UNIPROT:P16104 - FACTA Search

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Query: UNIPROT:P16104 (H2AX)
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Paraquat (PQ; 1,1'-dimethyl-4,4'-bipyridinium dichloride) is widely used as a universal herbicide. Although systemic treatment with PQ gives rise to the highest level of the herbicide in the cerebral cortex, our knowledge of its effects in this brain region is very limited. We took advantage of rat cortical cell cultures to analyze how PQ affects cortical neurons. Lactate dehydrogenase (LDH) assay and propidium iodide (PI) staining showed that PQ was cytotoxic to cortical neurons with an IC50 on the third day after treatment of approximately 10 microM. PQ-treated cells had shrunken soma with condensed nuclei and disintegrated dendrites, typical signs of apoptosis. Immunocytochemistry of 8-day in vitro (DIV) cells one day after PQ treatment with anti-phospho-H2AX antibody showed that the average number of punctae per nucleus had increased several-fold, indicating substantial DNA fragmentation. Furthermore, double-staining of 7.5 DIV cultures (50 microM PQ) with PI and an antibody against annexin V (AN), an impermeable plasma protein which specifically binds to phosphatidylserine (PS), showed that the percentages of AN(+)/PI(-) cells had also increased several-fold, pointing to considerable movement of PS from the inner to the outer leaflet of the plasma membrane. Taken together, our data indicate that PQ induces apoptosis in cortical cell cultures.
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PMID:Paraquat induces apoptosis of cultured rat cortical cells. 1505 35

The aim of presented study was to further investigate the concentration-dependent changes induced by isothiocyanate iberin (IBN) in human colon carcinoma Caco-2 cells. The concentrations of IBN below IC(50) value (18 microM, 72 h) triggered the augmentation of mRNA levels for phase II detoxification GSTA1 and UGT1A1 enzymes and antioxidant thioredoxin reductase 1 gene in cells treated for 24 h. In addition a significant increase of acetylated H4 histone was detected. The mRNA induction peaked at IC(50) value and returned to level of control cells at 40 microM concentration of IBN. The cell cycle changes, gamma-H2AX stainability and the increase of phospho-H3 mitotic marker were induced at concentrations above IC(50) value. Appearance of Annexin V positive apoptotic cells and sub-G1 fragmented DNA as well as decrease of mitochondrial transmembrane potential confirmed cytotoxic effect of IBN observed in MTT assay. The predominance of necrotic cells and profound positivity of gamma-H2AX took place at the highest concentration of IBN. Thus, IBN represents the effective member of natural chemopreventive isothiocyanate family with which apoptotic potential can by employed to eliminate tumor cells.
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PMID:Isothiocyanate iberin modulates phase II enzymes, posttranslational modification of histones and inhibits growth of Caco-2 cells by inducing apoptosis. 1716 13

The effect of valproic acid (VA) on protein expression in human T-lymphocytic leukemia cells MOLT-4 was studied. VA is an inhibitor of histonedeacetylases and has a potential use as antitumor agent in leukemia treatment. The authors in this work prove that 4 h long incubation with 2 mmol/l VA causes phosphorylation of histone H2A.X and its colocalization with 53BP1 in nuclear foci. Their co-localization is typical for DSB signaling machinery. These foci were detected in cells after 4 h exposure without increase of Annexin V positive apoptotic cells. Slight increase in apoptosis (Annexin V positivity) after 24 h is accompanied by more intensive increase in phosphorylation of H2A.X and also by formation of nuclear foci containing gammaH2A.X and 53BP1. Treatment of cells with 2 mmol/l VA resulted in induction of apoptosis affecting about 30% of cells after incubation for 72 h. The changes in protein expression were examined after cell incubation with 2 mmol/l VA for 4 h. Proteins were separated by two-dimensional electrophoresis and quantified using image evaluation system. Those exhibiting significant VA-induced abundance alterations were identified by mass spectrometry. Changes in expression of 22 proteins were detected, of which 15 proteins were down-regulated. Proteomic analysis resulted in successful identification of three proteins involving alfa-tubulin 3, tubulin-specific chaperone and heterogeneous nuclear ribonucloprotein F. Expression of seven proteins was up-regulated, including heterogeneous nuclear ribonucloprotein A/B. Identified proteins are related to microtubular system and hnRNP family. Suppression of microtubular proteins and changes of balance among hnRNPs can contribute to proliferation arrest and apoptosis induction.
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PMID:Proteomic analysis of MOLT-4 cells treated by valproic acid. 1742 28

Nucleophosmin (NPM), a multifunctional nucleolar phosphoprotein is dysregulated in human malignancies leading to anti-apoptosis and inhibition of differentiation. We evaluated the precise three-dimensional structure of NPM based on the highly conserved structure of Xenopus NO38 and its requirement to form dimers and pentamers via its N-terminal domain (residues, 1-107). We hypothesized that a small molecular inhibitor (SMI) that could disrupt the formation of dimers would inhibit aberrant NPM function(s) in cancer cells. Molecular modeling, pharmacophore design, in silico screening and interactive docking identified NSC348884 as a putative NPM SMI that disrupts a defined hydrophobic pocket required for oligomerization. NSC348884 inhibited cell proliferation at an IC(50) of 1.7-4.0 muM in distinct cancer cell lines and disrupted NPM oligomer formation by native polyacrylamide gel electrophoresis assay. Treatment of several different cancer cell types with NSC348884 upregulated p53 (increased Ser15 phosphorylation) and induced apoptosis in a dose-dependent manner that correlated with apoptotic markers: H2AX phosphorylation, poly(ADP-ribose) polymerase cleavage and Annexin V labeling. Further, NSC348884 synergized doxorubicin cytotoxicity on cancer cell viability. The data together show that NSC348884 is an SMI of NPM oligomer formation, upregulates p53, induces apoptosis and synergizes with chemotherapy. Hence, an SMI to NPM may be a useful approach to anticancer therapy.
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PMID:NSC348884, a nucleophosmin inhibitor disrupts oligomer formation and induces apoptosis in human cancer cells. 1834 31

A number of methods have been developed to examine the morphologic, biochemical, and molecular changes that happen during the DNA damage response that may ultimately lead to death of cells through various mechanisms that include apoptosis. When cells are exposed to ionizing radiation or chemical DNA-damaging agents, double-stranded DNA breaks (DSB) are generated that rapidly result in the phosphorylation of histone variant H2AX. Because phosphorylation of H2AX at Ser 139 correlates well with each DSB, phospho-H2AX is a sensitive marker to used to examine the DNA damage and its repair. Apoptotic cells are characterized on the basis of their reduced DNA content and morphologic changes, including nuclear condensation, which can be detected by flow cytometry (sub-G1 DNA content), trypan blue, or Hoechst staining. The appearance of phosphatidylserine on the plasma membrane with annexin V-fluorochrome conjugates indicates the changes in plasma membrane composition and function. By combining it with propidium iodide staining, this method can also be used to distinguish early versus late apoptotic or necrotic events. The activation of caspases is another well-known biochemical marker of apoptosis. Finally, the Bcl-2 family of proteins and the mitochondria that play a critical role in DNA damage-induced apoptosis can be examined by translocation of Bax and cytochrome c in and out of mitochondria. In this chapter, we discuss the most commonly used techniques used in our laboratory for determining the DNA damage response leading to apoptosis.
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PMID:DNA damage response and apoptosis. 1860 18

Silver nanoparticles (Ag NPs) have recently received much attention for their possible applications in biotechnology and life sciences. Ag NPs are of interest to defense and engineering programs for new material applications as well as for commercial purposes as an antimicrobial. However, little is known about the genotoxicity of Ag NPs following exposure to mammalian cells. This study was undertaken to examine the DNA damage response to polysaccharide surface functionalized (coated) and non-functionalized (uncoated) Ag NPs in two types of mammalian cells; mouse embryonic stem (mES) cells and mouse embryonic fibroblasts (MEF). Both types of Ag NPs up-regulated the cell cycle checkpoint protein p53 and DNA damage repair proteins Rad51 and phosphorylated-H2AX expression. Furthermore both of them induced cell death as measured by the annexin V protein expression and MTT assay. Our observations also suggested that the different surface chemistry of Ag NPs induce different DNA damage response: coated Ag NPs exhibited more severe damage than uncoated Ag NPs. The results suggest that polysaccharide coated particles are more individually distributed while agglomeration of the uncoated particles limits the surface area availability and access to membrane bound organelles.
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PMID:DNA damage response to different surface chemistry of silver nanoparticles in mammalian cells. 1893 72

Autophagy is a self-eating process to eradicate damaged proteins or organelles in cells. This process begins with formation of a double-membrane structure, called an autophagosome, which can sequester soluble proteins and organelles eventually degraded by lysosomal proteases after fusion with the lysosome. Autophagy was initially identified as a cell survival mechanism under stress conditions such as nutrient deprivation. More recently, it is also considered as type-II programmed cell death. In our recent report, we observed that overexpression of TrkA caused massive cell death via both apoptosis and autophagy. Overexpression of TrkA abated catalase activity and subsequently resulted in the production of a large amount of reactive oxygen species in cells. These consequences led to autophagic cell death. The autophagic cell death in TrkA-overexpressing cells was validated by GFP-LC3 dot formation, production of autophagosomes or acidic vacuoles, LC3 lipidation, and depletion of autopahgy-related genes. In addition, we also observed some evidence for apoptosis in TrkA-expressing cells. Many cells expressing TrkA exhibited annexin V-positive staining, activation of caspase-7 and BAX. Moreover, TrkA activated the JNK pathway, leading to phosphorylation of H2AX. In this report, we suggest that two cell death mechanisms occur simultaneously and interlink with each other. The JNK-calpain pathway might be a central process to mediate the two processes in TrkA-overexpressing cells, although further study still remains to prove the interplay between autophagy and apoptosis.
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PMID:Interplay between autophagy and apoptosis in TrkA-induced cell death. 1911 84

We tested several classes of antioxidant manganese compounds for radioprotective effects using human lymphoblastoid cells: six porphyrins, three salens, and two cyclic polyamines. Radioprotection was evaluated by seven assays: XTT, annexin V and propidium iodide flow cytometry analysis, gamma-H2AX immunofluorescence, the neutral comet assay, dichlorofluorescein and dihydroethidium staining, resazurin, and colony survival assay. Two compounds were most effective in protecting wild-type and A-T cells against radiation-induced damage: MnMx-2-PyP-Calbio (a mixture of differently N-methylated MnT-2-PyP+ from Calbiochem) and MnTnHex-2-PyP. MnTnHex-2-PyP protected WT cells against radiation-induced apoptosis by 58% (p = 0.04), using XTT, and A-T cells by 39% (p = 0.01), using annexin V and propidium iodide staining. MnTnHex-2-PyP protected WT cells against DNA damage by 57% (p = 0.005), using gamma-H2AX immunofluorescence, and by 30% (p < 0.01), using neutral comet assay. MnTnHex-2-PyP is more lipophilic than MnMx-2-PyP-Calbio and is also >10-fold more SOD-active; consequently it is >50-fold more potent as a radioprotectant, as supported by six of the tests employed in this study. Thus, lipophilicity and antioxidant potency correlated with the magnitude of the beneficial radioprotectant effects observed. Our results identify a new class of porphyrinic radioprotectants for the general and radiosensitive populations and may also provide a new option for treating A-T patients.
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PMID:Radioprotective effects of manganese-containing superoxide dismutase mimics on ataxia-telangiectasia cells. 1938 72

The topoisomerase-I (topo-I) inhibitor topotecan, derivative of camptothecin, is the only registered drug for relapsed small cell lung cancer (SCLC). The histone deacetylase inhibitor vorinostat has shown preclinical and clinical antitumor activities in hematologic malignancies and solid tumors, including SCLC, and has recently been approved for the treatment of cutaneous T-cell lymphomas. In this study, we analyzed the antitumor effect of vorinostat combined with topotecan or camptothecin in topo-I inhibitor-sensitive H209 and inhibitor-resistant H526 SCLC cells. Simultaneous or sequential exposure (24 h delay) to either agent resulted in strong synergistic cytotoxic effect in both cell lines, as shown by calculating combination index, and confirmed by growth in soft agar. Combination treatments increased S-phase cell cycle arrest paralleled by apoptosis as measured by hypodiploid peak formation, Annexin V binding, DNA fragmentation, and mitochondria destruction. The apoptotic process was triggered by a caspase-dependent mechanism and can be ascribed to the phosphorylation of H2AX, a reporter of DNA double-strand breaks. These effects were paralleled by an increase of topo-I/DNA covalent complexes induced by combination treatment and suggest a potentiation by vorinostat of topotecan-induced DNA damage. Finally, oxidative injury played a significant functional role in the observed enhanced lethality because coadministration of the antioxidant N-acetyl-l-cysteine blocked reactive oxygen species generation, apoptosis, and mitochondria destruction induced by the vorinostat/topotecan combination. To our knowledge, this is the first demonstration of a synergistic antitumor effect between topotecan and vorinostat in SCLC. Because no well-established treatment is available for recurrent SCLC patients, our results indicate that this drug combination should be explored clinically.
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PMID:Synergistic antitumor effect between vorinostat and topotecan in small cell lung cancer cells is mediated by generation of reactive oxygen species and DNA damage-induced apoptosis. 1988 47

Bromate (BrO(3)(-)) is a drinking water disinfection by-product (DBP) that induces renal cell death via DNA damage-dependent and -independent mechanisms. Drinking water contains other DBPs in addition to BrO(3)(-). We tested the effect of two of these, sodium chlorite (NaClO(2)) and bromochloroacetic acid (BCAA), on BrO(3)(-) cytotoxicity in normal rat kidney (NRK) cells. NaClO(2) and BCAA alone induced cytotoxicity at concentrations of over 20ppm, while BrO(3)(-) was only moderately cytotoxic at concentrations of 200ppm. Combining BrO(3)(-) with NaClO(2) or BCAA alone enhanced cytotoxicity 1.5-4 fold. Exposing cells to all three compounds induced synergistic-like increases in cytotoxicity. This effect did not correlate to increases in reactive oxygen species (ROS), even though all three compounds induced ROS formation alone. NaClO(2), but not BCAA, increased BrO(3)(-)-mediated DNA damage as measured by 8-hydroxydeoxyguanosine (8-OHdG) staining. In addition, NaClO(2), but not BCAA, decreased BrO(3)(-)-induced G2/M cell cycle arrest. Both compounds increased apoptosis in the presence of BrO(3)(-) as assessed by annexin V, PI, and DAPI staining. This is in contrast to BrO(3)(-) treatment alone, which induced necrosis. Immunoblot analysis showed that both NaClO(2) and BCAA increased p38 activation; however, consistent with 8-OHdG staining, only NaClO(2) increased BrO(3)(-)-induced histone H2AX phosphorylation, a marker of DNA damage. In contrast, BCAA, but not NaClO(2), increased BrO(3)(-)-induced phosphorylation of p53. These data support the novel finding that mixtures of DBPs increase BrO(3)(-)-induced renal cell death by DNA-dependent and -independent mechanisms, and could alter how the risk of these DBPs towards humans is assessed.
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PMID:The synergistic effect of sodium chlorite and bromochloroacetic acid on BrO3(-)-induced renal cell death. 2186 35

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