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 related kinases ATM (ataxia-telangiectasia mutated) and ATR (ataxia-telangiectasia and Rad3-related) phosphorylate a limited number of downstream protein targets in response to DNA damage. Here we report a new pathway in which ATM kinase signals the DNA damage response by targeting the transcriptional cofactor Strap. ATM phosphorylates Strap at a serine residue, stabilizing nuclear Strap and facilitating formation of a stress-responsive co-activator complex. Strap activity enhances p53 acetylation, and augments the response to DNA damage. Strap remains localized in the cytoplasm in cells derived from ataxia telangiectasia individuals with defective ATM, as well as in cells expressing a Strap mutant that cannot be phosphorylated by ATM. Targeting Strap to the nucleus reinstates protein stabilization and activates the DNA damage response. These results indicate that the nuclear accumulation of Strap is a critical regulator in the damage response, and argue that this function can be assigned to ATM through the DNA damage-dependent phosphorylation of Strap.
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PMID:A new effector pathway links ATM kinase with the DNA damage response. 1544 95

The reactive metabolites of benzo[a]pyrene (B[a]P) and cyclopenta[c,d]pyrene (CPP) induced an accumulation/phosphorylation of p53 in Hepa1c1c7 cells, whereas inhibition of p53 reduced the apoptosis. Judged by the inhibiting effect of wortmannin, phosphatidyl-inositol-3 (PI-3) kinases such as DNA-dependent protein kinase (DNA-PK), ATM (ataxia-telangiectasia mutated), and/or ATR (ATM related kinase), appeared to be involved in the DNA damage recognition and the B[a]P-/CPP-induced accumulation of p53. B[a]P and CPP also induced phosphorylation of jun-N-terminal kinase (JNK) and p38 mitogen activated protein kinase (MAPK). While inhibition of JNK had no effects on the B[a]P-/CPP-induced apoptosis, inhibition of p38 MAPK activity reduced this effect. Interestingly, survival signals such as phosphorylation of Akt and Bad seemed to be induced by the B[a]P-/CPP-compounds. Furthermore, also extracellular signal-regulated kinase (ERK)1/2 was activated and seemed to function as a survival signal in B[a]P-/CPP-induced apoptosis.
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PMID:Role of cell signalling involved in induction of apoptosis by benzo[a]pyrene and cyclopenta[c,d]pyrene in Hepa1c1c7 cells. 1544 20

Mus musculus Pax2 transactivation domain-interacting protein (Ptip) is an essential gene required for the maintenance of genome stability, although its precise molecular role is unclear. Human PTIP (hPTIP) was recently isolated in a screen for proteins, translated from cDNA pools, capable of interacting with peptides phosphorylated by the ATM (ataxia telangiectasia-mutated)/ATR (ataxia telangiectasia-related) protein kinases. hPTIP was described as a 757-amino acid protein bearing four BRCT domains. Here we report that instead full-length endogenous hPTIP contains 1069 amino acids and six BRCT domains. hPTIP shows increased association with 53BP1 in response to ionizing radiation (IR) but not in response to other DNA-damaging agents. Whereas translocation of both 53BP1 and hPTIP to sites of IR-induced DNA damage occurs independently of ATM, IR-induced association of PTIP and 53BP1 requires ATM. Deletion analysis identified the domains of 53BP1 and hPTIP required for protein-protein interaction and focus formation. Data characterizing the cellular roles of hPTIP are also presented. Small interfering RNA was used to show that hPTIP is required for ATM-mediated phosphorylation of p53 at Ser(15) and for IR-induced up-regulation of the cyclin-dependent kinase inhibitor p21. Lowering hPTIP levels also increased cellular sensitivity to IR, suggesting that this protein plays a critical role in maintaining genome stability.
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PMID:Human PTIP facilitates ATM-mediated activation of p53 and promotes cellular resistance to ionizing radiation. 1545 59

Tumors expressing the ABL oncoproteins (BCR/ABL, TEL/ABL, v-ABL) can avoid apoptosis triggered by DNA damaging agents. The tumor suppressor protein p53 is an important activator of apoptosis in normal cells; conversely its functional loss may cause drug resistance. The ABL oncoprotein-p53 paradigm represents the relationship between an oncogenic tyrosine kinase and a tumor suppressor gene. Here we show that BCR/ABL oncoproteins employ p53 to induce resistance to DNA damage in myeloid leukemia cells. Cells transformed by the ABL oncoproteins displayed accumulation of p53 upon DNA damage. In contrast, only a modest increase of p53 expression followed by activation of caspase-3 were detected in normal cells expressing endogenous c-ABL. Phosphatidylinositol-3 kinase-like protein kinases (ATR and also ATM) -dependent phosphorylation of p53-Ser15 residue was associated with the accumulation of p53, and stimulation of p21(Waf-1) and GADD45, resulting in G(2)/M delay in BCR/ABL cells after genotoxic treatment. Inhibition of p53 by siRNA or by the temperature-sensitive mutation reduced G(2)/M accumulation and drug resistance of BCR/ABL cells. In conclusion, accumulation of the p53 protein contributed to prolonged G(2)/M checkpoint activation and drug resistance in myeloid cells expressing the BCR/ABL oncoproteins.
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PMID:BCR/ABL recruits p53 tumor suppressor protein to induce drug resistance. 1549 10

Abundant CDK2/cyclin A activity is present in human cancer cells, suggesting that rapid S phase CDK2 inhibition would be an effective anti-cancer approach. The dynamic change of chromatin-loading and -dissociation of MCM proteins requires S phase CDK2 activity. CDK2 inhibition during replication leads to increased MCM complex association with DNA and triggers rereplication. Overreplication-induced DSB and RPA-ssDNA intermediates activate ATM and ATR, resulting in a p53 response which selectively deletes cells with unresolved rereplication.
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PMID:A model for CDK2 in maintaining genomic stability. 1549 12

The ataxia telangiectasia mutated (ATM) and ATR (ATM and Rad3-related) protein kinases exert cell cycle delay, in part, by phosphorylating Checkpoint kinase (Chk) 1, Chk2, and p53. It is well established that ATR is activated following UV light-induced DNA damage such as pyrimidine dimers and the 6-(1,2)-dihydro-2-oxo-4-pyrimidinyl-5-methyl-2,4-(1H,3H)-pyrimidinediones, whereas ATM is activated in response to double strand DNA breaks. Here we clarify the activation of these kinases in cells exposed to IR, UV, and hyperoxia, a condition of chronic oxidative stress resulting in clastogenic DNA damage. Phosphorylation on Chk1(Ser-345), Chk2(Thr-68), and p53(Ser-15) following oxidative damage by IR involved both ATM and ATR. In response to ultraviolet radiation-induced stalled replication forks, phosphorylation on Chk1 and p53 required ATR, whereas Chk2 required ATM. Cells exposed to hyperoxia exhibited growth delay in G1, S, and G2 that was disrupted by wortmannin. Consistent with ATM or ATR activation, hyperoxia induced wortmannin-sensitive phosphorylation of Chk1, Chk2, and p53. By using ATM- and ATR-defective cells, phosphorylation on Chk1, Chk2, and p53 was found to be ATM-dependent, whereas ATR also contributed to Chk1 phosphorylation. These data reveal activated ATM and ATR exhibit selective substrate specificity in response to different genotoxic agents.
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PMID:Ataxia telangiectasia mutated (ATM) and ATM and Rad3-related protein exhibit selective target specificities in response to different forms of DNA damage. 1553 33

The BLM helicase, a deficiency that markedly increases cancer incidence in humans, is required for optimal repair during DNA replication. We show that BLM rapidly moves from PML nuclear bodies to damaged replication forks, returning to PML bodies several hours later, owing to activities of the DNA damage response kinases ATR and ATM, respectively. Immunofluorescence and cellular fractionation demonstrate that BLM partitions to different sub-cellular compartments after replication stress. Unexpectedly, fibroblasts lacking BLM were deficient in phospho-ATM (S-1981) and 53-binding protein-1 (53BP1), and these proteins failed to form foci following replication stress. Expression of a dominant p53 mutant or helicase-deficient BLM restored replication stress-induced 53BP1 foci, but only mutant p53 restored optimal ATM activation. Thus, optimal repair of damaged replication fork lesions likely requires both ATR and ATM. BLM recruits 53BP1 to these lesions independent of its helicase activity, and optimal activation of ATM requires both p53 and BLM helicase activities.
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PMID:ATR and ATM-dependent movement of BLM helicase during replication stress ensures optimal ATM activation and 53BP1 focus formation. 1553 48

Adeno-associated virus type 2 (AAV2) infection incites cells to arrest with 4N DNA content or die if the p53 pathway is defective. This arrest depends on AAV2 DNA, which is single stranded with inverted terminal repeats that serve as primers during viral DNA replication. Here, we show that AAV2 DNA triggers damage signaling that resembles the response to an aberrant cellular DNA replication fork. UV treatment of AAV2 enhances the G2 arrest by generating intrastrand DNA cross-links which persist in infected cells, disrupting viral DNA replication and maintaining the viral DNA in the single-stranded form. In cells, such DNA accumulates into nuclear foci with a signaling apparatus that involves DNA polymerase delta, ATR, TopBP1, RPA, and the Rad9/Rad1/Hus1 complex but not ATM or NBS1. Focus formation and damage signaling strictly depend on ATR and Chk1 functions. Activation of the Chk1 effector kinase leads to the virus-induced G2 arrest. AAV2 provides a novel way to study the cellular response to abnormal DNA replication without damaging cellular DNA. By using the AAV2 system, we show that in human cells activation of phosphorylation of Chk1 depends on TopBP1 and that it is a prerequisite for the appearance of DNA damage foci.
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PMID:Viral transport of DNA damage that mimics a stalled replication fork. 1559 49

A cell limits its DNA replication activity to once per cell division cycle to maintain its genomic integrity. Studies in a variety of organisms are elucidating how these controls are exercised. Key amongst these is the regulation of replication initiator proteins such as Cdt1. Cdt1 is present in cells in G1 phase where it is required for initiation of replication. Once origins have fired, Cdt1 is either exported out of the nucleus or degraded, thereby preventing another round of replication. Higher eukaryotes have evolved another redundant mechanism, an inhibitor called geminin, to restrain Cdt1 activity. Studies in multiple organisms have shown that unregulated Cdt1 activity stimulates overreplication of the genome. Interestingly, the same seems to be true when geminin is depleted. The imbalance in the activities of these proteins causes the activation of key checkpoint proteins, the ATM/ATR kinases and the tumor suppressor, p53. This review proposes that a balance between Cdt1 and geminin is important for maintaining genomic stability.
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PMID:Geminin-Cdt1 balance is critical for genetic stability. 1560 56

It has been established that telomere-dependent replicative senescence of human fibroblasts is stress-dependent. First, it was shown that telomere shortening, which is a major contributor to telomere uncapping, is stress-dependent to a significant degree. Second, the signalling pathway connecting telomere uncapping and replicative senescence appears to be the same as the one that is activated by DNA damage: uncapped telomeres activate signalling cascades involving the protein kinases ATM, ATR and, possibly, DNA-PK. Furthermore, phosphorylation of histone H2A.X facilitates the formation of DNA damage foci around uncapped telomeres, and this in turn activates downstream kinases Chk1 and Chk2 and, eventually, p53. It appears that this signalling pathway has to be maintained in order to keep cells in a senescent state. Thus, cellular senescence can be regarded as a permanently maintained DNA damage response state. This suggests that antibodies against DNA damage foci components might be useful markers for senescent cells in vivo.
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PMID:Human cell senescence as a DNA damage response. 1561 Jul 69

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