22 and trp-23, which are required by the wild-type p53 protein for transcriptional activity. To determine whether these same amino acid residues are utilized by mutant p53 proteins for their gain of function phenotype, the triple mutant p53 protein (at residues 22 and 23 in the transactivation domain and residue 281 in the DNA binding domain--a gain of function mutant) was made. While the p53-281 mutant transcriptionally activates the MDR-1 gene and enhances the tumorigenic potential of cells it is expressed in, the 22, 23, 281 triple mutant failed to carry out either of these functions.
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PMID:Two critical hydrophobic amino acids in the N-terminal domain of the p53 protein are required for the gain of function phenotypes of human p53 mutants. 778 87

A new cell line (LR10.6) with pre-B cell phenotype has been established from bone marrow cells obtained from a child with B lineage acute lymphoblastic leukemia in complete clinical remission. The line expresses nuclear TdT enzyme, cytoplasmic Ig lambda-chain and membrane mu-chain and other B but no T or myeloid markers. The cells also show activation antigens CD69 and CD71, adhesion molecules CD54, CD50 and CD56 and the tyrosine kinase receptor CD117. No expression of multidrug resistance phenotype MDR-1 is observed on these cells which nevertheless express the transcriptional factor p53 protein in a mutant form. Cytogenetic study shows a translocation t(5;12)(q31;p13) involving breakpoints which contain the growth factor interleukin 3 gene (5q31) and the recently identified TEL/ETV6 gene (12p13). Activation of the cells with phorbol-12 myristate 13-acetate (PMA) up-regulates the expression of the CD69 activation antigen and down-regulates the CD117 molecule. In addition, PMA fails to induce the CD20 B cell antigen.
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PMID:A new human cell line with pre-B cell phenotype and t(5;12). 920 88

Extensive research has led to accumulation of common hereditary evidence concerning ovarian and breast cancer, suggesting that these two cancers can be considered as one type. Subsequently, women with breast cancer are susceptible to the risk of developing ovarian cancer. Highly expressed oncogenes such as bcl-2, HER2/neu and others or mutated suppressor genes such as p53 or BRCA1 have been characterised as hereditary susceptibility genes leading to syndromes such as breast/ovarian cancer syndrome, Li-Fraumeni and others. Furthermore, these genetic alterations can cause potent chemoresistance by inhibiting induction of apoptosis after DNA damage caused by chemotherapy and/or radiotherapy. Presently, molecular onco-biology has enabled us not only to detect susceptibility to ovarian and breast cancer but also ways to inhibit their further progression or even circumventing chemoresistance mechanisms after their development by gene therapy using delivery vectors such as liposomes or viruses, by which we can replace wild-type tumour suppressor genes or by using antigene, antisense oligonucleotides and antisense RNA leading to reduced oncogene expression, enabling induction of apoptosis after DNA damage into chemoresistant tumour cells. Furthermore efflux-genes such as MDR-1 or MRP can be circumvented, suicide-genes can be employed which can facilitate sensitivity by encoding enzymes capable of converting inactive forms of a drug into toxic antimetabolites and immunotherapy can be achieved, by transfection of tumour cells with adenoviral vectors encoding immunomodulators such as IL-2 or MHC molecules. Thus, molecular biology appears to be a very strong element for the screening, diagnosis, therapy and prognosis of ovarian and breast cancer. However, consistent future research is greatly needed because many points concerning ovarian and breast cancer genetics are still unknown. Finally, we strongly believe that gene therapy could be extremely useful when is combined with conventional therapy against ovarian and breast tumours.
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PMID:Molecular aspects of breast and ovarian cancer. 937 59

A summary of the clinically significant cytogenetic markers in follicular lymphoma is presented in Table 3. It is clear that the use of cytogenetic analysis to evaluate progression and transformation in follicular lymphoma is complicated by the variety and complexity of the chromosomal aberrations present in this disease. Cytogenetic and molecular studies have indicated that the t(14;18) translocation is the prerequisite of a multistep process in the lymphomagenesis of follicular lymphoma; it is usually followed by a long quiescent period during which the B cell population expands and additional oncogenic mutations occur leading to eventual progression and transformation to a highly malignant form. This process can be accomplished by a variety of pathways: Activation of other oncogenes by additional chromosomal rearrangements (e.g. MYC, LAZ3) Deletion and mutation of tumour suppressive genes (e.g. TP53, proposed genes on 6q) Gain of whole or parts of chromosomes, leading to increased expression of important regulating factors (e.g. MDR and T cell receptor genes on chromosome 7) More studies are required to determine which of these pathways, if any, is most important for neoplastic transformation.
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PMID:Cytogenetic mechanisms in the pathogenesis and progression of follicular lymphoma. 954 92

Tumor-derived p53 mutants can transcriptionally activate a number of promoters of genes involved in cellular proliferation. For this transactivation, mutant p53 does not use the wild-type p53 DNA-binding site, suggesting a mechanism of transactivation that is independent of direct DNA binding. Here we describe our analysis of the domain requirements for mutant p53 to transactivate promoters of the human epidermal growth factor receptor (EGFR), human multiple drug resistance 1 (MDR-1) and human proliferating cell nuclear antigen (PCNA) genes. We also report the identification of a structural domain required for the 'gain of function' property of mutant p53-281G. 'Gain of function' is measured as the tumorigenicity (in nude mice) of 10(3) murine cells expressing mutant p53 constitutively. We have generated internal deletion mutants of p53-281G deleting conserved domains I, II, III, IV and V, individually. We have also generated one deletion mutant eliminating amino acids 100 through 300 that removes four of the five conserved domains (II - V); another mutant, p53-281G del 393-327, deletes the oligomerization and nonsequence-specific nucleic acid-binding domains of p53. For the EGFR and MDR-1 promoters, all these mutants have significantly lower transactivation ability than intact p53-281G. These deletion mutants, however, significantly activated the pCNA promoter, suggesting that the mechanism of transactivation of the PCNA promoter is different from that of the EGFR and MDR-1 promoters. When expressed constitutively in 10(3) cells, p53-281G del 393-327 was found to be defective in inducing tumor formation in nude mice although intact p53-281G was very efficient. Thus, our results suggest that structural domains near the C-terminus are needed for 'gain of function'.
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PMID:'Gain of function' phenotype of tumor-derived mutant p53 requires the oligomerization/nonsequence-specific nucleic acid-binding domain. 967 96

Non-Hodgkin's lymphomas (NHL) are B-cell malignancies which generally present molecular abnormalities, such as bcl-2 translocation t(14; 18) predominantly in the follicular subgroup. Other molecular events have been described in NHL, including p53 gene mutation and overexpression of one chemoresistance mechanism, the multidrug resistance system, P-glycoprotein (MDR 1/P-gp). In this study, we analysed samples from 44 NHL patients with the presence of the bcl-2 major breakpoint region (MBR) rearrangement in 29 and without in 15. Immunochemical analysis revealed that 39 samples were positive for bcl-2 protein expression in tumoral cells (88.6%). Seventeen (38.6%) patients expressed P-gp and 9 (20.5%) expressed p53 proteins. Eleven patients expressed both bcl-2 and P-gp proteins, four expressed bcl-2 and p53 proteins whereas four expressed bcl-2, p53 and P-gp proteins. Our results confirm the importance of p53 expression as a key prognostic factor, and no objective response (OR) was found in patients with p53 positivity. MBR rearrangement was not associated with poor response to chemotherapy (62.1% OR in MBR positive patients v. 60% OR in MBR negative patients). The clinical impact of P-gp cannot be identified because no relationship was observed between P-gp expression and prognosis (58.8% OR in P-gp positive patients v. 63% OR in P-gp negative patients).
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PMID:MBR rearrangement and P-glycoprotein expression are not independent prognostic factors like p53 protein in malignant lymphoma. 968 Dec 18

Repeated exposures to high doses of chemotherapy are often required to eradicate solid tumors. The success of such high-dose therapy is often limited by the myelosuppressive and toxic effects of these drugs on bone marrow cells and by the intrinsic resistance of the cancer cells to chemotherapy. To test ways of using genetic modification of somatic cells to circumvent both of these problems, we first genetically modified normal bone marrow cells with multidrug resistance-1 (MDR-1) cDNA retroviral vectors to render these cells more resistant to p-glycoprotein-transported agents. Experiments conducted previously in a mouse model in our laboratory (E. G. Hanania et al., Cancer Gene Ther., 2: 251-261, 1995; E. G. Hanania and A. B. Deisseroth, Cancer Gene Ther., 1: 21-25, 1994), which involve transplantation of mouse marrow cells modified with the human MDR-1 cDNA, showed that the majority of the marrow cells of these animals were resistant to repetitive administration of myelotoxic doses of Taxol, a MDR-1-transported drug. Next, to test the effects of genetically modifying marrow cells to make them resistant to chemotherapy, and genetically modifying tumor cells to make them more sensitive to chemotherapy, a mouse breast cancer cell line was transfected with a plasmid expression vector that contained a wild-type p53 chemosensitization transcription unit. Others have shown that restoration of the p53 gene can lead to decreased proliferation, reduced tumorigenicity, and increased sensitivity to chemotherapy-induced apoptosis. In this animal model, the simultaneous use of both chemoprotection and chemosensitization vectors, which provided protection of the normal cells to the chemotherapy and at the same time sensitized the tumor cells to the toxic effects of the chemotherapy, resulted in levels of in vivo tumor reduction that were not possible when either genetic chemoprotection of marrow cells or chemosensitization of tumor cells was used alone. These data should be of interest to those who are studying ways of using genetic modification to improve the outcome of established chemotherapy treatment programs for solid tumors.
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PMID:Simultaneous genetic chemoprotection of normal marrow cells and genetic chemosensitization of breast cancer cells in a mouse cancer gene therapy model. 981 84

p53 is altered in about 50 % of cancers. Most of the p53 mutants have lost the wild-type tumour suppressor activity but show oncogenic properties. The majority of the p53 alterations are missense mutations of residues located in its DNA binding domain (DBD). Only a few mutations concern residues in its tetramerisation domain (TD). However, the study of mutant proteins identified in tumors that do not form tetramers has shown that they have lost the wild-type activity like most of the p53 DBD mutants. Here, we show that two of such mutant proteins, Arg342Pro and Leu344Pro are not dominant negative and do not stimulate the expression of a reporter gene under the control of the multi-drug resistance gene-1 (MDR-1). This suggests that to be oncogenic, p53 mutants need to form tetramers. Accordingly, the dominant negative effect and the ability of a tetrameric mutant protein, Asp281Gly, to stimulate the MDR-1 promoter are abolished when its TD is rendered non-functional by the mutation of leucine 344 to a proline residue. These results suggest that mutations in the TD, are less selected in tumors than mutations in the DBD because they do not lead to oncogenic proteins.
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PMID:p53 mutants without a functional tetramerisation domain are not oncogenic. 1006 94

Recent studies have identified some of the genetic alterations involved in endometrial carcinoma development. Transforming genes, including K-ras and c-erbB2/neu oncogenes and the p53, PTEN and hMLH1 tumor suppressor genes, are the most frequently altered. In addition, endometrial carcinomas express high levels of chemoresistance markers, including the MDR-1 or the MRP genes. The genetic background of an endometrial cancer patient may include high-penetrance genes such as the DNA mismatch repair genes causing microsatellite instability, and low-penetrance genes such as those involved in estrogen-metabolism. The spectrum of several molecular lesions suggest a model for endometrial tumorigenesis through two divergent pathways, and which may improve the design of more rational therapeutic agents.
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PMID:Advances in the molecular genetics of endometrial cancer (Review). 1052 15


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