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

---

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

In a molecular epidemiological study of DNA repair, host reactivation assay was used to measure the DNA repair capacity of cryopreserved lymphocytes from 88 primary basal cell carcinoma (BCC) patients and 135 cancer-free controls. In this study population, reduced repair of ultraviolet radiation-induced DNA damage contributed to the risk of sunlight-induced BCC. A family history of BCC is associated with low DNA repair. Repair of ultraviolet radiation-damaged DNA declines at a rate of approximately 1%/year in noncancerous controls. Reduced DNA repair is more likely seen in young BCC patients, indicating that BCC is a premature aging disease of the skin. The persistence of photochemical damage because of reduced repair results in point mutations in the p53 gene and allelic loss of the nevoid BCC gene located on chromosome 9q. Xeroderma pigmentosum appears to be a valid paradigm for the role of DNA repair in BCC in the general population.
...
PMID:DNA repair and epidemiology of basal cell carcinoma. 749 45

Werner's syndrome (WS) is a human segmental progerioid disorder with an autosomal recessive pattern of inheritance. Patients with WS exhibit a number of symptoms resembling a premature aging phenotype. We have examined the fine structure of the DNA repair of UV-induced cyclobutane pyrimidine dimers in Epstein-Barr virus (EBV)-transformed WS lymphoblastoid cell lines and in a primary WS fibroblast cell line. The repair was measured at the level of the gene and also in the general genome. Gene-specific and strand-specific DNA repair was measured in the actively transcribed genes dihydrofolate reductase (DHFR), c-myc, and p53, and in the transcriptionally inactive regions, delta globin and the X-linked 754 domain. Both gene-specific repair and strand-specific repair were deficient in the transformed WS lymphoblastoid cell lines compared to normal controls. In normal cells, repair in the transcribed strand was 25 (4 h), 43 (8 h), and 72% (24 h); in the WS cells on average, repair in the transcribed strand was 18 (4 h), 27 (8 h), and 44% (24 h). However, in the primary WS fibroblast cell line, we found a pattern of preferential gene repair which was similar to that in normal human cells. In contrast to cells from patients with the gene-specific repair deficient disease Cockayne's syndrome, which show greatly delayed RNA synthesis recovery after UV irradiation, the WS cells had normal recovery of RNA synthesis. The DNA repair results differ for the different cell types, and our findings thus do not establish a general DNA repair phenotype for WS cells. The fibroblasts had proficient repair, but in the WS lymphoblasts we find a deficiency in DNA repair which could contribute to the reported hypermutability in these cells. The lymphoblasts are, however, transformed cells, and it raises the concern that biological findings in transformed cells may not reflect the situation in primary cells.
...
PMID:DNA repair fine structure in Werner's syndrome cell lines. 861 4

The following conclusions are derived from an epidemiological study. Reduced repair of ultraviolet (UV)-induced DNA damage contributes directly to basal cell carcinoma (BCC) in individuals with prior sunlight overexposure. A family history of BCC is a predictor of low DNA repair. Repair of UV-damaged DNA declines at a fixed rate of approximately 1% per annum in noncancerous controls. The DNA repair differences between young BCC cases and their controls disappear as they age. Hence, BCC, in terms of DNA repair, is a premature aging disease. The persistence of photochemical damage because of reduced repair results in point mutations in the p53 gene and allelic loss of the nevoid BCC gene (Gorlin's syndrome) located on chromosome 9q. The fact that environmental vulnerability is gender oriented implicates hormones in regulating DNA repair. Xeroderma pigmentosum appears to be a valid paradigm for the role of DNA repair in BCC in the general population.
...
PMID:Epidemiology of ultraviolet-DNA repair capacity and human cancer. 925 82

The WRN DNA helicase is a member of the DExH-containing DNA helicase superfamily that includes XPB, XPD, and BLM. Mutations in WRN are found in patients with the premature aging and cancer susceptibility syndrome known as Werner syndrome (WS). p53 binds to the WRN protein in vivo and in vitro through its carboxyl terminus. WS fibroblasts have an attenuated p53- mediated apoptotic response, and this deficiency can be rescued by expression of wild-type WRN. These data support the hypothesis that p53 can induce apoptosis through the modulation of specific DExH-containing DNA helicases and may have implications for the cancer predisposition observed in WS patients.
...
PMID:p53-mediated apoptosis is attenuated in Werner syndrome cells. 1036 53

ATW8 was a unique opportunity to review the complex and growing field of ataxia-telangiectasia (A-T) research and to cross-fertilize ideas for new experimental designs. A-T biology now encompasses human and mouse neurology, neurobiology, immunology, radiobiology, cell signalling, cell cycle checkpoints, gametogenesis, and oncogenesis, as well as radiotherapy, cancer epidemiology, premature aging, cytogenetics, and DNA repair mechanisms. By an as yet undetermined mechanism, the ATM protein appears to sense double strand breaks (DSB) during meiosis or mitosis, or breaks consequent to the damage of free radicals which are generated during the metabolism of food. As a protein kinase, ATM then directly phosphorylates p53 and interacts with many other molecules involved in homologous and nonhomologous DSB repair, as well as in cell signalling. Some of these molecule targets include: c-abl, ATR, chk-1, chk-2, RPA, BRCA1, BRCA2, NFkappaB/IkappaB alpha, beta-adaptin, and perhaps ATM itself. Thus, ATM is a "hierarchical kinase," initiating many pathways simultaneously. Parallel sessions or longer meetings will clearly be necessary for future A-T workshops.
...
PMID:Eighth International Workshop on Ataxia-Telangiectasia (ATW8). 1044 4

Werner's syndrome is a human autosomal recessive disorder leading to premature aging. The mutations responsible for this disorder have recently been localized to a gene (WRN) encoding a protein that possesses DNA helicase and exonuclease activities. Patients carrying WRN gene mutations exhibit an elevated rate of cancer, accompanied by increased genomic instability. The latter features are also characteristic of the loss of function of p53, a tumor suppressor that is very frequently inactivated in human cancer. Moreover, changes in the activity of p53 have been implicated in the onset of cellular replicative senescence. We report here that the WRN protein can form a specific physical interaction with p53. This interaction involves the carboxyl-terminal part of WRN and the extreme carboxyl terminus of p53, a region that plays an important role in regulating the functional state of p53. A small fraction of WRN can be found in complex with endogenous p53 in nontransfected cells. Overexpression of WRN leads to augmented p53-dependent transcriptional activity and induction of p21(Waf1) protein expression. These findings support the existence of a cross-talk between WRN and p53, which may be important for maintaining genomic integrity and for preventing the accumulation of aberrations that can give rise to premature senescence and cancer.
...
PMID:Physical and functional interaction between p53 and the Werner's syndrome protein. 1050 9

Werner's syndrome (WS) is a human disease with manifestations resembling premature aging. The gene defective in WS, WRN, encodes a DNA helicase. Here, we describe the generation of mice bearing a mutation that eliminates expression of the C terminus of the helicase domain of the WRN protein. Mutant mice are born at the expected Mendelian frequency and do not show any overt histological signs of accelerated senescence. These mice are capable of living beyond 2 years of age. Cells from these animals do not show elevated susceptibility to the genotoxins camptothecin or 4-NQO. However, mutant fibroblasts senesce approximately one passage earlier than controls. Importantly, WRN(-/-);p53(-/-) mice show an increased mortality rate relative to WRN(+/-);p53(-/-) animals. We consider possible models for the synergy between p53 and WRN mutations for the determination of life span.
...
PMID:Mutations in the WRN gene in mice accelerate mortality in a p53-null background. 1075 12

Human aging is a complex process that leads to the gradual deterioration of body functions with time. Various models to approach the study of aging have been launched over the years such as the genetic analysis of life span in the yeast S. cerevisiae, the worm C. elegans, the fruitfly, and mouse, among others. In human models, there have been extensive efforts using replicative senescence, the study of centenerians, comparisons of young versus old at the organismal, cellular, and molecular levels, and the study of premature aging syndromes to understand the mechanisms leading to aging. One good model for studying human aging is a rare autosomal recessive disorder known as the Werner syndrome (WS), which is characterized by accelerated aging in vivo and in vitro. A genetic defect implicated in WS was mapped to the WRN locus. Mutations in this gene are believed to be associated, early in adulthood, with clinical symptoms normally found in old individuals. WRN functions as a DNA helicase, and recent evidence, summarized in this review, suggests specific biochemical roles for this multifaceted protein. The interaction of WRN protein with RPA (replication protein A) and p53 will undoubtedly direct efforts to further dissect the genetic pathway(s) in which WRN protein functions in DNA metabolism and will help to unravel its contribution to the human aging process.
...
PMID:The Werner syndrome. A model for the study of human aging. 1091 57

Poly(ADP-ribose) polymerase (PARP) is implicated in the maintenance of genomic integrity, given that inhibition or depletion of this enzyme increases genomic instability in cells exposed to genotoxic agents. We previously showed that immortalized fibroblasts derived from PARP(-/-) mice exhibit an unstable tetraploid population, and partial chromosomal gains and losses in PARP(-/-) mice and immortalized fibroblasts are accompanied by changes in the expression of p53, Rb, and c-Jun, as well as other proteins. A tetraploid population has also now been detected in primary fibroblasts derived from PARP(-/-) mice. Oligonucleotide microarray analysis was applied to characterize more comprehensively the differences in gene expression between asynchronously dividing primary fibroblasts derived from PARP(-/-) mice and their wild-type littermates. Of the 11,000 genes monitored, 91 differentially expressed genes were identified. The loss of PARP results in down-regulation of the expression of several genes involved in regulation of cell cycle progression or mitosis, DNA replication, or chromosomal processing or assembly. PARP deficiency also up-regulates genes that encode extracellular matrix or cytoskeletal proteins that are implicated in cancer initiation or progression or in normal or premature aging. These results provide insight into the mechanism by which PARP deficiency impairs mitotic function, thereby resulting in the genomic alterations and chromosomal abnormalities as well as in altered expression of genes that may contribute to genomic instability, cancer, and aging.
...
PMID:Misregulation of gene expression in primary fibroblasts lacking poly(ADP-ribose) polymerase. 1101 56

Ataxia-telangiectasia (AT) is an autosomally recessive human genetic disease with pleiotropic defects such as neurological degeneration, immunodeficiency, chromosomal instability, cancer susceptibility and premature aging. Cells derived from AT patients and ataxia-telangiectasia mutated (ATM)-deficient mice show slow growth in culture and premature senescence. ATM, which belongs to the PI3 kinase family along with DNA-PK, plays a major role in signaling the p53 response to DNA strand breaks. Telomere maintenance is perturbed in yeast strains lacking genes homologous to ATM and cells from patients with AT have short telomeres. We examined the length of individual telomeres in cells from ATM(-/-) mice by fluorescence in situ hybridization. Telomeres were extensively shortened in multiple tissues of ATM(-/-) mice. More than the expected number of telomere signals was observed in interphase nuclei of ATM(-/-) mouse fibroblasts. Signals corresponding to 5-25 kb of telomeric DNA that were not associated with chromosomes were also noticed in ATM(-/-) metaphase spreads. Extrachromosomal telomeric DNA was also detected in fibroblasts from AT patients and may represent fragmented telomeres or by-products of defective replication of telomeric DNA. These results suggest a role of ATM in telomere maintenance and replication, which may contribute to the poor growth of ATM(-/-) cells and increased tumor incidence in both AT patients and ATM(-/-) mice.
...
PMID:Extra-chromosomal telomeric DNA in cells from Atm(-/-) mice and patients with ataxia-telangiectasia. 1118 76


1 2 3 4 5 6 7 8 9 10 Next >>

---