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)

Tumors derived from a Li-Fraumeni syndrome cancer-susceptible family were examined for expression of the retinoblastoma susceptibility gene (RB). Whereas RB expression was normal in a primary breast carcinoma and its metastases from one member of this family, overexpression of RB was found in an adrenocortical carcinoma from another family member. This was in contrast to normal RB expression in normal tissue of this patient, the adrenocortical adenocarcinoma cell line SW-13, and the fibroblast cell line MRC-5, and low level RB expression in normal adrenal tissue. The overexpression in the adrenocortical carcinoma resulted in increased synthesis of the RB-encoded protein and did not appear to be associated with RB amplification or rearrangement. This result is novel as it is usually the loss of expression or production of an altered RB transcript exhibiting deletions that is associated with carcinogenesis. In light of the recent discovery of p53 point mutations in the affected Li-Fraumeni syndrome family members tested, RB overexpression may constitute a secondary event in Li-Fraumeni syndrome tumorigenesis.
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PMID:Overexpression of the retinoblastoma gene in a familial adrenocortical carcinoma. 175 10

Previous emphasis in cancer research has been placed on genes in which activating mutations are found in experimental systems and sometimes in human tumors, and many of these genes are the cellular homologs of retroviral oncogenes. Studies of genes whose functions are necessary for maintenance of the normal cellular state, but for which loss-of-function mutations lead to tumor development, are limited. The latter genes have been variously termed 'tumor suppressor genes', 'recessive oncogenes', and 'anti-oncogenes', and each term defines a specific aspect of their properties and may not always be applicable. The retinoblastoma (RB) gene is the first such gene to be identified, and was isolated based on its chromosome localization and on the recessive nature of the tumor phenotype. That is, both wild type RB alleles must be inactivated in a single cell for neoplastic transformation to occur, and deletions at the chromosomal locus now known to contain RB are often found in retinoblastoma cells. Candidate genes for Wilms' tumor and neurofibromatosis type I have also been identified recently, and loss of function of these genes seems to be indicated for these diseases. Allelic loss of chromosome 17p13 is frequently observed in many tumor types. The p53 gene was mapped to this chromosomal region and has been shown to be a tumor suppressor gene, and germ-line mutations of p53 recently were found to be correlated with Li-Fraumeni syndrome, a syndrome characterized by multiple neoplasms. Rapid progress in studies of tumor suppressor genes points to diverse mechanisms for their functioning in the negative regulation of cell growth. A scenario depicting cell growth control by positive and negative regulators, based on new and emerging findings, is the main focus of this review.
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PMID:Tumor suppressor genes: a new era for molecular genetic studies of cancer. 175 64

We have compared the expression of the retinoblastoma (Rb) and p53 genes in normal human fibroblasts, colon carcinoma cell lines, matched pairs of colorectal tumor tissues and adjacent normal mucosa and in synchronized human diploid fibroblast cell line WI38. The increased expression of Rb and p53 RNA was observed in a majority of colorectal cancers in comparison to adjacent normal mucosa and is accompanied by proportional increase in the expression of histone H3 gene. The Rb and p53 RNA levels varied significantly between the various colon carcinoma cell lines. However, we found that the expression of Rb and p53 RNA is regulated differently in cell cycle synchronized normal human fibroblasts. The Rb mRNA level did not change with the position in the cell cycle and did not differ significantly whether the cells were serum deprived or in 10% serum. But p53 mRNA expression follows the same pattern as histone H3 mRNA.
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PMID:Comparative study of the expression of Rb and p53 genes in human colorectal cancers, colon carcinoma cell lines and synchronized human fibroblasts. 178 74

Transforming growth factor beta 1 (TGF beta 1) is the prototype of a large family of polypeptides involved in growth control, extracellular matrix production, and development. The TGF beta s have marked stimulatory effects on connective tissue formation. They are chemotactic for fibroblasts, indirect mitogens for certain mesenchymal cells and stimulators of extracellular matrix deposition. The TGF beta s are also potent inhibitors of proliferation of most cell types in culture, and in vivo studies have indicated that the predominant effect of TGF beta 1 on cell proliferation is inhibition. We have investigated the mechanism of TGF beta 1 inhibition of skin keratinocyte growth. Earlier studies demonstrated that TGF beta 1 inhibition of keratinocyte proliferation involves suppression of c-myc transcription, and indirect evidence suggested that the product of the retinoblastoma tumor susceptibility gene, pRB, may be involved in this process. More recently, we have shown that transient expression of pRB in skin keratinocytes can repress human c-myc promoter/CAT transcription as effectively as TGF beta 1. The same c-myc promoter region, termed the TGF beta control element (TCE), was required for regulation by both TGF beta 1 and pRB. Oligonucleotides containing the TCE bound to several nuclear factors in mobility shift assays and a cellular protein of approximately 106 kD in Southwestern assays. Binding of these factors could be demonstrated in cells with or without normal pRB, and the binding of some factors was rapidly inhibited by TGF beta 1 treatment of TGF beta-sensitive but not TGF beta-insensitive cells. These data indicate that pRB can function to inhibit c-myc transcription and suggest the involvement of cellular factor(s) in addition to pRB in the TGF beta 1 pathway for suppression of c-myc transcription. Studies with other cell types have shown that another tumor suppressor gene, p53, can also regulate transcription of c-myc in transient assays. Whereas wild type p53 markedly suppressed transcription, four different mutant p53 clones caused transactivation. The data support the hypothesis that pRB and p53 can both cause growth inhibition by blocking the expression of the protooncogene, c-myc, and indicate that tumor suppressor genes may function in the response pathway for diffusible negative growth regulators such as TGF beta.
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PMID:TGF beta regulation of epithelial cell proliferation: role of tumor suppressor genes. 184 40

It has been well established that sometimes cancer clusters within specific families. This has suggested the possibility that some of those families might carry genetic defects which provide susceptibility to specific cancers. Retinoblastoma, an embryonal tumor of the eye represents an extreme example of a tumor which has a dramatic genetic component. Several studies have shown that inactivation at the retinoblastoma gene is probably both necessary and sufficient to initiate retinoblastoma formation. Patients who survive the inherited form of the disease are at risk of developing mesenchymal tumors, melanoma and brain tumors in as high as 10% of the patients before they are 40 years old. Because the product of the retinoblastoma gene, p105Rb, is expressed in all cell types, the obvious question is what accounts for these tissue specific differences in the role of p105Rb. Small cell lung carcinomas virtually all have associated mutations in the Rb gene and yet those tumors do not occur at a significantly increased frequency in patients with the hereditary form of retinoblastoma. In order to identify genes which might predispose to some of the more common adult malignancies, we have focused on one form of hereditary breast cancer. We chose a rare form of hereditary breast cancer which occurs in families with sarcomas (Li-Fraumeni Syndrome). By use of the candidate gene approach we tested which germ line p53 mutations were found in affected family members with Li-Fraumeni Syndrome (LFS). We have found that virtually all of the families with LFS have germ line p53 mutations, and that these tumors have undergone inactivation of the remaining wild-type p53 allele. In order to investigate the role of germ line p53 mutations outside of these rare families, we have begun to investigate other high risk groups. These results indicate that de novo germ line p53 mutations certainly occur in these high risk groups. These findings along with the recognition of the germ line p53 mutations in families with LFS provide clues about the importance of uncovering hidden susceptibilities from germ line tumor suppressor genes not only for the care of patients, but also for understanding the primary events that normally regulate the growth of cells in various tissue.
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PMID:Cancer risks from germ line tumor suppressor gene mutations. 184 52

Human papillomavirus are strictly epitheliotropic and host-specific. Currently, 57 different types based on deoxyribonucleic acid sequence rather than serology have been identified. Some papillomavirus types infect the skin, while others infect the oral or genital mucous membranes. Human Papillomavirus type 16 is often associated with invasive carcinomas of the uterine cervix and of their intra-epithelial precursors. Recent data on viral pathogenesis suggest that the protein encoded by the E7 gene of human papillomavirus type 16 is able to bind to the retinoblastoma and p53 gene products. If various techniques for the detection of human papillomavirus may be used (cytology, electron microscopy and immunocytochemistry), as will become apparent, nucleic acid hybridization is the most reliable method for viral diagnosis and genotyping.
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PMID:[Virologic diagnosis of papillomavirus infections]. 184 48

T antigen is able to transactivate gene expression from the simian virus 40 (SV40) late promoter and from several other viral and cellular promoters. Neither the mechanisms of transactivation by T antigen nor the regions of T antigen required for this activity have been determined. To address the latter point, we have measured the ability of a set of SV40 large T antigen mutants to stimulate gene expression in CV-1 monkey kidney cells from the SV40 late promoter and Rous sarcoma virus (RSV) long terminal repeat (LTR) promoter. Transactivation, although reduced, was retained by an N-terminal 138-amino-acid fragment of T antigen. Mutants with alterations at various locations within the N-terminal 85 amino acids transactivated the RSV LTR promoter less well than did wild-type T antigen. Most of these were also partially defective in their ability to transactivate the SV40 late promoter. Two mutants with lesions in the DNA-binding domain that were unable to bind to SV40 DNA were completely defective for transactivation of both promoter, while a third mutant with a lesion in the DNA-binding domain which retained origin-binding activity transactivated both promoters as well as did wild-type T antigen. Only a low level of transactivation was seen with mutant T antigens which had lesions in or near the zinc finger region (amino acids 300 to 350). Mutations which caused defects in ATPase activity, host range/helper function, binding to p53, binding to the retinoblastoma susceptibility protein, or nuclear localization had little or no effect on transactivation. These results suggest that N-terminal portion of T antigen possesses an activation activity. The data are consistent with the idea that the overall conformation of T antigen is important for transactivation and that mutations in other regions that reduce or eliminate transactivation do so by altering the conformation or orientation of the N-terminal region so that its ability to interact with various targets is diminished or abolished.
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PMID:Mapping the transcriptional transactivation function of simian virus 40 large T antigen. 185 53

Transformation and immortalization of human diploid fibroblasts by simian virus 40 (SV40) is at least a two-stage process, since transformants have a limited lifespan in culture. We have isolated immortalized derivatives (AR5 and HAL) from transformants generated with an origin-defective SV40 genome encoding a heat-labile large T protein (T antigen) and reported that both preimmortal and immortal transformants are continuously dependent on T antigen function for growth as determined by temperature shift experiments. In this study, we demonstrate complex formation between T antigen and the retinoblastoma susceptibility gene product (Rb) at 35 degrees C and observed a reduction in complexes under conditions of loss of T antigen function and growth inhibition at 39 degrees C. Viral oncogenes (polyomavirus large T protein and adenovirus E1A 12S protein) known to bind Rb were introduced into AR5 and HAL cells, both stably by gene transfer and transiently by virus vectors. Such double transformants are still unable to proliferate at 39 degrees C, although complex formation with the newly introduced oncogenes was demonstrated. We suggest that T antigen interacts with other cellular processes in addition to Rb to transform and immortalize human cells in culture. Our finding that p53-T antigen complexes are also temperature dependent in AR5 and HAL cells could provide such an additional mechanism.
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PMID:Retinoblastoma protein and simian virus 40-dependent immortalization of human fibroblasts. 185 57

We have activated resting human T lymphocytes to study the roles of the putative cell cycle control gene products, retinoblastoma susceptibility gene product (Rb) and p53, in regulating cell proliferation. After stimulation with phorbol, 12,13, dibutyrate and the calcium ionophore, ionomycin, which triggers a rapid entry of cells into G1 phase, we demonstrated Rb phosphorylation 24 h later, well before the onset of DNA synthesis. This finding, in contrast to reports using proliferating cell lines, implies that Rb phosphorylation is not a proximal event regulating the G1 to S transition. The production of p53 became detectable 3 to 6 h after addition of phorbol, 12,13,-dibutyrate and ionomycin, and peaked at 30 to 42 h. To further delineate the relationship of the synthesis and metabolism of the proteins to cell cycle progression, we used three agents to arrest progression of activated T cells at various points in the cell cycle. Aphidicolin arrested the cells at the G1/S boundary, whereas deferoxamine, an iron chelator, arrested the cells at an earlier stage of the cell cycle. Cyclosporin A blocked T cell activation at the earliest point in the cell cycle. In the presence of aphidicolin, Rb phosphorylation and p53 production proceeded normally whereas cyclosporin A inhibited both events. Although deferoxamine completely prevented Rb phosphorylation, p53 production was unaffected, suggesting a differential regulation of the two molecules. Our results place Rb phosphorylation and p53 production in the hierarchy of genetic events that are thought to regulate T lymphocyte progression through the cell cycle.
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PMID:Differential regulation of the tumor suppressor molecules, retinoblastoma susceptibility gene product (Rb) and p53, during cell cycle progression of normal human T cells. 190 3

Normal human diploid fibroblasts, TIG-1, which have a replicative life span of about 62 population doublings (PD), tended to senesce after about 50 PD with a gradual decrease in sensitivity to serum. Treatment of TIG-1 cells with the antisense-Rb oligomer, which completely depleted the retinoblastoma susceptibility gene product (RB), extended life span by about 10 PD. Treatment with the antisense-p53 oligomer alone had no effect; however, cotreatment with the antisense-Rb oligomer further potentiated the extension and the increased sensitivity to serum caused by the antisense-Rb oligomer alone, suggesting that p53 and RB function in separate, yet complementary pathways in signal transduction to senescence. The c-fos expression, which is presumed to be regulated negatively by RB, was not stimulated in partially senescent TIG-1 cells by treatment with the antisense-Rb oligomer.
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PMID:Cooperative effect of antisense-Rb and antisense-p53 oligomers on the extension of life span in human diploid fibroblasts, TIG-1. 190 21


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