Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Immunofluorescence studies have revealed that H2AX is phosphorylated at the sites of DNA double-strand breaks induced by ionizing radiation and is required for recruitment of repair factors into nuclear foci after DNA damage. Therefore, the function of H2AX is believed to be associated primarily with repair of DNA damage. Here, we report a function of H2AX in cellular apoptosis. Our data showed that H2AX is phosphorylated by UVA-activated JNK. We also provided evidence showing that UVA induces caspase-3 and caspase-activated DNase (CAD) activity in both H2AX wild-type and H2AX knockout mouse embryonic fibroblasts (MEFs). However, DNA fragmentation occurred only in H2AX wild-type MEFs. Furthermore, H2AX phosphorylation was critical for DNA degradation triggered by CAD in vitro. Taken together, these data indicated that H2AX phosphorylation is required for DNA ladder formation, but not for the activation of caspase-3; and the JNK/H2AX pathway cooperates with the caspase-3/CAD pathway resulting in cellular apoptosis.
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PMID:Cell apoptosis: requirement of H2AX in DNA ladder formation, but not for the activation of caspase-3. 1685 81

Nitric oxide-releasing acetylsalicylic acid (NO-ASA; NO-aspirin) developed as an anti-inflammatory agent that was expected to avoid some of the adverse effects of aspirin (ASA), was recently shown to be cytotoxic to cells of different tumor lines. The cytotoxic properties and potency of NO-ASA are different than those of ASA which implies that the intracellular targets for NO-ASA and ASA, and their mechanism of action, are different. The aim of the present study was to reveal whether the cytotoxicity induced by NO-ASA is mediated by damage to DNA. We observed that even brief (1 h) treatment of human B-lymphoblastoid TK6 cells with >or=5 microM NO-ASA led to DNA damage revealed by the alkaline and neutral comet assays, histone H2AX phosphorylation on Ser 139, and ATM phosphorylation on Ser 1981, a marker of activation of this kinase. The induction of H2AX phosphorylation was preferential to S-phase cells. Exposure to >or=5 microM NO-ASA for over 3 h led to apoptosis, also preferentially of S-phase cells. Apoptosis was atypical; while chromatin was highly condensed there was no evidence of nuclear fragmentation nor were the cells positive in the TUNEL assay though they did express activated caspase-3. The induction of phosphorylation of H2AX on Ser 139 by NO-ASA was markedly attenuated in the presence of N-acetyl-L-cysteine, a scavenger of reactive oxygen species (ROS). The data imply that the NO-ASA induces DNA damage through oxidative stress; the oxidation-generated lesions provide a signal for induction of H2AX phosphorylation during DNA replication, perhaps when the progressing replication forks collide with the primary lesions converting them to DNA double-strand breaks. Because neither induction of H2AX phosphorylation nor apoptosis were observed at equimolar concentrations of ASA, the NO moiety attached to ASA appeared to mediate these effects.
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PMID:Nitrogen oxide-releasing aspirin induces histone H2AX phosphorylation, ATM activation and apoptosis preferentially in S-phase cells: involvement of reactive oxygen species. 1686 26

Spy1 is the originally identified member of the Speedy/Ringo family of vertebrate cell cycle regulators, which can control cell proliferation and survival through the atypical activation of cyclin-dependent kinases. Here we report a role for Spy1 in apoptosis and checkpoint activation in response to UV irradiation. Using an inducible system allowing for regulated expression of Spy1, we show that Spy1 expression prevents activation of caspase-3 and suppresses apoptosis in response to UV irradiation. Spy1 expression also allows for UV irradiation-resistant DNA synthesis and permits cells to progress into mitosis, as demonstrated by phosphorylation on histone H3, indicating that Spy1 expression can inhibit the S-phase/replication and G2/M checkpoints. We demonstrate that Spy1 expression inhibits phosphorylation of Chk1, RPA, and histone H2A.X, which may directly contribute to the decrease in apoptosis and checkpoint bypass. Furthermore, mutation of the conserved Speedy/Ringo box, known to mediate interaction with CDK2, abrogates the ability of Spy1 to inhibit apoptosis and the phosphorylation of Chk1 and RPA. The data presented indicate that Spy1 expression allows cells to evade checkpoints and apoptosis and suggest that Spy1 regulation of CDK2 is important for the response to DNA damage.
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PMID:Spy1 expression prevents normal cellular responses to DNA damage: inhibition of apoptosis and checkpoint activation. 1695 7

Histone deacetylases (HDAC) have been identified as therapeutic targets due to their regulatory function in DNA structure and organization. LBH589 is a novel inhibitor of class I and II HDACs. We studied the effect of LBH589 and ionizing radiation (IR) on DNA repair in two human non-small cell lung cancer (NSCLC) cell lines (H23 and H460). gamma-H2AX foci present at DNA double-strand breaks (DSBs) were detected in the nuclei following 3 Gy irradiation for up to 6 hours. LBH589 administered before irradiation increased the duration of gamma-H2AX foci beyond 24 hours. Furthermore, radiation alone induced translocation of HDAC4 to the nucleus. In contrast, treatment with LBH589 followed by irradiation resulted in HDAC4 confinement to the cytoplasm, indicating that HDAC inhibition affects the nuclear localization of HDAC4. The findings that LBH589 confines HDAC4 to the cytoplasm and increases the duration of gamma-H2AX foci in irradiated cell lines suggest that HDAC4 participates in DNA damage signaling following IR. Annexin-propidium iodide flow cytometry assays, cell morphology studies, and cleaved caspase-3 Western blot analysis revealed a synergistic effect of LBH589 with IR in inducing apoptosis. Clonogenic survival showed a greater than additive effect when LBH589 was administered before irradiation compared with irradiation alone. In vivo tumor volume studies showed a growth delay of 20 days with combined treatment compared with 4 and 2 days for radiation or LBH589 alone. This study identifies HDAC4 as a biomarker of LBH589 activity and recognizes the ability of LBH589 to sensitize human NSCLC to radiation-induced DNA DSBs.
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PMID:Histone deacetylase (HDAC) inhibitor LBH589 increases duration of gamma-H2AX foci and confines HDAC4 to the cytoplasm in irradiated non-small cell lung cancer. 1714 76

Etoposide (VP-16) belongs to the family of DNA topoisomerase II (topo2) inhibitors, drugs widely used in cancer chemotherapy. Their presumed mode of action is stabilization of "cleavable complexes" between topo2 and DNA; collisions of DNA replication forks with these complexes convert them into DNA double-strand breaks (DSBs), potentially lethal lesions that may trigger apoptosis. Immunocytochemical detection of activation of ATM (ATM-S1981P) and histone H2AX phosphorylation (gammaH2AX) provides a sensitive probe of the induction of DSBs in individual cells. Using multiparameter cytometry we measured the expression of ATM-S1981P and gammaH2AX as well as initiation of apoptosis (caspase-3 activation) in relation to the cell cycle phase in etoposide-treated human lymphoblastoid TK6 cells. The induction of ATM-S1981P and gammaH2AX was seen in all phases of the cell cycle. The G(1)-phase cells, however, preferentially underwent apoptosis. The extent of etoposide-induced H2AX phosphorylation was partially reduced by N-acetyl-L-cysteine (NAC), a scavenger of reactive oxygen species (ROS). The maximal reduction of H2AX phosphorylation by NAC, seen in G(1)-phase cells, was nearly 50%. NAC also protected a fraction of G(1) cells from etoposide-induced apoptosis, but had no such effect on S or G(2)M cells. However, no significant rise in the intracellular level of ROS upon treatment with etoposide was detected. The effects of etoposide were compared with the previously investigated effects of another topo2 inhibitor, mitoxantrone. The latter was seen to induce a maximal level of ATM-S1981P and gammaH2AX (partially abrogated by NAC) in G(1)-phase cells, but unlike etoposide, triggered apoptosis exclusively of S-phase cells. The data suggest that in addition to the generally accepted mechanism involving collisions of replication forks with the "cleavable complexes", other mechanisms which appear to be different for etoposide vs. mitoxantrone, may contribute to formation of DSBs and to triggering of apoptosis.
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PMID:Induction of ATM activation, histone H2AX phosphorylation and apoptosis by etoposide: relation to cell cycle phase. 1729 10

Cancer cells express survivin that facilitates tumorigenesis. Celecoxib has been shown to reduce human colorectal cancers. However, the role and regulation of survivin by celecoxib in colorectal carcinoma cells remain unclear. Treatment with 40-80 muM celecoxib for 24 h induced cytotoxicity and proliferation inhibition via a concentration-dependent manner in RKO colorectal carcinoma cells. Celecoxib blocked the survivin protein expression and increased the phosphorylation of H2AX at serine-193 (gamma-H2AX). The survivin gene knockdown by transfection with a survivin siRNA revealed that the loss of survivin correlated with the expression of gamma-H2AX. Meanwhile, celecoxib increased caspase-3 activation and apoptosis. Celecoxib activated the phosphorylation of p38 mitogen-activated protein (MAP) kinase. The phosphorylated proteins of p38 MAP kinase and gamma-H2AX were observed in the apoptotic cells. SB203580, a specific p38 MAP kinase inhibitor, protected the survivin protein expression and decreased the levels of gamma-H2AX and apoptosis in the celecoxib-exposed cells. The blockade of survivin expression increased the celecoxib-induced cytotoxicity; conversely, overexpression of survivin by transfection with a survivin-expressing vector raised the cancer cell proliferation and resisted the celecoxib-induced cell death. Our results provide for the first time that p38 MAP kinase participates in the down-regulation of survivin and subsequently induces the activation of gamma-H2AX for mediating apoptosis following treatment with celecoxib in human colorectal cancer cells.
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PMID:Activation of p38 mitogen-activated protein kinase by celecoxib oppositely regulates survivin and gamma-H2AX in human colorectal cancer cells. 1754 Apr 26

Protein kinase C (PKC) plays a critical role in diseases such as cancer, stroke, and cardiac ischemia and participates in a variety of signal transduction pathways including apoptosis, cell proliferation, and tumor suppression. Here, we demonstrate that PKCdelta is proteolytically cleaved and translocated to the nucleus in a time-dependent manner on treatment of desferroxamine (DFO), a hypoxia-mimetic agent. Specific knockdown of the endogenous PKCdelta by RNAi (sh-PKCdelta) or expression of the kinase-dead (Lys376Arg) mutant of PKCdelta (PKCdeltaKD) conferred modulation on the cellular adaptive responses to DFO treatment. Notably, the time-dependent accumulation of DFO-induced phosphorylation of Ser-139-H2AX (gamma-H2AX), a hallmark for DNA damage, was altered by sh-PKCdelta, and sh-PKCdelta completely abrogated the activation of caspase-3 in DFO-treated cells. Expression of Lys376Arg-mutated PKCdelta-enhanced green fluorescent protein (EGFP) appears to abrogate DFO/hypoxia-induced activation of endogenous PKCdelta and caspase-3, suggesting that PKCdeltaKD-EGFP serves a dominant-negative function. Additionally, DFO treatment also led to the activation of Chk1, p53, and Akt, where DFO-induced activation of p53, Chk1, and Akt occurred in both PKCdelta-dependent and -independent manners. In summary, these findings suggest that the activation of a PKCdelta-mediated signaling network is one of the critical contributing factors involved in fine-tuning of the DNA damage response to DFO treatment.
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PMID:Protein kinase Cdelta-dependent and -independent signaling in genotoxic response to treatment of desferroxamine, a hypoxia-mimetic agent. 1756 98

The mechanisms of sodium selenite-induced cell death in cervical carcinoma cells were studied during 24 h of exposure in the HeLa Hep-2 cell line. Selenite at the employed concentrations of 5 and 50 micromol/L produced time- and dose-dependent suppression of DNA synthesis and induced DNA damage which resulted in phosphorylation of histone H2A.X. These effects were influenced by pretreatment of cells with the SOD/catalase mimetic MnTMPyP or glutathione-depleting buthionine sulfoximine, suggesting the significant role of selenite-generated oxidative stress. Following the DNA damage, selenite activated p53-dependent pathway as evidenced by the appearance of phosphorylated p53 and accumulation of p21 in the treated cells. Concomitantly, selenite activated p38 pathway but its effect on JNK was very weak. p53- and p38-dependent signaling led to the accumulation of Bax protein, which was preventable by specific inhibitors of p38 (SB 203580) and p53 (Pifithrin-alpha). Mitochondria in selenite-treated cells changed their dynamics (shape and localization) and released AIF and Smac/Diablo, which initiated caspase-independent apoptosis as confirmed by the caspase-3 activity assay and the low effect of caspase inhibitors z-DEVD-fmk and z-VAD-fmk on cell death. We conclude that selenite induces caspase-independent apoptosis in cervical carcinoma cells mostly by oxidative stress-mediated activation of p53 and p38 pathways, but other selenite-mediated effects, in particular mitochondria-specific ones, are also involved.
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PMID:Selenium activates p53 and p38 pathways and induces caspase-independent cell death in cervical cancer cells. 1761 29

Cepharanthine (CEP), a biscoclaurine (bisbenzylisoquinoline) alkaloid isolated from Stephania cepharantha Hayata, is widely used in Japan to treat variety of diseases. Among a plethora of its biological activities CEP was reported to be able to scavenge radicals and prevent lipid peroxidation. We have recently described the phenomenon of constitutive ATM activation (CAA) and histone H2AX phosphorylation (CHP), the events that report DNA damage induced by endogenously generated radicals, the product of oxidative metabolism in otherwise healthy, untreated cells. The aim of the present study was to explore whether CEP can attenuate the level of CAA and CHP, which would indicate on its ability to protect DNA against endogenous oxidants. The data show that indeed the levels of CAA and CHP in human lymphoblastoid TK6 cells were distinctly lowered upon treatment with CEP. Thus, exposure of cells to 8.3 microM CEP for 4 h led to a reduction of the mean level of CAA and CHP by up to 60% and 50%, respectively. At 1.7 microM CEP the reduction of CAA and CHP after 4 h was 35% and 25%, respectively. Cells exposure to CEP led to a decrease in the level of ondogenous oxidants as measured by the ability to oxidate the fluorescent probe 5-(and-6)-carboxy-2',7'-dichloro-dihydro-fluorescein diacetate. No evidence of apoptosis was seen during the first 8 h of treatment with CEP but initiation of apoptosis (caspase-3 activation) was detected in relatively few (< 10%) cells after exposure to 8.3 microM CEP for 24 h. The data strongly suggest that the scavenging properties of CEP provide a protection of DNA from the radicals generated endogenously during oxidative metabolism.
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PMID:Biscoclaurine alkaloid cepharanthine protects DNA in TK6 lymphoblastoid cells from constitutive oxidative damage. 1827 90

Although the accumulation of 8-oxo-dGTP in DNA is associated with apoptotic cell death and mutagenesis, little is known about the exact mechanism of hMTH1-mediated suppression of oxidative-stress-induced cell death. Therefore, we investigated the regulation of DNA-damage-related apoptosis induced by oxidative stress using control and hMTH1 knockdown cells. Small interfering RNA (siRNA) was used to suppress hMTH1 expression in p53-proficient GM00637 and H460 cells, resulting in a significant increase in apoptotic cell death after H(2)O(2) exposure; however, p53-null, hMTH1-deficient H1299 cells did not exhibit H(2)O(2)-induced apoptosis. In addition, hMTH1-deficient GM00637 and H460 cells showed increased caspase-3/7 activity, cleaved caspase-8, and Noxa expression, and gamma-H2AX formation in response to H(2)O(2). In contrast, the caspase inhibitors, p53-siRNA, and Noxa-siRNA suppressed H(2)O(2)-induced cell death. Moreover, in 8-week (long-term) cultured H460 and H1299 cells, hMTH1 suppression increased cell death, Noxa expression, and gamma-H2AX after H(2)O(2) exposure, compared to 3-week (short-term) cultured cells. These data indicate that hMTH1 plays an important role in protecting cells against H(2)O(2)-induced apoptosis via a Noxa- and caspase-3/7-mediated signaling pathway, thus conferring a survival advantage through the inhibition of oxidative-stress-induced DNA damage.
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PMID:hMTH1 depletion promotes oxidative-stress-induced apoptosis through a Noxa- and caspase-3/7-mediated signaling pathway. 1870 63


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