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 BRCT regions are two repeating structures at BRCA1 carboxyl-terminus and are ubiquitous in some proteins involved in DNA repair and cell cycle checkpoints. It was shown that BRCTs of TopBP1, BRCA1, and BRCT-Ws of Rb bound DNA ends and breaks. We indicate here that the C-terminus of p53 tumor suppressor contains a DNA binding motif (residues 327-333 in human), whose features are similar to those of the part of BRCT-W in Rb with DNA binding activity. The short motif was required for the gel retardation activity of DNA fragments, since residues 311-333 showed the activity while residues 311-326 showed no activity. Significant numbers of total p53 and its fragments with the motif formed multimerizing complexes and associated with DNA ends and breaks. These results suggest the common presence of DNA binding motifs that can recognize DNA ends or damages in major tumor suppressors, Rb, BRCA1 and p53. The oncogenic activity of p53 C-terminus (residues 311-393) required both the DNA damage recognition motif and the repair enzyme-associating domain.
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PMID:p53 contains a DNA break-binding motif similar to the functional part of BRCT-related region of Rb. 1142 Jun 98

Human papillomaviruses (HPV) are causative agents of human cancers including those of the cervix and also of the head and neck; HPV16 is the most commonly found type in these diseases. The viral E2 protein regulates transcription from the viral genome by interacting with DNA-binding sequences in the HPV transcriptional control region; it also regulates replication by interacting with and recruiting the HPV replication factor E1 to the viral origin. Therefore, E2 is essential for the viral life cycle. The E2 protein interacts with several proteins involved in the cellular response to DNA damage including p53, TopBP1, and PARP. We therefore set out to establish whether DNA-damaging agents can regulate E2 activity. Here we show that UVB irradiation downregulates transcriptional activity of both HPV16 and HPV8 E2, while hydroxyurea and etoposide do not. This downregulation of E2 activity is independent of p53 function as it occurs in p53 wild type and null cell types as well as in the presence of functional HPV16 E6 that degrades p53. Using stable cell lines expressing E2 we show that this downregulation of E2 function by UVB is due to a reduction of the E2 protein half-life. The identification of the pathway(s) through which UVB downregulates E2 transcriptional activity and protein levels will present a novel target for the treatment of HPV-related diseases.
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PMID:UVB irradiation reduces the half-life and transactivation potential of the human papillomavirus 16 E2 protein. 1288 3

DNA topoisomerase II inhibitors are among the most widely used anticancer agents. These drugs are potent inducers of DNA strand breaks and G2 arrest. However, topoisomerase II is not only a target for anti-cancer drugs but also part of the cellular response to different types of DNA damage. Topoisomerase II forms molecular complexes with important cell cycle regulators including the p53 oncogene suppressor, the BRCT-containing protein TopBP1, 14-3-3 epsilon and Cdc2 kinase. The association between topoisomerase II and Cdc2 kinase likely represents the earliest step in mitotic chromatin condensation. Therefore, regulation of the topoisomerase II/Cdc2 interaction could represent a novel mechanism to delay mitotic onset.
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PMID:From DNA damage to G2 arrest: the many roles of topoisomerase II. 1459 24

Centrosomes consist of a pair of barrel-shaped microtubule assemblies called centrioles, surrounded by a pericentriolar matrix. The only well-characterized functions of centrosomes is to recognize both interphase microtubule arrays responsible for cell polarity and the mitotic spindle, which mediates the strictly bipolar separations of chromosomes. In addition to these established functions it has been speculated that centrosomes might be involved in several different cell cycle regulatory events like entry into mitosis, cytokinesis, G(1)/S transition and monitoring of DNA damage. These assumptions are mainly based on a rapidly growing list of centrosome-associated regulatory proteins such as p53, Brca1, Chk1, Chk2, TopBP1, Aurora-A, Plk1, cyclin B1, and Cdk1. However, only very few direct links between their localization to the centrosome and specific cellular functions have been unraveled until recently. This review will focus on recent advances in the understanding of the role of centrosomes as integrators of positive and negative pathways for mitotic entry.
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PMID:Checking out the centrosome. 1548 2

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

The Chk2-p53-PUMA pathway is a major regulator of DNA-damage-induced apoptosis in response to double-strand breaks in vivo. Through analysis of 53BP1 complexes we have discovered a new ubiquitin protease, USP28, which regulates this pathway. Using a human cell line that faithfully recapitulated the Chk2-p53-PUMA pathway, we show that USP28 is required to stabilize Chk2 and 53BP1 in response to DNA damage. In this cell line, both USP28 and Chk2 are required for DNA-damage-induced apoptosis, and they accomplish this in part through regulation of the p53 induction of proapoptotic genes like PUMA. Our studies implicate DNA-damage-induced ubiquitination and deubiquitination as a major regulator of the DNA-damage response for Chk2, 53BP1, and a number of other proteins in the DNA-damage checkpoint pathway, including several mediators, such as Mdc1, Claspin, and TopBP1.
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PMID:A role for the deubiquitinating enzyme USP28 in control of the DNA-damage response. 1690 86

TopBP1 is aberrantly expressed in human and feline mammary carcinomas, but expression of this BRCA1-related protein has not been investigated in canine mammary carcinomas. In this study, 132 canine mammary tumours (46 benign, 86 carcinomas) were examined immunohistochemically for expression of TopBP1, oestrogen receptor alpha (ERalpha), Ki67 and p53. Positive staining for TopBP1 was evident in all canine mammary lesions, although five samples had <20% positive cells. The number of samples with high levels of staining increased in different categories from benign mixed tumour to adenoma to carcinoma. Most TopBP1 staining was nuclear, but both nuclear and cytoplasmic staining were observed as the degree of malignancy increased, similar to human and feline mammary carcinomas. Benign mixed tumours, however, had more cytoplasmic staining than adenomas. Expression of p53 and the proliferation marker Ki67 increased from benign mixed tumour to adenoma to carcinoma, but the differences between benign and malignant tumours were more distinct than for TopBP1 expression. ERalpha expression decreased from malignant to benign tumours, although over half of the benign mixed tumours were negative. TopBP1 was expressed in canine mammary tumours at higher levels than has been reported previously for cats, although the shift in cellular localisation with malignancy was similar.
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PMID:Expression of TopBP1 in canine mammary neoplasia in relation to histological type, Ki67, ERalpha and p53. 1831 57

TopBP1, acting in concert with DNA containing bulky base lesions, stimulates ATR kinase activity under physiologically relevant reaction conditions. Here, we analyze the roles of the three components in ATR activation: DNA, base damage and TopBP1. We show that base adducts caused by a potent carcinogen, benzo[a]pyrene diol epoxide (BPDE), constitute a strong signal for TopBP1-dependent ATR kinase activity on Chk1 and p53. We find that the C-terminus of TopBP1 binds preferentially to damaged DNA and is sufficient to mediate damaged DNA-dependent ATR activation in a manner similar to full-length TopBP1. Significantly, we find that stimulation of ATR by BPDE-damaged DNA exhibits strong dependence on the length of DNA, with essentially no stimulation with fragments of 0.2 kb and reaching maximum stimulation with 2 kb fragments. Moreover, TopBP1 shows preferential binding to longer DNA fragments and, in contrast to previous biochemical studies, TopBP1 binding is completely independent of DNA ends. We find that TopBP1 binds to circular and linear DNAs with comparable affinities and that these DNA forms elicit the same level of TopBP1-dependent ATR activation. Taken together, these findings suggest a cooperative activation mechanism for the ATR checkpoint kinase by TopBP1 and damaged DNA.
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PMID:Cooperative activation of the ATR checkpoint kinase by TopBP1 and damaged DNA. 1913 65

Fusogenic HIV-1 isolates induce the fusion of infected and bystander cells. Such syncytia can be found as "multinucleated giant cells" in the brain from HIV-1-infected individuals, as well as in lymphoid tissues. Syncytia elicited by the HIV-1 envelope glycoprotein (Env) manifest the aggregation of PML in discrete nuclear bodies and the recruitment of TopBP1, NBS1 and ATM to DNA damage foci containing phosphorylated ATM and histone H2AX ("-H2AX). This DNA damage response then culminates in p53-dependent activation of the mitochondrial pathway of apoptosis. Here, we show that Env-elicited syncytia also manifest activating phosphorylations of the checkpoint kinases 1 and 2 (Chk1 and Chk2), and both Chk1 and Chk2 colocalize with "-H2AX foci. However, only the siRNA-mediated knockdown of Chk2, not the depletion of Chk1, inhibits mitochondrial outer membrane permeabilization and subsequent syncytial apoptosis. Depletion of PML, TopBP1, NBS1 or ATM inhibit the activating phosphorylation of Chk2. Altogether, these results indicate that Chk2 (but not Chk1) participates in the DNA damage-elicited pro-apoptotic cascade that leads to the demise of Env-elicited syncytia.
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PMID:Pro-apoptotic function of checkpoint kinase-2 in syncytia elicited by the HIV-1 envelope. 1916 52

Proper control of the G(1)/S checkpoint is essential for normal proliferation. The activity of p53 must be kept at a very low level under unstressed conditions to allow growth. Here we provide evidence supporting a crucial role for TopBP1 in actively repressing p53. Depletion of TopBP1 upregulates p53 target genes involved in cell cycle arrest and apoptosis and enhances DNA damage-induced apoptosis. The regulation is mediated by an interaction between the seventh and eighth BRCT domains of TopBP1 and the DNA-binding domain of p53, leading to inhibition of p53 promoter binding activity. Importantly, TopBP1 overexpression is found in 46 of 79 primary breast cancer tissues and is associated with high tumor grade and shorter patient survival time. Overexpression of TopBP1 to a level comparable to that seen in breast tumors leads to inhibition of p53 target gene expression and DNA damage-induced apoptosis and G(1) arrest. Thus, a physiological level of TopBP1 is essential for normal G(1)/S transition, but a pathological level of TopBP1 in cancer may perturb p53 function and contribute to an aggressive tumor behavior.
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PMID:Regulation of p53 by TopBP1: a potential mechanism for p53 inactivation in cancer. 1928 98

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