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)

The invention of the polymerase chain reaction (PCR) has facilitated the development of a new class of assays to quantify human somatic mutations in vivo, based on genotypic selection of mutants at the DNA level rather than phenotypic selection of mutants at the cell level. Use of these assays has provided new perspectives on the timing, location and distribution of somatic mutagenesis in mitochondrial genes and in oncogenes of the aging human body. This descriptive information has led to the inference and development of new models for age-related pathophysiology and oncogenesis. Mutations of mitochondrial genes rise rapidly with age to frequencies a thousand fold higher than those of nuclear genes. Genotypic selection analysis has revealed that mitochondrial mutations accumulate predominantly in non-mitotic cells whose age-dependent loss is associated with pathology. Random mitochondrial mutation is most likely to inactive Complex I, a deficiency of which induces mitochondrial superoxide formation and cell death. Genotypic selection of oncogenic mutations at the BCL2 and p53 loci has revealed that the cell specificity of oncogenic mutations in persons without cancer correlates well with sites of tumor origin, indicating that cells bearing such mutations are the likely precursors of future tumors. Quantitative variation in human BCL2 mutation frequency is extensive, and BCL2 mutation frequency rises with age, concordant with increased risk for lymphoma. The clonality and persistence of BCL2 mutations suggests two specific testable mechanisms of lymphomagenesis. BCL2 mutation frequency rises in persons exposed to cigarette smoke, and more p53 mutations occur in skin exposed to sunlight than in unexposed skin. Thus, in addition to their likely relevance to future cancer risk, the dose-response relationship between exposure and oncogenic mutations indicates promise for their future use as in vivo biodosimeters of human exposure to carcinogens.
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PMID:Genotypic selection of mitochondrial and oncogenic mutations in human tissue suggests mechanisms of age-related pathophysiology. 756 70

The BCL2 gene is the most representative member of a family of genes that control cell homeostatic processes in the course of the developmental and adult life. Some members of the BCL2 family (bcl-2 alpha, bcl-xL) inhibit apoptosis, whereas some other (Bax, Bclxs) induce it. The biological activity of these proteins is dictated by: 1) their capacity to be integrated in specific membranes of the cytoplasm; 2) their ability to homo- or hetero-dimerize, due to the presence of two highly conserved domains which are a signature of this gene family. The bcl-2 protein exhibits two main biochemical properties: it acts in an antioxidant metabolic pathway aimed at eliminating oxygene free radicals that induce lesions in DNA, lipids and proteins; it modulates intracellular Ca++ fluxes. BCL2 (and presumably its congeners) interplay with other genes involved in the tight control of cell proliferation and programmed cell death (c-myc, p53). A more comprehensive view of BCL2 functions should benefit to cancer chemotherapy by improving rational approach of the antitumor drug mechanisms.
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PMID:[The BCL2 gene, prototype of a gene family that controls programmed cell death (apoptosis)]. 784 93

The BCL2 gene product has been demonstrated to prevent apoptosis and provide a selective growth advantage to many cell types. We report an unexpected effect of bcl2 expression on the in vitro growth of several solid tumor cell lines. Expression of bcl2 in these cell lines resulted in growth inhibition similar to that seen with p53. In contrast, a COOH-terminal deletion mutant of bcl2 was unable to suppress growth. Thus, the bcl2 protein may exert distinct biological effects in different cell types.
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PMID:Paradoxical inhibition of solid tumor cell growth by bcl2. 803 89

The interferon-inducible protein kinase (PKR) is activated by an RNA-dependent autophosphorylation. Structure-function studies of the 551 amino acid PKR kinase from human cells have revealed that catalytic-deficient PKR mutants such as PKR(1-551)K296R display a dominant negative behavior when expressed in transfected cells. The potential for PKR to form protein multimers has therefore been examined. Three types of studies, including both genetic and biochemical analyses, demonstrated that PKR from human cells undergoes an intermolecular association that is not dependent upon RNA. First, the intermolecular association of PKR in vitro was demonstrated in the context of an enzyme-substrate interaction. Purified recombinant histidine-tagged PKR(1-551)K296R mutant protein was phosphorylated by purified wild-type PKR; this intermolecular phosphorylation of PKR was dependent on double-stranded RNA. At a fixed RNA concentration, high concentrations of the HIS-PKR(1-551)K296R mutant both impaired the autophosphorylation of wild-type PKR and blocked the trans-phosphorylation of itself. Second, the yeast two-hybrid system was used to probe the intermolecular association of PKR in vivo. Coexpression of the full-length catalytic-deficient phosphotransfer mutant PKR(1-551)K296R as a fusion protein with the Gal4 activation domain and the Gal4 DNA binding domain resulted in the expression of two Gal4-responsive reporter genes, HIS3 and lacZ. The full-length RNA-binding deficient PKR(1-551)K64E/K296R double mutant also interacted with PKR(1-551)K296R sufficiently to activate Gal4-responsive reporter genes; however, other PKR mutants including PKR(1-280)wt and PKR(281-551)K296R as well as p53, RAS, and BCL2 did not. Third, both PKR(1-551)K296R and PKR(1-551)K64E/K296R enhanced the expression of the reovirus S1 gene and S1/S4 chimeric gene in cotransfected COS cells. By contrast, the expression of the reovirus S4 gene was not enhanced by cotransfection with either PKR(1-551)K296R or PKR(1-551)K64E/K296R. These results indicate that PKR interacts with itself in an intermolecular manner both in vivo and in vitro, and that RNA binding is neither necessary nor sufficient for PKR multimerization.
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PMID:Mechanism of interferon action. Biochemical and genetic evidence for the intermolecular association of the RNA-dependent protein kinase PKR from human cells. 855 84

The development of a new class of assays to determine in vivo mutation frequencies has provided new perspectives on the timing, location, and distribution of somatic mutagenesis in mitochondrial genes and in oncogenes of the aging human body. This descriptive information has led to the inference of new models for age-related pathophysiology and oncogenesis. Mutations of mitochondrial genes rise rapidly with age to frequencies a thousand-fold higher than those of nuclear genes. Genotypic selection analysis has revealed that mitochondrial mutations accumulate predominantly in nonmitotic cells whose age-dependent loss is associated with pathology. Random mitochondrial mutation is most likely to inactivate Complex I, deficiency of which induces mitochondrial superoxide formation and cell death. Genotypic selection of oncogenic mutations at the BCL2 and p53 loci has revealed that the cell specificity of oncogenic mutations in persons without cancer correlates well with sites of tumor origin, indicating that cells bearing such mutations are the likely precursors of future tumors. Quantitative variation in human BCL2 mutation frequency is extensive, and BCL2 mutation frequency rises with age, concordant with increased risk for lymphoma. The clonality and persistence of BCL2 mutations suggests two specific testable mechanisms of lymphomagenesis. BCL2 mutation frequency rises in persons exposed to cigarette smoke, and more p53 mutations occur in skin exposed to sunlight than in unexposed skin. Thus, in addition to their likely relevance to future cancer risk, the dose-response relationship between exposure and oncogenic mutations indicates promise for their future use as in vivo biodosimeters of human exposure to carcinogens.
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PMID:Degeneration of human oncogenes and mitochondrial genes occurs in cells that exhibit age-related pathology. 870 95

Follicular lymphoma is a low grade malignant lymphoma. However, some follicular lymphomas undergo histological transformation into higher grade malignant lymphomas. We recently encountered a diffuse large cell lymphoma which seemed to have progressed from a follicular lymphoma and which finally transformed into a small non-cleaved lymphoma. Each stage of the histological transformation was accompanied by increasing clinical grades of malignancy. It was suspected that in our patient a follicular lymphoma initially developed due to rearrangement of the BCL2 gene, and then underwent histological transformation into a diffuse large cell lymphoma, which was associated with p53 mutation. Subsequent rearrangement of C-MYC promoted the histological transformation of this diffuse large cell lymphoma into a small non-cleaved lymphoma. Our findings indicate that p53 mutation and rearrangement of C-MYC are involved in the histological transformation of follicular lymphomas into more advanced lymphomas.
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PMID:Histological progression of follicular lymphoma associated with p53 mutation and rearrangement of the C-MYC gene. 881 Jan 34

We investigated mutations of the p53 tumor suppressor gene in B-cell lymphoid neoplasms with reference to oncogene rearrangements associated with specific chromosomal translocations. These included 15 patients with a BCL1/PRAD1 gene rearrangement and/or PRAD1 overexpression, 45 with a BCL2 rearrangement, 2 with a BCL3 rearrangement, 24 with a BCL6 rearrangement, and 6 with both BCL2 and BCL6 rearrangements. Thirty-six patients lacked detectable oncogene rearrangements. Genomic DNA was isolated from involved tissues or leukemic cells obtained at diagnosis and/or at relapse, and established cell lines. Polymerase chain reaction-mediated single-strand conformation polymorphism analysis and direct sequencing were performed to analyze abnormalities of the p53 gene. We detected p53 gene alterations in 18 of 128 patients, representing 21 of the total 151 materials analyzed. In the total of 66 patients with an oncogene rearrangement studied at diagnosis, only one had a mutation; however, 6 of 37 patients studied at relapse showed p53 mutations. Sequential analysis revealed that the p53 mutation was closely associated with transformation from follicular lymphoma to large cell lymphoma, exclusively in BCL2-positive lymphoma cases. Two of 13 mutations observed in oncogene rearrangement-positive cases and cell lines were transitions at CpG dinucleotides. In contrast, the relationship between p53 mutations and clinical behavior in oncogene rearrangement-negative cases was variable; 5 patients including one with indolent follicular lymphoma were positive for p53 mutation at initial presentation, and 2 of the 5 showed prolonged disease-free survival. Our findings suggest that p53 alteration exhibits diverse functions in the development and progression of B-cell tumors related to the presence or absence of oncogene rearrangement, and that chemotherapy-related influences may be involved in the occurrence of progression-associated p53 mutations.
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PMID:p53 mutation in B-cell lymphoid neoplasms with reference to oncogene rearrangements associated with chromosomal translocations. 887 55

The majority of low grade non-Hodgkin's follicular lymphoma undergo clinical progression to intermediate and high grade lymphoma, but the molecular mechanisms involved in this transformation are not yet well understood. In this article, we describe the case of a 66 year old man with follicular non-Hodgkin's lymphoma (NHL), in whom a centroblastic leukaemic transformation led to death in six months, despite a transient period of remission. At the time of transformation, cytogenetic analysis revealed the original coexistence of t(14;18)(q32;q21) and t(8;22)(q24;q11). These results were confirmed by fluorescent in situ hybridization, while molecular analysis showed a BCL2-JH rearrangement but failed to detect a c-myc rearrangement or any additional p53 mutation. Our observations would therefore suggest other mechanisms to be involved in the transformation of follicular NHL.
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PMID:Transformation of follicular lymphoma with both t(14;18) and t(8;22). 890 4

P53 is a tumor suppressor gene that has been implicated in the pathogenesis of a wide range of tumor types including colorectal cancers. bcl2 is a proto-oncogene that inhibits apoptosis. Immunostaining for P53 and BLC2 protein product was performed in a retrospective series of 80 colorectal carcinomas with a minimum follow-up of 5 years. The aim of the study was to evaluate the prognostic significance of P53 and BCL2 protein expression and their correlation with clinicopathologic variables such as pathologic disease stage (Dukes system), histologic grade, and vascular invasion. The patients were 41 to 76 years of age, and the follow-up ranged between 5 and 10 years. Among the 80 cases, 30 were Dukes stage A and 50 stage B. We found vascular invasion in 21.2%. P53 and BCL2 expression was detected, respectively, in 30.0% and 8.8%. We concluded that the P53 and BCL2 expression detected by immunohistochemistry in routinely processed, paraffin-embedded tissues: (1) has no prognostic significance; and (2) was not correlated with pathologic disease stage, histologic grade, or vascular invasion. Nevertheless, the number of patients in our study was small, and we believe that investigation of a larger series of patients is indicated.
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PMID:Prognostic markers for colorectal cancer: expression of P53 and BCL2. 899 81

When ML-1 human myeloid leukemia cells are exposed to DNA damaging agents, they exhibit dramatic changes in the expression of a variety of gene products. This includes an increase in p53 (wild-type), a decrease in BCL2, a p53-dependent increase in the BCL2 family member BAX, and increases in Growth Arrest and DNA Damage-inducible (GADD) genes such as GADD45; these changes occur as early events in a sequence that culminates in DNA damage-induced apoptosis. DNA damaging agents have now been tested for effects on expression of another BCL2 family member, MCL1, a gene expressed during ML-1 cell differentiation. Expression of MCL1 was found to increase upon exposure of ML-1 cells to various types of DNA damaging agents, including ionizing radiation, ultraviolet radiation, and alkylating drugs. The increase in MCL1 occurred rapidly and was transient, levels of the MCL1 mRNA being elevated within 4 h and having returned to near baseline within 24 h. An increase in the Mcl1 protein was also seen, with the maximal increase occurring at an intermediate dose of IR (5 Gray) and lesser increases occurring at either lower or higher doses. The increase in expression of MCL1 was further studied using a panel of human cell lines that includes cells containing or not containing alterations in p53 as well as cells sensitive or insensitive to the apoptosis-inducing effects of DNA damage. The DNA damage-induced increase in MCL1 mRNA did not depend upon p53 as it was seen in cells lacking functional p53. However, the increase did depend upon susceptibility to apoptosis as it was not seen in cells insensitive to apoptosis-induction by DNA damaging agents. These findings demonstrate that cytotoxic DNA damage causes an increase in the expression of MCL1 along with increases in GADD45 and BAX and a decrease in BCL2. Furthermore, while the increase in GADD45 is seen both in cells that undergo growth arrest and in cells that undergo apoptosis in response to DNA damage, alterations in the profile of expression of BCL2 family members occur exclusively in cells that undergo the apoptotic response, with some family members increasing through p53-dependent (BAX) and others through p53-independent (MCL1) pathways. Overall, expression MCL1 can increase during the induction of cell death as well as during the induction of differentiation.
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PMID:Induction of BCL2 family member MCL1 as an early response to DNA damage. 907 Jun 51

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