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)

The induction of DNA double-strand breaks (DSBs) by ionizing radiation in mammalian chromosomes leads to the phosphorylation of Ser-139 in the replacement histone H2AX, but the molecular mechanism(s) of the elimination of phosphorylated H2AX (called gamma-H2AX) from chromatin in the course of DSB repair remains unknown. We showed earlier that gamma-H2AX cannot be replaced by exchange with free H2AX, suggesting the direct dephosphorylation of H2AX in chromatin by a protein phosphatase. Here we studied the dynamics of dephosphorylation of gamma-H2AX in vivo and found that more than 50% was dephosphorylated in 3 h, but a significant amount of gamma-H2AX could be detected even 6 h after the induction of DSBs. At this time, a significant fraction of the gamma-H2AX nuclear foci co-localized with the foci of RAD50 protein that did not co-localize with replication sites. However, gamma-H2AX could be detected in some cells treated with methyl methanesulfonate which accumulated RAD18 protein at stalled replication sites. We also found that calyculin A inhibited early elimination of gamma-H2AX and DSB rejoining in vivo and that protein phosphatase 1 was able to remove phosphate groups from gamma-H2AX-containing chromatin in vitro. Our results confirm the tight association between DSBs and gamma-H2AX and the coupling of its in situ dephosphorylation to DSB repair.
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PMID:Dephosphorylation of histone gamma-H2AX during repair of DNA double-strand breaks in mammalian cells and its inhibition by calyculin A. 1292 89

To better understand the different cellular responses to replication fork pausing versus blockage, early DNA damage response markers were compared after treatment of cultured mammalian cells with agents that either inhibit DNA polymerase activity (hydroxyurea (HU) or aphidicolin) or selectively induce S-phase DNA damage responses (the DNA alkylating agents, methyl methanesulfonate (MMS) and adozelesin). These agents were compared for their relative abilities to induce phosphorylation of Chk1, H2AX, and replication protein A (RPA), and intra-nuclear focalization of gamma-H2AX and RPA. Treatment by aphidicolin and HU resulted in phosphorylation of Chk1, while HU, but not aphidicolin, induced focalization of gamma-H2AX and RPA. Surprisingly, pre-treatment with aphidicolin to stop replication fork progression, did not abrogate HU-induced gamma-H2AX and RPA focalization. This suggests that HU may act on the replication fork machinery directly, such that fork progression is not required to trigger these responses. The DNA-damaging fork-blocking agents, adozelesin and MMS, both induced phosphorylation and focalization of H2AX and RPA. Unlike adozelesin and HU, the pattern of MMS-induced RPA focalization did not match the BUdR incorporation pattern and was not blocked by aphidicolin, suggesting that MMS-induced damage is not replication fork-dependent. In support of this, MMS was the only reagent used that did not induce phosphorylation of Chk1. These results indicate that induction of DNA damage checkpoint responses due to adozelesin is both replication fork and fork progression dependent, induction by HU is replication fork dependent but progression independent, while induction by MMS is independent of both replication forks and fork progression.
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PMID:Comparison of checkpoint responses triggered by DNA polymerase inhibition versus DNA damaging agents. 1464 38

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

It has been reported that the phosphorylated form of histone variant H2AX (gammaH2AX) plays an important role in the recruitment of DNA repair and checkpoint proteins to sites of DNA damage, particularly at double strand breaks (DSBs). Using gammaH2AX foci formation as an indicator for DNA damage, several chemicals/stress factors were chosen to assess their ability to induce gammaH2AX foci in a 24h time frame in a human amnion FL cell line. Two direct-acting genotoxins, methyl methanesulfonate (MMS) and N-ethyl-N-nitrosourea (ENU), can induce gammaH2AX foci formation in a time- and dose-dependent manner. Similarly, an indirect-acting genotoxin, benzo[a]pyrene (BP), also induced the formation of gammaH2AX foci in a time- and dose-dependent manner. Another indirect genotoxin, 2-acetyl-aminofluorene (AAF), did not induce gammaH2AX foci formation in FL cells; however, AAF can induce gammaH2AX foci formation in Chinese hamster CHL cells. Neutral comet assays also revealed the induction of DNA strand breaks by these agents. In contrast, epigenetic carcinogens azathioprine and cyclosporine A, as well as non-carcinogen dimethyl sulfoxide, did not induce gammaH2AX foci formation in FL cells. In addition, heat shock and hypertonic saline did not induce gammaH2AX foci. Cell survival analyses indicated that the induction of gammaH2AX is not correlated with the cytotoxic effects of these agents/factors. Taken together, these results suggest that gammaH2AX foci formation could be used for evaluating DNA damage; however, the different cell types used may play an important role in determining gammaH2AX foci formation induced by a specific agent.
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PMID:DNA damage evaluated by gammaH2AX foci formation by a selective group of chemical/physical stressors. 1642 55

Histone H2AX is rapidly phosphorylated in response to DNA double-strand breaks (DSBs) induced by ionizing radiation (IR). Here we show that DNA damage induced by alkylating agents [methyl methanesulfonate (MMS) and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)] and ultraviolet light (UV-C) leads to a dose and time dependent accumulation of phosphorylated H2AX (gamma-H2AX). Time course experiments revealed that the number of gamma-H2AX foci reached peak levels 8 hr after MMS or MNNG treatment and declined to almost control values within 24 hr after exposure. Upon UV-C treatment, a biphasic response was observed with a maximum 12 hr after treatment. In 43-3B cells deficient in nucleotide excision repair (NER) the number of gamma-H2AX foci increased steadily. gamma-H2AX foci were preferentially formed in BrdU labeled cells. In proliferation compromised cells, the gamma-H2AX level was significantly reduced, indicating that most of the gamma-H2AX foci induced by UV-C and alkylating agent treatments were replication dependent. The data are in line with the view that DNA damage induced by UV-C light and simple alkylating agents, leads to the formation of DSBs during DNA replication giving rise to H2AX phosphorylation. In replicating NER defective cells, DSBs accumulate due to nonrepaired primary DNA lesions that produce a high level of DSBs during replication. The data support that gamma-H2AX foci are a useful marker of DSBs that are induced by S-phase dependent genotoxins during replication.
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PMID:Kinetics of gamma-H2AX focus formation upon treatment of cells with UV light and alkylating agents. 1880 Mar 52

O(6)-Methylguanine produced in DNA induces mutation due to its ambiguous base-pairing properties during DNA replication. To suppress such an outcome, organisms possess a mechanism to eliminate cells carrying O(6)-methylguanine by inducing apoptosis that requires the function of mismatch repair proteins. To identify other factors involved in this apoptotic process, we performed retrovirus-mediated gene-trap mutagenesis and isolated a mutant that acquired resistance to a simple alkylating agent, N-methyl-N-nitrosourea (MNU). However, it was still sensitive to methyl methanesulfonate, 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosourea, etoposide and ultraviolet irradiation. Moreover, the mutant exhibited an increased mutant frequency after exposure to MNU. The gene responsible was identified and designated Mapo1 (O(6)-methylguanine-induced apoptosis 1). When the expression of the gene was inhibited by small interfering RNA, MNU-induced apoptosis was significantly suppressed. In the Mapo1-defective mutant cells treated with MNU, the mitochondrial membrane depolarization and caspase-3 activation were severely suppressed, although phosphorylation of p53, CHK1 and histone H2AX was observed. The orthologs of the Mapo1 gene are present in various organisms from nematode to humans. Both mouse and human MAPO1 proteins expressed in cells localize in the cytoplasm. We therefore propose that MAPO1 may play a role in the signal-transduction pathway of apoptosis induced by O(6)-methylguanine-mispaired lesions.
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PMID:A novel protein, MAPO1, that functions in apoptosis triggered by O6-methylguanine mispair in DNA. 1913 17

Structure-specific endonucleases resolve DNA secondary structures generated during DNA repair and recombination. The yeast 5' flap endonuclease Slx1-Slx4 has received particular attention with the finding that Slx4 has Slx1-independent key functions in genome maintenance. Although Slx1 is a highly conserved protein in eukaryotes, no orthologs of Slx4 were reported other than in fungi. Here we report the identification of Slx4 orthologs in metazoa, including fly MUS312, essential for meiotic recombination, and human BTBD12, an ATM/ATR checkpoint kinase substrate. Human SLX1-SLX4 displays robust Holliday junction resolvase activity in addition to 5' flap endonuclease activity. Depletion of SLX1 and SLX4 results in 53BP1 foci accumulation and H2AX phosphorylation as well as cellular hypersensitivity to MMS. Furthermore, we show that SLX4 binds the XPF(ERCC4) and MUS81 subunits of the XPF-ERCC1 and MUS81-EME1 endonucleases and is required for DNA interstrand crosslink repair. We propose that SLX4 acts as a docking platform for multiple structure-specific endonucleases.
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PMID:Human SLX4 is a Holliday junction resolvase subunit that binds multiple DNA repair/recombination endonucleases. 1959 31

The gammaH2AX focus assay, based on phosphorylation of the variant histone protein H2AX, was evaluated as a genotoxicity test in immortalised wild-type mouse embryonic fibroblasts (MEFs) treated for 4h with a panel of reference compounds routinely used in genotoxicity testing. The topoisomerase II poison etoposide (0.006-60 microg/ml), the alkylating agent methyl methanesulfonate (1.3-65 microg/ml) and the direct DNA-damaging agent bleomycin (0.1-10 microg/ml) all produced a positive concentration-response relationship. The non-genotoxic compounds ampicillin (0.035-3500 microg/ml) and sodium chloride (0.058-580 microg/ml) showed no such response with increased concentrations. The H2AX phosphorylation results were compared with the outcome of two standard in vitro genotoxicity tests, namely the micronucleus and comet assays. Compounds that produced measurable DNA damage in the focus assay generated micronuclei at comparable concentrations. In this study, the focus assay identified genotoxic agents with the same specificity as the comet assay. These results were substantiated when H2AX phosphorylation was analysed using flow cytometry in the murine cell line L5178Y, growing in suspension. The data were in concordance with the manual scoring focus assay. To further this investigation, the gammaH2AX flow cytometry was compared to the in vitro micronucleus flow cytometry and mouse lymphoma assay using the same cell population after MMS treatment. The median gammaH2AX value increased significantly above the control at all four MMS concentrations tested. The percentage of micronucleus events in the in vitro micronucleus flow test and the mutation frequency in the mouse lymphoma assay were also significantly increased at each MMS concentration. The current data indicate that H2AX phosphorylation could be used as a biomarker of genotoxicity, which could predict the outcome of in vitro mammalian cell genotoxicity assays.
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PMID:H2AX phosphorylation as a genotoxicity endpoint. 1962 53

The combination of poly(ADP-ribose)polymerase (PARP) inhibitors and alkylating agents is currently being investigated in cancer therapy clinical trials. However, the DNA lesions producing the synergistic cell killing effect in tumors are not fully understood. Treatment of human and mouse fibroblasts with the monofunctional DNA methylating agent methyl methanesulfonate (MMS) in the presence of a PARP inhibitor has been shown to trigger a cell cycle checkpoint response. Among other changes, this DNA damage response to combination treatment includes activation of ATM/Chk2 and phosphorylation of histone H2A.X. These changes are consistent with DNA double-strand break (DSB) formation during the response, but the measurement of DSBs has not been addressed. Such DSB evaluation is important in understanding this DNA damage response because events other than DSB formation are known to lead to ATM/Chk2 activation and H2A.X phosphorylation. Here, we examined the structural integrity of genomic DNA after the combined treatment of cells with MMS and a PARP inhibitor, i.e., exposure to a sub-lethal dose of MMS in the presence of the PARP inhibitor 4-amino-1,8-napthalimide (4-AN). We used pulsed field gel electrophoresis (PFGE) for measurement of DSBs in both human and mouse embryonic fibroblasts, and flow cytometry to follow the phosphorylated form of H2A.X (gamma-H2A.X). The results indicate that DSBs are formed with the combination treatment, but not following treatment with either agent alone. Our data also show that formation of gamma-H2A.X correlates with PARP-1-expressing cells in S-phase of the cell cycle. The observations support the model that persistence of PARP-1 at base excision repair intermediates, as cells move into S-phase, leads to DSBs and the attendant checkpoint responses.
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PMID:Alkylation DNA damage in combination with PARP inhibition results in formation of S-phase-dependent double-strand breaks. 2057 51

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