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)

The potentially carcinogenic effect of therapeutic irradiation has been recognized for many years. Second malignancies, usually sarcomas, are known to arise within or at the edge of radiation fields after a period of several years after the initial radiation exposure. We analyzed tumor cells derived from seven radiation-induced tumors for abnormalities in tumor suppressor genes p53 and retinoblastoma at the DNA sequence and/or protein level. p53 mutations were detected by exon-specific polymerase chain reaction amplification and single-strand conformation polymorphism analysis of exons 5-8 followed by direct genomic sequencing of those tumors exhibiting a variant pattern. The p53 gene was abnormal in three of six sarcomas studied. Retinoblastoma gene analysis was performed by Western immunoblot; retinoblastoma protein was under-phosphorylated in three of seven tumors and absent in one other. In all, six of seven radiation-induced human tumors have abnormalities of one or both suppressor genes. Inactivation of tumor suppressor genes by ionizing radiation may contribute to radiation carcinogenesis.
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PMID:p53 gene mutations and abnormal retinoblastoma protein in radiation-induced human sarcomas. 193 4

Radiation carcinogenesis almost certainly involves multiple genetic alterations. Identification of such genetic alterations would provide information to help understand better the molecular mechanism of radiation carcinogenesis. The energy released by ionizing radiation has the potential to produce DNA strand breaks, major gene deletions or rearrangements, and other base damages. Alterations of the p53 gene, a common tumour suppressor gene altered in human cancers, were examined in radiation-induced rat skin cancers. Genomic DNA from a total of 33 rat skin cancers induced by ionizing radiation was examined by Southern blot hybridization for abnormal restriction fragment patterns in the p53 gene. An abnormal p53 restriction pattern was found in one of 16 cancers induced by electron radiation and in one of nine cancers induced by neon ions. The genomic DNA from representative cancers, including the two with an abnormal restriction pattern, was further examined by polymerase chain reaction amplification and direct sequencing in exons 5-8 of the p53 gene. The results showed that one restriction fragment length polymorphism (RFLP)-positive cancer induced by electron radiation had a partial gene deletion which was defined approximately between exons 2-8, while none of the other cancers showed sequence changes. Our results indicate that the alterations in the critical binding region of the p53 gene are infrequent in rat skin cancers induced by either electron or neon ion radiation.
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PMID:Infrequent alterations of the p53 gene in rat skin cancers induced by ionizing radiation. 862 3

Gadd45a-null mice generated by gene targeting exhibited several of the phenotypes characteristic of p53-deficient mice, including genomic instability, increased radiation carcinogenesis and a low frequency of exencephaly. Genomic instability was exemplified by aneuploidy, chromosome aberrations, gene amplification and centrosome amplification, and was accompanied by abnormalities in mitosis, cytokinesis and growth control. Unequal segregation of chromosomes due to multiple spindle poles during mitosis occurred in several Gadd45a -/- cell lineages and may contribute to the aneuploidy. Our results indicate that Gadd45a is one component of the p53 pathway that contributes to the maintenance of genomic stability.
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PMID:Genomic instability in Gadd45a-deficient mice. 1050 13

Research on radiation carcinogenesis during the past 2 decades has focused on cellular and molecular mechanisms for the effects of radiation in mammalian cells. This paper will review several of these areas of research, as they may relate specifically to the induction of cancer by ionizing radiation. Knowledge of the critical DNA damage of biologic importance, and how this damage is repaired, will be discussed in relation to its role in the induction of mutations by radiation. The search for the initiating event in radiation carcinogenesis, as well as other genetic events that may be involved, is discussed in terms of the possible role of the activation of oncogenes or tumor suppressor genes and the loss of cell-cycle checkpoints. Finally, evidence will be described indicating that important genetic consequences of radiation may arise in cells that in themselves receive no direct nuclear irradiation. It has been shown that radiation can, by itself, induce a type of genomic instability in cells, which enhances the rate at which mutations and other genetic changes arise in the descendants of the irradiated cell after many generations of replication. Preliminary evidence has been presented that irradiation targeted to the cytoplasm yields a significant increase in the frequency of mutations. Finally, genetic events including the induction of mutations and changes in gene expression may occur in neighboring cells that receive no direct radiation exposure at all. This 'bystander effect' involves gap junction mediated cell-cell communication, and activation of the p53 damage response pathway. The possible role of these phenomena in radiation carcinogenesis is discussed.
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PMID:Radiation carcinogenesis. 1068 60

An understanding of the radiobiological effects of high LET radiation is essential for human risk estimation and radiation protection. In the present study, we show that a single, 30 cGy dose of 150 keV/micrometer 4He ions can malignantly transform human papillomavirus immortalized human bronchial epithelial [BEP2D] cells. Transformed cells produce progressively growing tumors in nude mice. The transformation frequency by the single dose of alpha particles is estimated to be approximately 4 X 10(-7). Based on the average cross-sectional area of BEP2D cells, it can be calculated that a mean traversal of 1.4 particles per cell is sufficient to induce tumorigenic conversion of these cells 3 to 4 months post-irradiation. Tumorigenic BEP2D cells overexpress mutated p53 tumor suppressor oncoproteins in addition to the cell cycle control gene cyclin D1 and D2. This model provides an opportunity to study the cellular and molecular changes at the various stages in radiation carcinogenesis involving human cells.
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PMID:Cellular and molecular alterations in human epithelial cells transformed by high LET radiation. 1153 54

Cancer induction by space radiations is a major concern for manned space exploration. Accurate assessment of radiation risk at low doses requires basic understanding of mechanism(s) of radiation carcinogenesis. For determining the oncogenic effects of ionizing radiation in human epithelial cells, we transformed a mammary epithelial cell line (185B5), which was immortalized by benzo(a)pyrene, with energetic heavy ions and obtained several transformed clones. These transformed cells showed growth properties on Matrigel similar to human mammary tumor cells. To better understand the mechanisms of radiogenic transformation of human cells, we systematically examined the alterations in chromosomes and cancer genes. Among 16 autosomes examined for translocations, by using fluorescence in situ hybridization (FISH) technique, chromosomes 3, 12, 13, 15, 16, and 18 appeared to be normal in transformed cells. Chromosomes 1, 4, 6, 8, and 17 in transformed cells, however, showed patterns different from those in nontransformed cells. Southern blot analyses indicated no detectable alterations in myc, ras, Rb, or p53 genes. Further studies of chromosome 17 by using in situ hybridization with unique sequence p53 gene probe and a centromere probe showed no loss of p53 gene in transformed cells. Experimental results from cell fusion studies indicated that the transforming gene(s) is recessive. The role of genomic instability and tumor suppressor gene(s) in radiogenic transformation of human breast cells remains to be identified.
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PMID:Radiogenic transformation of human mammary epithelial cells in vitro. 1154 9

Epidemiological data collected after the atomic-bomb blasts of Hiroshima and Nagasaki have established a link between radiation exposure and human cancer development and are the major source of information for current radiation-induced cancer risk assessment. To determine the mechanistic basis for radiation carcinogenesis, retrospective molecular analyses of archival hepatocellular carcinoma tissues from the atomic-bomb survivors were conducted. The tumor suppressor genes p53 and M6P/IGF2r were examined. HCC cases had either p53 mutations or M6P/IGF2r mutations, but rarely both. Moreover, the frequency of cases with M6P/ IGF2r mutations actually decreased with dose, while those for p53 increased. This implies two independent selection processes leading to liver cancer and that in radiation-induced HCC tumors the spectrum of molecular changes is different from that in "background" tumors.
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PMID:Tracking the errant cell after the atomic bombings: what went wrong? 1285 74

Although epidemiological studies have suggested a positive correlation between environmental radon exposure and prostate cancer, the mechanism involved is not clear. In the present study, we examined the oncogenic transforming potency of alpha-particles using non-tumorigenic, telomerase-immortalized human benign prostate epithelial cells. We report the malignant transformation of human benign prostate epithelial cells after a single exposure to 0.6 Gy dose of alpha-particles. Transformed cells showed anchorage-independent growth in soft agar and induced progressively growing tumors when transplanted into SCID mice. The tumors were characterized histologically as poorly differentiated adenocarcinomas. The cell line derived from tumor (SCID 5015), like the unirradiated cells, expressed cytokeratin 5, 8 and 18, NKX3.1 and AMACR. The malignant cells showed increased secretion of MMP2. Stepwise chromosomal changes in the progression to tumorigenicity were observed. Chromosome abnormalities were identified in both irradiated and tumorigenic cells relative to the non-irradiated control cells. Prominent changes in chromosomes 6, 11 and 16, as well as mutations and deletions of the p53 gene were observed in the tumor outgrowth and tumor cells. These findings provide the first evidence of malignant transformation of human benign prostate epithelial cells exposed to a single dose of alpha-particles. This model provides an opportunity to study the cellular and molecular alterations that occur in radiation carcinogenesis in human prostate cells.
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PMID:Malignant transformation of human benign prostate epithelial cells by high linear energy transfer alpha-particles. 1767 80

Poly(ADP-ribose) polymerases (PARP) is enzyme family repairing single or double DNA strand breaks induced by different alkylating agents, ionizing- or UV-irradiation as well as by oxidative stress. Poly(ADP-ribose) polymerase-1 (PARP-1) is the most studied enzyme involved in a number of pathways including DNA replication and repair, recombination, gene transcription, cell proliferation and death. A positive correlation between the PARP-activity and the life span of different mammalians has been detected. PARP inhibition in vitro with inhibitors of PARP activity (3-aminobenzamide, nicotinamide, picolinamide e.t.c.) in cells from wild type or PARP-1(-/-) mice was followed by high genomic instability (i.e. aneuploidy, gene amplifications and deletions, micronuclei formation, sister chromatic exchange, cell ploidy and centrosome number increase) and increased sensitivity to mutagens. Life span reduction, latency period of spontaneous tumors development shortening and the increase in susceptibility to carcinogens have been observed in PARP-knockout mice. Treatment with PARP inhibitors stimulated chemical and radiation carcinogenesis in animals. The PARP-1(-/-) mice being additionally disrupted in WRN, p53, DNA-PKcs or Ku80 genes the promotion of spontaneous carcinogenesis was observed as compared with a single gene-disrupted mice. Available data suggest a significant role of PARP in maintenance of genomic stability, preventing of aging and carcinogenesis.
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PMID:[Poly(ADP-ribosa)polymerase--the relationships with life span and carcinogenesis]. 1830 94

The first target of radiation carcinogenesis is thought to be DNA. However, this has not been demonstrated for radiation carcinogenesis. We found that the frequency of aneuploid cells was closely related to that of radiation-induced cell transformation and natural cell transformation by high-density cultivation, but the frequency of gene mutations was not. Cells containing a functional p53 gene become tetraploid, but do not exhibit tumorigenicity. In contrast, cells without a functional p53 gene readily become triploid and acquire tumorigenicity. Both radiation exposure and high-density cultivation elevated the level of intracellular oxidative radicals. One of these radicals, such as long-lived radical, induced centrosome destabilization and produced cells carrying extra centrosomes, which together promote merotelic attachment of the chromosome by altering spindle geometry. Unresolved merotelic attachments can give rise to lagging chromosomes during anaphase. Aneuploidy was observed at high frequency in the early stages of cell transformation. These results strongly suggest that the main target in carcinogenesis induced by low-dose radiation is not DNA, but is rather the centrosomes, which are proteins involved in the chromosomal homeostasis maintenance mechanism. In addition, the route of radiation carcinogenesis may be the same as that of natural carcinogenesis.
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PMID:[The Main Target of Carcinogenesis Is Not DNA]. 2680 97


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