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Query: UNIPROT:P16104 (
H2AX
)
3,930
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Batracylin (8-aminoisoindolo [1,2-b]quinazolin-10(12H)-one; NSC320846) is an investigational clinical anticancer agent. Previous animal studies showed activity against solid tumors and Adriamycin-resistant leukemia. We initially sought to test the proposed Top2-mediated DNA cleavage activity of batracylin and identify potential biomarkers for activity. COMPARE analysis in the NCI-60 cell lines showed batracylin activity to be most closely related to the class of Top2 inhibitors. The 50% growth inhibition (GI50) value for batracylin in HT29 colon carcinoma cells was 10 micromol/L. DNA-protein cross-links, consistent with Top2 targeting, were measured by alkaline elution. DNA single-strand breaks were also detected and found to be protein associated. However, only a weak induction of DNA double-strand breaks was observed. Because batracylin induced almost exclusively DNA single-strand breaks, we tested batracylin as a Top1 inhibitor. Batracylin exhibited both Top1- and Top2alpha/beta-mediated DNA cleavage in vitro and in cells. The phosphorylation of histone (gamma-
H2AX
) was tested to measure the extent of DNA damage. Kinetics of gamma-
H2AX
"foci" showed early activation with low micromol/L concentrations, thus presenting a useful early biomarker of DNA damage. The half-life of gamma-
H2AX
signal reversal after drug removal was consistent with reversal of DNA-protein cross-links. The persistence of the DNA-protein complexes induced by batracylin was markedly longer than by etoposide or camptothecin. The phosphorylated DNA damage-responsive kinase,
ataxia telangiectasia mutated
, was also found activated at sites of gamma-
H2AX
. The cell cycle checkpoint kinase, Chk2, was only weakly phosphorylated. Thus, batracylin is a dual Top1 and Top2 inhibitor and gamma-
H2AX
could be considered a biomarker in the ongoing clinical trials.
...
PMID:Batracylin (NSC 320846), a dual inhibitor of DNA topoisomerases I and II induces histone gamma-H2AX as a biomarker of DNA damage. 1794 30
Chromatin condensation and degradation of DNA into internucleosomal DNA fragments are key hallmarks of apoptosis. The phosphorylation of protein kinase
ataxia telangiectasia mutated
(
ATM
) and
histone H2A.X
was recently shown to occur concurrently with apoptotic DNA fragmentation. We have used immunofluorescence microscopy, Western blot analysis and alkali comet assays to show that phosphorylation of
ATM
in NIH3T3 fibroblasts occurs prior to apoptotic DNA fragmentation, nuclease degradation and phosphorylation of
histone H2A.X
in cells treated with low levels of either staurosporine (STS) or tumor necrosis factor-alpha mixed with cycloheximide (TNF-alpha/CHX). In extension to previous findings,
ATM
phosphorylation was associated with chromatin decondensation, i.e., by loss of dense foci of constitutive heterochromatin. These results suggest that chromatin is decondensed and that
ATM
is activated independently of DNA damage signaling pathways during the very early stages of apoptosis.
...
PMID:Early-stage apoptosis is associated with DNA-damage-independent ATM phosphorylation and chromatin decondensation in NIH3T3 fibroblasts. 1794 18
Cisplatin is one of the most effective anti-cancer drugs; however, the use of cisplatin is limited by its toxicity in normal tissues, particularly injury of the kidneys. The mechanisms underlying the therapeutic effects of cisplatin in cancers and side effects in normal tissues are largely unclear. Recent work has suggested a role for p53 in cisplatin-induced renal cell apoptosis and kidney injury; however, the signaling pathway leading to p53 activation and renal apoptosis is unknown. Here we demonstrate an early DNA damage response during cisplatin treatment of renal cells and tissues. Importantly, in the DNA damage response, we demonstrate a critical role for ATR, but not ATM (
ataxia telangiectasia mutated
) or DNA-PK (DNA-dependent protein kinase), in cisplatin-induced p53 activation and apoptosis. We show that ATR is specifically activated during cisplatin treatment and co-localizes with
H2AX
, forming nuclear foci at the site of DNA damage. Blockade of ATR with a dominant-negative mutant inhibits cisplatin-induced p53 activation and renal cell apoptosis. Consistently, cisplatin-induced p53 activation and apoptosis are suppressed in ATR-deficient fibroblasts. Downstream of ATR, both Chk1 and Chk2 are phosphorylated during cisplatin treatment in an ATR-dependent manner. Interestingly, following phosphorylation, Chk1 is degraded via the proteosomal pathway, whereas Chk2 is activated. Inhibition of Chk2 by a dominant-negative mutant or gene deficiency attenuates cisplatin-induced p53 activation and apoptosis. In vivo in C57BL/6 mice, ATR and Chk2 are activated in renal tissues following cisplatin treatment. Together, the results suggest an important role for the DNA damage response mediated by ATR-Chk2 in p53 activation and renal cell apoptosis during cisplatin nephrotoxicity.
...
PMID:ATR-Chk2 signaling in p53 activation and DNA damage response during cisplatin-induced apoptosis. 1816 65
Fanconi anemia (FA) predisposes to hematopoietic failure, birth defects, leukemia, and squamous cell carcinoma of the head and neck (HNSCC) and cervix. The FA/BRCA pathway includes 8 members of a core complex and 5 downstream gene products closely linked with BRCA1 or BRCA2. Precancerous lesions are believed to trigger the DNA damage response (DDR), and we focused on the DDR in FA and its putative role as a checkpoint barrier to cancer. In primary fibroblasts with mutations in the core complex FANCA protein, we discovered that basal expression and phosphorylation of ATM (
ataxia telangiectasia mutated
) and p53 induced by irradiation (IR) or mitomycin C (MMC) were upregulated. This heightened response appeared to be due to increased basal levels of ATM in cultured FANCA-mutant cells, highlighting the new observation that ATM can be regulated at the transcriptional level in addition to its well-established activation by autophosphorylation. Functional analysis of this response using gamma-
H2AX
foci as markers of DNA double-stranded breaks (DSBs) demonstrated abnormal persistence of only MMC- and not IR-induced foci. Thus, we describe a processing defect that leads to general DDR upregulation but specific persistence of DNA crosslinker-induced damage response foci. Underscoring the significance of these findings, we found resistance to DNA crosslinker-induced cell cycle arrest and apoptosis in a TP53-mutant, patient-derived HNSCC cell line, whereas a lymphoblastoid cell line derived from this same individual was not mutated at TP53 and retained DNA crosslinker sensitivity. Our results suggest that cancer in FA may arise from selection for cells that escape from a chronically activated DDR checkpoint.
...
PMID:Upregulated ATM gene expression and activated DNA crosslink-induced damage response checkpoint in Fanconi anemia: implications for carcinogenesis. 1822 51
The activation of the
ataxia telangiectasia mutated
(
ATM
) and
ATM
/Rad3-related (ATR) kinases triggers a diverse cellular response including the initiation of DNA damage-induced cell cycle checkpoints. Mediator of DNA Damage Checkpoint protein, MDC1, and
H2AX
are chromatin remodeling factors required for the recruitment of DNA repair proteins to the DNA damage sites. We identified a novel mediator protein, Cep164 (KIAA1052), that interacts with both ATR and
ATM
. Cep164 is phosphorylated upon replication stress, ultraviolet radiation (UV), and ionizing radiation (IR). Ser186 of Cep164 is phosphorylated by ATR/
ATM
in vitro and in vivo. The phosphorylation of Ser186 is not affected by RPA knockdown but is severely hampered by MDC1 knockdown. siRNA-mediated silencing of Cep164 significantly reduces DNA damage-induced phosphorylation of RPA,
H2AX
, MDC1, CHK2, and CHK1, but not NBS1. Analyses of Cep164 knockdown cells demonstrate a critical role of Cep164 in G2/M checkpoint and nuclear divisions. These findings reveal that Cep164 is a key player in the DNA damage-activated signaling cascade.
...
PMID:Cep164 is a mediator protein required for the maintenance of genomic stability through modulation of MDC1, RPA, and CHK1. 1828 22
We examined the effect of increased expression of ornithine decarboxylase (ODC), a key rate-limiting enzyme in polyamine biosynthesis, on cell survival in primary cultures of keratinocytes isolated from the skin of K6/ODC transgenic mice (Ker/ODC) and their normal littermates (Ker/Norm). Although elevated levels of ODC and polyamines stimulate proliferation of keratinocytes, Ker/ODC undergo apoptotic cell death within days of primary culture unlike Ker/Norm that continue to proliferate. Phosphorylation of
ataxia telangiectasia mutated
(
ATM
) and its substrate p53 are significantly induced both in Ker/ODC and in K6/ODC transgenic skin. Chromatin immunoprecipitation analyses show that the increased level of p53 in Ker/ODC is accompanied by increased recruitment of p53 to the Bax proximal promoter.
ATM
activation is polyamine dependent because alpha-difluoromethylornithine, a specific inhibitor of ODC activity, blocks its phosphorylation. Ker/ODC also displays increased generation of H(2)O(2), acrolein-lysine conjugates, and protein oxidation products as well as polyamine-dependent DNA damage, as measured by the comet assay and the expression of the phosphorylated form of the histone variant gamma
H2AX
. Both reactive oxygen species generation and apoptotic cell death of Ker/ODC may, at least in part, be due to induction of a polyamine catabolic pathway that generates both H(2)O(2) and cytotoxic aldehydes, because spermine oxidase (SMO) levels are induced in Ker/ODC. In addition, treatment with MDL 72,527, an inhibitor of SMO, blocks the production of H(2)O(2) and increases the survival of Ker/ODC. These results show a novel activation of the
ATM
-DNA damage signaling pathway in response to increased ODC activity in nontumorigenic keratinocytes.
...
PMID:Elevated ornithine decarboxylase levels activate ataxia telangiectasia mutated-DNA damage signaling in normal keratinocytes. 1838 27
Histone
H2AX
undergoes phosphorylation at Ser-139 (gamma-
H2AX
) rapidly in response to DNA double-strand breaks (DSBs) induced by ionizing radiation. The post-translational modification of
H2AX
plays a central role in responses to radiation, including the repair of DSBs. Although
ataxia telangiectasia mutated
(
ATM
) kinase phosphorylates Ser-139 of
H2AX
in vitro, the post-translational modification pattern and the modifier of
H2AX
in organs in vivo are not yet well understood. In this study, we detected phosphorylation of
H2AX
at Ser-139 in cells of the mouse ear, liver, and kidney after X-irradiation. Moreover, the phosphorylation of
H2AX
was regulated depending on not only the cell type, but also the organ type and the localization of a cell type in an organ. Following X-irradiation,
H2AX
was phosphorylated in the liver and kidney of
ATM
gene knockout mice, suggesting that
ATM
kinase is not essential for phosphorylation of
H2AX
in these organs after X-irradiation in vivo.
...
PMID:Histone H2AX phosphorylation independent of ATM after X-irradiation in mouse liver and kidney in situ. 1841 80
DNA damage can activate the oncosuppressor protein
ataxia telangiectasia mutated
(
ATM
), which phosphorylates the histone
H2AX
within characteristic DNA damage foci. Here, we show that
ATM
undergoes an activating phosphorylation in syncytia elicited by the envelope glycoprotein complex (Env) of human immunodeficiency virus-1 (HIV-1) in vitro. This was accompanied by aggregation of
ATM
in discrete nuclear foci that also contained phospho-histone
H2AX
. DNA damage foci containing phosphorylated
ATM
and
H2AX
were detectable in syncytia present in the brain or lymph nodes from patients with HIV-1 infection, as well as in a fraction of blood leukocytes, correlating with viral status. Knockdown of
ATM
or of its obligate activating factor NBS1 (Nijmegen breakage syndrome 1 protein), as well as pharmacological inhibition of
ATM
with KU-55933, inhibited
H2AX
phosphorylation and prevented Env-elicited syncytia from undergoing apoptosis.
ATM
was found indispensable for the activation of MAP kinase p38, which catalyzes the activating phosphorylation of p53 on serine 46, thereby causing p53 dependent apoptosis. Both wild type HIV-1 and an HIV-1 mutant lacking integrase activity induced syncytial apoptosis, which could be suppressed by inhibiting
ATM
. HIV-1-infected T lymphoblasts from patients with inactivating
ATM
or NBS1 mutations also exhibited reduced syncytial apoptosis. Altogether these results indicate that apoptosis induced by a fusogenic HIV-1 Env follows a pro-apoptotic pathway involving the sequential activation of
ATM
, p38MAPK and p53.
...
PMID:Critical involvement of the ATM-dependent DNA damage response in the apoptotic demise of HIV-1-elicited syncytia. 1856 May 58
When DNA damage, whether it is endogenous or exogenous, forms double stranded breaks (DSBs), it is always followed by the phosphorylation of the histone,
H2AX
.
H2AX
is a variant of the H2A protein family, which is a component of the histone octomer in nucleosomes. It is phosphorylated by kinases such as
ataxia telangiectasia mutated
(
ATM
) and
ATM
-Rad3-related (ATR) in the PI3K pathway. This newly phosphorylated protein, gamma-
H2AX
, is the first step in recruiting and localizing DNA repair proteins. DSBs can be induced by mechanisms such as ionizing radiation or cytotoxic agents and subsequently, gamma-
H2AX
foci quickly form. These foci represent the DSBs in a 1:1 manner and can be used as a biomarker for damage. An antibody can be raised against gamma-
H2AX
which can therefore be visualized by immunofluorescence through secondary antibodies. The detection and visualization of gamma-
H2AX
by flow cytometry allow the assessment of DNA damage, related DNA damage proteins and DNA repair. Gamma-
H2AX
also has other applications in the detection of genomic damage caused by cytotoxic chemical agents and environmental and physical damage, especially in the context of cancer treatment and therapy.
...
PMID:Gamma-H2AX - a novel biomarker for DNA double-strand breaks. 1861 Jul 40
Variable, diversity and joining (V(D)J) recombination and class-switch recombination use overlapping but distinct non-homologous end joining pathways to repair DNA double-strand-break intermediates. 53BP1 is a DNA-damage-response protein that is rapidly recruited to sites of chromosomal double-strand breaks, where it seems to function in a subset of
ataxia telangiectasia mutated
(
ATM
) kinase-, H2A histone family member X (
H2AX
, also known as
H2AFX
)- and mediator of DNA damage checkpoint 1 (MDC1)-dependent events. A 53BP1-dependent end-joining pathway has been described that is dispensable for V(D)J recombination but essential for class-switch recombination. Here we report a previously unrecognized defect in the joining phase of V(D)J recombination in 53BP1-deficient lymphocytes that is distinct from that found in classical non-homologous-end-joining-, H2ax-, Mdc1- and Atm-deficient mice. Absence of 53BP1 leads to impairment of distal V-DJ joining with extensive degradation of unrepaired coding ends and episomal signal joint reintegration at V(D)J junctions. This results in apoptosis, loss of T-cell receptor alpha locus integrity and lymphopenia. Further impairment of the apoptotic checkpoint causes propagation of lymphocytes that have antigen receptor breaks. These data suggest a more general role for 53BP1 in maintaining genomic stability during long-range joining of DNA breaks.
...
PMID:53BP1 facilitates long-range DNA end-joining during V(D)J recombination. 1893 58
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