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)

UCN-01 is a potent inhibitor of the S- and G2-M-phase cell cycle checkpoints by targeting chk1 and possibly chk2 kinases. It has been shown in some, but not all, instances that UCN-01 potentiates the cytotoxicity of DNA-damaging agents selectively in p53-defective cells. We have investigated this concept in HCT116 colon cancer cells treated with the topoisomerase I poison SN-38. SN-38 alone induced a senescence-like sustained G2 arrest without apoptosis. Sequential treatment with SN-38 followed by UCN-01 resulted in enhancement of cytotoxicity by apoptosis assay, whereas the reverse sequence or concurrent treatment did not potentiate apoptosis. Real-time visualization of HCT116 cells labeled with green fluorescent protein-histone 2B or green fluorescent protein-alpha-tubulin revealed that sequential treatment resulted in G2 checkpoint abrogation, and cells entered an aberrant mitosis despite normal assembly of bipolar spindles, resulting in either apoptosis or formation of micronucleated cells. Although p53-null cells were clearly more sensitive than parental HCT116 to undergoing checkpoint abrogation and mitotic death after sequential treatment, this was not accompanied by an increased inhibition of clonogenicity over that induced by SN-38 alone. Conversely, concurrent treatment with SN-38 and UCN-01 resulted in S-phase checkpoint override, an amplified DNA damage response including increased phosphorylation of the DNA double-strand breakage marker H2AX and augmentation of clonogenic inhibition, which was independent of p53. Thus, reported discrepancies in the pharmacology of UCN-01 and the influence of p53 status on treatment outcome appears to stem, in part, from the different schedules used, the specific checkpoints examined, and the assays used to assess cytotoxicity. Moreover, checkpoint abrogation and subsequent apoptosis induced by UCN-01 do not necessarily correlate with reproductive cell death.
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PMID:Potentiation of cytotoxicity of topoisomerase i poison by concurrent and sequential treatment with the checkpoint inhibitor UCN-01 involves disparate mechanisms resulting in either p53-independent clonogenic suppression or p53-dependent mitotic catastrophe. 1537 78

Histone deacetylase inhibitors represent a promising new class of anticancer agents. In the current investigation, we examined the activity of PXD101, a potent histone deacetylase inhibitor, used alone or in combination with clinically relevant chemotherapeutics (docetaxel, paclitaxel, and carboplatin), in preclinical in vitro and in vivo models of ovarian cancer. In vitro activity was examined in ovarian cancer and multidrug-resistant cell lines grown in monolayer culture, and in primary clinical ovarian cancer specimens grown in three-dimensional organoid culture. PXD101 was found to inhibit in vitro cancer cell growth at sub- to low micromolar IC(50) potency, exhibited synergistic activity when used in combination with relevant chemotherapeutics, and effectively inhibited the growth of multidrug-resistant cells. In vivo, PXD101 displayed single-agent antitumor activity on human A2780 ovarian cancer s.c. xenografts which was enhanced via combination therapy with carboplatin. In support of these findings, PXD101 was shown to increase the acetylation of alpha-tubulin induced by docetaxel and the phosphorylation of H2AX induced by carboplatin. Taken together, these results support the clinical evaluation of PXD101 used alone or in combination therapy for the treatment of ovarian cancer.
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PMID:Activity of PXD101, a histone deacetylase inhibitor, in preclinical ovarian cancer studies. 1692 30

We observed a 53% response rate in non-small cell lung cancer (NSCLC) patients treated with vorinostat plus paclitaxel/carboplatin in a Phase I trial. Studies were undertaken to investigate the mechanism (s) underlying this activity. Growth inhibition was assessed in NSCLC cells by MTT assay after 72 hr of continuous drug exposure. Vorinostat (1 microM) inhibited growth by: 17% +/- 7% in A549, 28% +/- 6% in 128-88T, 39% +/- 8% in Calu1 and 41% +/- 7% in 201T cells. Vorinostat addition to carboplatin or paclitaxel led to significantly greater growth inhibition than chemotherapy alone in all 4 cell lines. Vorinostat (1 microM) synergistically increased the growth inhibitory effects of carboplatin/paclitaxel in 128-88T cells. When colony formation was measured after drug withdrawal, vorinostat significantly increased the effects of carboplatin but not paclitaxel. The % colony formation was control 100%; 1 microM vorinostat, 83% +/- 10%; 5 microM carboplatin, 41% +/- 11%; carboplatin/vorinostat, 8% +/- 4%; 2 nM paclitaxel, 53% +/- 11%; paclitaxel/vorinostat, 46% +/- 21%. In A549 and 128-88T, vorinostat potentiated carboplatin induction of gamma-H2AX (a DNA damage marker) and increased alpha-tubulin acetylation (a marker for stabilized mictrotubules). In A549, combination of vorinostat with paclitaxel resulted in a synergistic increase in alpha-tubulin acetylation, which reversed upon drug washout. We conclude that vorinostat interacts favorably with carboplatin and paclitaxel in NSCLC cells, which may explain the provocative response observed in our clinical trial. This likely involves a vorinostat-mediated irreversible increase in DNA damage in the case of carboplatin and a reversible increase in microtubule stability in the case of paclitaxel.
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PMID:Vorinostat increases carboplatin and paclitaxel activity in non-small-cell lung cancer cells. 1962 89