UNIPROT:P16104 - FACTA Search

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Query: UNIPROT:P16104 (H2AX)
3,930 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study, we examined DNA repair synthesis in human cells treated with the radiomimetic drug bleomycin, which efficiently induces double-strand breaks (DSBs). Using tyramide-biotin to amplify fluorescent signals, discrete nuclear foci from the incorporation of 5-iododeoxyuridine (IdU) were detected in proliferating human cells treated with bleomycin. We believe this comes from the repair of DSBs. An increase in the number of foci (>5 per nucleus) was detected in a major fraction (75%) of non-S-phase cells labeled for 30 min with IdU 1 h after the end of bleomycin treatment. The fraction of cells with multiple IdU-containing foci was found to decrease 18 h after treatment. The average number of foci per nucleus detected 1 h after bleomycin treatment was found to decrease twofold between 1 and 3.5 h, indicating that the foci may be associated with the slow component of DSB repair. The presence of DSBs in bleomycin-treated cells was confirmed using antibodies against phosphorylated histone H2AX (gamma-H2AX), which is strictly associated with this type of DNA damage. After treatment with bleomycin, non-S-phase cells also displayed heterogeneous nuclear foci containing tightly bound proliferating cell nuclear antigen (PCNA), suggesting an ongoing process of unscheduled DNA synthesis. PCNA is known to be involved in base excision repair, but a fraction of the PCNA foci may also be associated with DNA synthesis occurring during the repair of DSBs.
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PMID:Visualization of focal nuclear sites of DNA repair synthesis induced by bleomycin in human cells. 1155 46

H2AX, a member of the histone H2A family, is rapidly phosphorylated in response to ionizing radiation. This phosphorylation, at an evolutionary conserved C-terminal phosphatidylinositol 3-OH-kinase-related kinase (PI3KK) motif, is thought to be critical for recognition and repair of DNA double strand breaks. Here we report that inhibition of DNA replication by hydroxyurea or ultraviolet irradiation also induces phosphorylation and foci formation of H2AX. These phospho-H2AX foci colocalize with proliferating cell nuclear antigen (PCNA), BRCA1, and 53BP1 at the arrested replication fork in S phase cells. This response is ATR-dependent but does not require ATM or Hus1. Our findings suggest that, in addition to its role in the recognition and repair of double strand breaks, H2AX also participates in the surveillance of DNA replication.
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PMID:Histone H2AX is phosphorylated in an ATR-dependent manner in response to replicational stress. 1167 49

Ultraviolet (UV) irradiation produces DNA photoproducts that are blocks to DNA replication by normal replicative polymerases. A specialized, damage-specific, distributive polymerase, Pol H or Pol h, that is the product of the hRad30A gene, is required for replication past these photoproducts. This polymerase is absent from XP variant (XP-V) cells that must employ other mechanisms to negotiate blocks to DNA replication. These mechanisms include the use of alternative polymerases or recombination between sister chromatids. Replication forks arrested by UV damage in virus transformed XP-V cells degrade into DNA double strand breaks that are sites for recombination, but in normal cells arrested forks may be protected from degradation by p53 protein. These breaks are sites for binding a protein complex, hMre11/hRad50/Nbs1, that colocalizes with H2AX and PCNA, and can be visualized as immunofluorescent foci. The protein complexes need phosphorylation to activate their DNA binding capacity. Incubation of UV irradiated XP-V cells with the irreversible kinase inhibitor wortmannin, however, increased the yield of Mre11 focus-positive cells. One interpretation of this observation is that two classes of kinases are involved after UV irradiation. One would be a wortmannin-resistant kinase that phosphorylates the Mre11 complex. The other would be a wortmannin-sensitive kinase that phosphorylates and activates the p53/large T in SV40 transformed XP-V cells. The sensitive class corresponds to the PI3-kinases of ATM, ATR, and DNA-PK, but the resistant class remains to be identified. Alternatively, the elevated yield of Mre11 foci positive cells following wortmannin treatment may reflect an overall perturbation to the signaling cascades regulated by wortmannin-sensitive PI3 related kinases. In this scenario, wortmannin could compromise damage inducible-signaling pathways that maintain the stability of stalled forks, resulting in a further destabilization of stalled forks that then degrade, with the formation of DNA double strand breaks.
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PMID:DNA replication arrest in XP variant cells after UV exposure is diverted into an Mre11-dependent recombination pathway by the kinase inhibitor wortmannin. 1245 48

The Mre11 complex undergoes dramatic relocalization in the nuclei of gamma-irradiated and replicating human cells. In this study, we examined Mre11 complex localization and chromatin association in synchronous cultures to examine the molecular determinants of relocalization. The data indicate that the complex is deposited on chromatin in an S phase-specific manner. Mre11 complex chromatin association in S phase was resistant to detergent extraction, in contrast to that in gamma-irradiated cells. The complex exhibits extensive colocalization with proliferating cell nuclear antigen throughout S phase, and chromatin loading is enhanced by replication fork stalling, suggesting that the replication fork is a site of Mre11 complex chromatin loading. This is supported by the observation that the complex localized to single-stranded DNA arising in hydroxyurea-treated cells. Although the Mre11 complex appears to function as a DNA damage sensor, limited colocalization with Brca1 or gamma-H2AX was observed, arguing that neither DNA damage nor gamma-H2AX is required for Mre11 complex chromatin loading. These data provide a potential molecular basis for promotion of sister chromatid association and recombination by the Mre11 complex as well as for ATM-Mre11 complex-dependent activation of cell cycle checkpoints.
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PMID:DNA replication-dependent nuclear dynamics of the Mre11 complex. 1255 60

The immunocytochemical response to DNA damage induced by low-energy bismuth and carbon ions was investigated in normal human fibroblasts. Inside the nuclei, the traversing charged particles lead to the accumulation of proteins related to DNA lesions and repair along the ion trajectories. Irradiation under a standard geometric setup with the beam direction perpendicular to the cell monolayer generates spots of these proteins as described previously for MRE11B (hMre11), CDKN1A (p21) and PCNA (Jakob et al., Int. J. Radiat. Biol. 78, 75-88, 2002). Here we present data obtained with a new irradiation geometry characterized by a small angle between the beam direction and the monolayer of cells. This new irradiation geometry leads to the formation of protein aggregates in the shape of streaks stretching over several micrometers in the x/y plane, thus facilitating the analysis of the fluorescence distributions along the particle trajectories. Measurements of fluorescence intensity along the ion tracks in double- and triple-stained samples revealed a strict spatial correlation for the occurrence of CDKN1A and MRE11B clusters. In addition, immunostained gamma-H2AX is used as a marker of double-strand breaks (DSBs) to visualize the localized induction of these lesions along the particle paths. A clear coincidence of CDKN1A and gamma-H2AX signals within the ion-induced streaks is observed. Also for PCNA, which mainly associates with lesions processed by excision repair, a strict colocalization with the MRE11B aggregations was found along the ion trajectories, despite the higher estimated yield of this type of lesions compared to DSBs. Strikingly similar patterns of protein clusters are generated not only for the various proteins studied but also using different ion species from carbon to bismuth, covering LET values ranging from about 300 to 13600 keV/microm and producing estimated DSB densities differing by a factor around 45. The patterns of protein clustering along the very heavy-ion trajectories appear far more heterogeneous than expected based on idealized DSB distributions arising from model calculations. The results suggest that additional factors like compaction or confined movement of chromatin are responsible for the observed clustering of proteins.
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PMID:Biological imaging of heavy charged-particle tracks. 1271 Aug 80

Certain hexavalent chromium [Cr(VI)] compounds are implicated as occupational respiratory carcinogens. Cr(VI) induces a broad spectrum of DNA damage, but Cr(VI)-induced DNA double-strand breaks (DSBs) have not been reported. Previously we found that Cr(VI) activates the ataxia telangiectasia mutated (ATM) kinase. ATM is activated specifically in response to DSBs. Therefore, the objective of this study was to investigate DSB induction by Cr(VI) exposure with the overarching hypothesis that S phase-dependent DSBs are produced by Cr(VI) exposure. To test this hypothesis, normal human fibroblasts were treated with either Cr(VI) or neocarzinostatin (NCS). DSBs were analyzed by both comet assay under neutral conditions, which detects primarily DNA DSBs, and phosphorylation of histone H2AX (gamma-H2AX) and the resultant formation of nuclear foci, which are considered to be indicative of DSBs. Induction of DSBs was observed after Cr(VI) exposure, however, the Cr(VI)-induced DSBs were abrogated by G(1) synchronization. Furthermore, our data showed that Cr(VI)-induced DSBs were only observed in the S phase population, whereas no significant DSBs were observed in Cr(VI)-treated G(1) synchronized cells. In contrast, NCS-induced DSBs were equally distributed in all cell cycle phases in both asynchronous and G(1) synchronized cells. Moreover, Cr(VI)-induced gamma-H2AX foci formation was restricted to PCNA-positive cells, whereas NCS-induced gamma-H2AX foci formed in both PCNA-positive and PCNA-negative cells. These results indicate that Cr(VI)-induced DSBs are S phase-dependent. Finally, our data showed that Cr(VI)-induced gamma-H2AX production was significantly decreased in ATM(-/-) cells compared with ATM(+/+) cells. Taken together, these results suggest that Cr(VI)-induced activation of ATM involves the formation of S phase-dependent DSBs. Examining the mechanism of Cr(VI)-induced DSBs will aid in understanding the interrelated mechanisms of Cr(VI) toxicity and carcinogenesis.
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PMID:Generation of S phase-dependent DNA double-strand breaks by Cr(VI) exposure: involvement of ATM in Cr(VI) induction of gamma-H2AX. 1528 80

Rad18 protein is required for mono-ubiquitination of PCNA and trans-lesion synthesis during DNA lesion bypass in eukaryotic cells but it remains unknown how it is activated after DNA damage. We expressed GFP-tagged human (h)Rad18 in Chinese hamster cells and found that it can be completely extracted from undamaged nuclei by Triton X-100 and methanol. However, several hours after treatment with methyl methanesulfonate (MMS) Triton-insoluble form of GFP-hRad18 accumulates in S-phase nuclei where it colocalizes with PCNA. This accumulation is suppressed by inhibitors of protein kinases staurosporine and wortmannin but is not effected by roscovitine. We also found that methyl methanesulfonate induces phosphorylation of Ser-317 in protein kinase Chk1 and Ser-139 in histone H2AX and stimulates formation of single-stranded DNA at replication foci. Together, our results suggest that MMS-induced accumulation of hRad18 protein at stalled forks involves protein phosphorylation which may be performed by S-phase checkpoint kinases.
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PMID:DNA damage-induced accumulation of Rad18 protein at stalled replication forks in mammalian cells involves upstream protein phosphorylation. 1538 Oct 75

DNA polymerase (Pol) beta null mouse embryonic fibroblasts provide a useful cell system to investigate the effects of alterations in base excision repair (BER) on genome stability. These cells are characterized by hypersensitivity to the cytotoxic effects of methyl methanesulfonate (MMS) and by decreased repair of the MMS-induced DNA single strand breaks (SSB). Here, we show that, in the absence of Pol beta, SSB accumulate in G1 phase cells, accompanied by the formation of proliferating cell nuclear antigen foci in the nuclei. When replicating Pol beta null cells are treated with MMS, a rapid phosphorylation of histone H2AX is detected in the nuclei of S phase cells, indicating that double strand breaks (DSB) are formed in response to unrepaired SSB. This is followed by relocalization within the nuclei of Rad51 protein, which is essential for homologous recombination (HR). These findings are compatible with a model where, in mammalian cells, unrepaired SSB produced during BER are substrates for the HR pathway via DSB formation. This is an example of a coordinated effort of two different repair pathways, BER and HR, to protect mammalian cells from alkylation-induced cytotoxicity.
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PMID:The accumulation of MMS-induced single strand breaks in G1 phase is recombinogenic in DNA polymerase beta defective mammalian cells. 1564 10

Aminoflavone (5-amino-2,3-fluorophenyl)-6,8-difluoro-7-methyl-4H-1-benzopyran-4-one) (NSC 686288) is a candidate for possible advancement to phase I clinical trial. Aminoflavone has a unique activity profile in the NCI 60 cell lines (COMPARE analysis; http://www.dtp.nci.nih.gov/docs/dtp_search.html), and exhibits potent cellular and animal antitumor activity. To elucidate the mechanism of action of aminoflavone, we studied DNA damage in MCF-7 cells. Aminoflavone induced DNA-protein cross-links (DPC) and DNA single-strand breaks (SSB). Aminoflavone induced high levels of DPC and much lower level of SSB than camptothecin, which induces equal levels of DPC and SSB due to the trapping topoisomerase I-DNA complexes. Accordingly, neither topoisomerase I nor topoisomerase II were detectable in the aminoflavone-induced DPC. Aminoflavone also induced dose- and time-dependent histone H2AX phosphorylation (gamma-H2AX). Gamma-H2AX foci occurred with DPC formation, and like DPC, persisted after aminoflavone removal. Aphidicolin prevented gamma-H2AX formation, suggesting that gamma-H2AX foci correspond to replication-associated DNA double-strand breaks. Accordingly, no gamma-H2AX foci were found in proliferating cell nuclear antigen-negative or in mitotic cells. Bromodeoxyuridine incorporation and fluorescence-activated cell sorting analyses showed DNA synthesis inhibition uniformly throughout the S phase after exposure to aminoflavone. Aminoflavone also induced RPA2 and p53 phosphorylation, and induced p21(Waf1/Cip1) and MDM2, demonstrating S-phase checkpoint activation. These studies suggest that aminoflavone produces replication-dependent DNA lesions and S-phase checkpoint activation following DPC formation. Gamma-H2AX may be a useful clinical marker for monitoring the efficacy of aminoflavone in tumor therapies.
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PMID:DNA-protein cross-links and replication-dependent histone H2AX phosphorylation induced by aminoflavone (NSC 686288), a novel anticancer agent active against human breast cancer cells. 1595 81

The integrity of genomic DNA during the cell division cycle in eukaryotic cells is maintained by regulated chromosomal DNA replication and repair of damaged DNA. We have used fractionation and reconstitution experiments to purify essential factors for the initiation of human chromosomal DNA replication in late G1 phase template nuclei from human cells. Here, we report the identification of soluble PCNA as an essential initiation factor in this system. Recombinant histidine-tagged human PCNA can substitute for purified endogenous human PCNA to initiate human chromosomal DNA replication. It is recruited specifically to discrete DNA replication foci formed during initiation in vitro. The template nuclei also contain DNA breaks as result of the synchronisation procedure. A separate population of chromatin-bound PCNA is already present in these template nuclei at discrete DNA damage foci, co-localising with gamma-H2AX, RPA and Rad51. This DNA damage-associated PCNA population is marked by mono-ubiquitination, suggesting that it is involved in DNA repair. Importantly, the population of damage focus-associated PCNA is neither involved in, nor required for, the initiation of chromosomal DNA replication in the same nuclei.
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PMID:Distinct populations of human PCNA are required for initiation of chromosomal DNA replication and concurrent DNA repair. 1622 49

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