Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To search for possible synergy between topoisomerase (topo) II-directed chemotherapeutic agents and topo I-directed agents, IL-60 human progranulocytic leukemia cells were incubated with etoposide in the absence or presence of camptothecin (CPT). Treatment of HL-60 cells for 1 h with 15-20 microM etoposide resulted in the death of 99-99.9% of the cells as assessed by colony formation in soft agar. Unexpectedly, simultaneous incubation with 1 microM CPT increased the survival of etoposide-treated cells as much as 30-fold. Inhibition of etoposide cytotoxicity was observed at CPT concentrations as low as 0.01 microM and was one-half maximal at 0.1 microM. CPT also antagonized the cytotoxicity of 4'-(9-acridinylamino)methanesulfon-M-anisidide and daunorubicin, two structurally unrelated topo II-directed agents. Topotecan, a CPT analogue currently undergoing Phase I clinical trials, had a similar effect. Studies using an alkaline unwinding assay (to measure DNA strand breaks) and Western blotting (to assess formation of covalent adducts involving topo II) revealed that CPT did not alter the ability of etoposide to stabilize topo II-DNA adducts. CPT is a potent inhibitor of both DNA and RNA synthesis. To further assess the mechanism by which CPT diminished the cytotoxicity of topo II-directed agents, inhibitors of DNA synthesis or RNA synthesis were substituted for CPT. Aphidicolin, an inhibitor of replicative DNA polymerases, enhanced the survival of etoposide-treated HL-60 cells less than 3-fold. In contrast, inhibitors of RNA synthesis (cordycepin or 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole) enhanced the survival of etoposide-treated HL-60 cells as much as 20-fold. The potential biological and therapeutic implications of these results are discussed.
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PMID:Antagonism between camptothecin and topoisomerase II-directed chemotherapeutic agents in a human leukemia cell line. 170 67

The mechanism for incorporation of aphidicolin-sensitive DNA polymerase into reconstituting sperm nuclei was studied in a Xenopus egg extract cell-free system. Aphidicolin-sensitive DNA polymerase activity was sedimented along with the light membrane fraction of Xenopus egg extract on a discontinuous sucrose gradient. Treatment of the egg extract with Triton X-100 caused DNA polymerase activity to migrate to a lighter density position at which free proteins were distributed. DNA polymerase activity was incorporated into the reconstituting sperm nuclei from the egg extract, but no nuclear incorporation was observed in nuclei incubated in egg extracts which had been treated with Triton X-100 or sonicated. The incorporation was also prohibited by several different treatments of the egg extract resulting in incomplete assembly of the nuclear membrane on the sperm nuclei. On the other hand, there was no inhibition of nuclear incorporation into the sperm nuclei reconstituting in the extracts which had been depleted of WGA-binding pore complex proteins or which contained a specific inhibitor of topoisomerase II (ICRF-193). In these two cases, the nuclear double-layered membrane assembled normally, although in the former case the sperm nuclei lacked lamina and did not initiate DNA replication, and in the latter case the sperm nuclei did not decondense but initiated DNA replication. Thus, it is concluded that DNA polymerase activity is incorporated into the reconstituting nuclei via the membraneous/particulate fraction of the egg extract simultaneously with nuclear double-layered membrane assembly. The lamina assembly and the transport system via the nuclear envelope pore complex are suggested not to participate in DNA polymerase nuclear incorporation.
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PMID:Aphidicolin-sensitive DNA polymerase is incorporated into the chromatin during nuclear envelope assembly in Xenopus egg extract. 762 44

We have compared the effects of a number of inhibitors including aphidicolin, 2,4-dinitrophenol (DNP) and novobiocin on the in vitro cytotoxicity of several topoisomerase II (topo II)-directed agents, using cultured murine Lewis lung carcinoma cells. These agents comprised amsacrine, CI-921 (9-[(2-methoxy-4-methylsulfonylamino)phenylamino]-N,5-dimethyl-4- acridinecarboxamide isethionate, isethionate, a derivative of amsacrine), DACA (N-[2-(dimethylamino)ethyl]acridine-4-carboxamide dihydrochloride, a new DNA intercalator with high solid tumor activity), daunorubicin, doxorubicin, epirubicin, etoposide, mitoxantrone, and teniposide. Novobiocin, an antibiotic that affects topo II action, reduced the cytotoxic effect of DACA as well as that of amsacrine and doxorubicin, and reduced the extent of G2-phase arrest by DACA. DNP, an uncoupler of mitochondrial respiration, inhibited drug action in a manner similar to that of novobiocin but to a smaller extent. Aphidicolin, a specific inhibitor of DNA polymerase-alpha, reduced the cytotoxic effect of amsacrine, CI-921, etoposide, and teniposide but not that of DACA, daunorubicin, doxorubicin, epirubicin, or mitoxantrone. The immediate effect of each topo II-directed agent on the incorporation of thymidine into DNA was also measured at a drug concentration (D10) that killed 90% of cells. Susceptibility to aphidicolin reversal was strongly correlated with inhibition of thymidine incorporation (r = 0.91; p < or = 0.001). The results suggest that the involvement of DNA replication in the cytotoxic action of topo II-directed agents differs according to the agent used.
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PMID:A comparison of the effects of aphidicolin and other inhibitors on topoisomerase II-directed cytotoxic drugs. 826 Jul 50

Camptothecin is an S-phase-specific anticancer agent that inhibits the activity of the enzyme DNA topoisomerase-I (topo-I). Irreversible DNA double-strand breaks are produced during DNA synthesis in the presence of camptothecin, suggesting that this agent should not be toxic to nondividing cells, such as neurons. Unexpectedly, camptothecin induced significant, dose-dependent cell death of postmitotic rat cortical neurons in vitro; astrocytes were more resistant. Aphidicolin, an inhibitor of DNA polymerase alpha, did not prevent camptothecin-induced neuronal death, while death was prevented by actinomycin D and 5,6-dichloro-1-beta-D-ribofuranosyl benzimidazole as well as cycloheximide and anisomycin, inhibitors of RNA and protein synthesis, respectively. Camptothecin-induced neuronal death was apoptotic, as characterized by chromatin condensation, cytoplasmic shrinking, plasma membrane blebbing, and fragmentation of neurites. DNA fragmentation was also confirmed by the use of the in situ DNA end labeling assay. In addition, aurintricarboxylic acid, an inhibitor of the apoptotic endonuclease, partially protected against camptothecin-induced neuronal death. The toxicity of stereoisomers of a camptothecin analogue was stereospecific, demonstrating that toxicity was a result of inhibition of topo-I. The difference in sensitivity to camptothecin between neurons and astrocytes correlated with their transcriptional activity and level of topo-I protein expression. These data indicate important roles for topo-I in postmitotic neurons and suggest that topo-I inhibitors can induce apoptosis independent of DNA synthesis. We suggest a model based on transcriptionally mediated DNA damage, a novel mechanism of action of topo-I poisons.
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PMID:Induction of neuronal apoptosis by camptothecin, an inhibitor of DNA topoisomerase-I: evidence for cell cycle-independent toxicity. 870 53

Positive results in the in vitro assay for chromosome aberrations sometimes occur with test chemicals that apparently do not react with DNA, being negative in tests for mutation in bacteria, for DNA strand breaks, and for covalent binding to DNA. These chromosome aberrations typically occur over a narrow concentration range at toxic doses, and with mitotic inhibition. Indirect mechanisms, including oxidative damage, cytotoxicity and inhibition of DNA synthesis induced by chemical exposure, may be involved. Understanding when such mechanisms are operating is important in evaluating potential mutagenic hazards, since the effects may occur only above a certain threshold dose. Here, we used two-parameter flow cytometry to assess DNA synthesis inhibition (uptake of bromodeoxyuridine [BrdUrd]) associated with the induction of aberrations in CHO cells by DNA-reactive and non-reactive chemicals, and to follow cell cycle progression. Aphidicolin (APC), a DNA polymerase inhibitor, induces aberrations without reacting with DNA; 50 microM APC suppressed BrdUrd uptake during a 3-h treatment to <10% of control levels. Several new drug candidates induced aberrations concomitant with marked reductions in cell counts at 20 h (to 50-60% of controls) and suppression of BrdUrd uptake (<15% of control). Several non-mutagenic chemicals and a metabolic poison, which induce DNA double strand breaks and chromosome aberrations at toxic dose levels, also suppressed DNA synthesis. In contrast, the alkylating agents 4-nitroquinoline-1-oxide, mitomycin C, methylnitrosourea, ethylnitrosourea, methylmethane sulfonate and ethylmethane sulfonate, and a topoisomerase II inhibitor, etoposide, produced many aberrations at concentrations that were less toxic (cell counts >/=73% of controls) and gave little inhibition of DNA synthesis during treatment (BrdUrd uptake >/=85% of controls), although cell cycle delay was seen following the 3-h treatment. Thus, inhibition of DNA synthesis at the time of treatment is supporting evidence for an indirect mechanism of aberrations, when there is no direct DNA reactivity.
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PMID:DNA synthesis inhibition as an indirect mechanism of chromosome aberrations: comparison of DNA-reactive and non-DNA-reactive clastogens. 968 28

Drug resistant cells often have an increased capacity to repair their DNA after damage by cytotoxic agents. Aphidicolin can inhibit this DNA repair. We describe a study of the effect of aphidicolin to modulate the sensitivity to cytotoxic drugs of blast cells from 13 patients with AML, 11 with de novo disease on presentation and 2 secondary to MDS. Three patients had relapsed following previous therapy and samples were received from 1 patient both on presentation and relapse. Blast cells were exposed to anthracyclines, antimetabolites or etoposide +/- aphidicolin (15 microM) for 48 hours. The MTT assay was used to measure cell survival and the LC50 (concentration of drug required for 50% cell kill) was calculated. Overall, there was a significant increase in sensitivity to ara-C on co-incubation with aphidicolin in 12/14 samples (p = 0.007). The median increase in sensitivity was 3.88-fold (range 1.26- to 80-fold). Interestingly, when patients were grouped according to in vitro sensitivity to ara-C, cells from resistant patients demonstrated the greatest increase in sensitivity (median 14-fold compared to 2-fold for the sensitive group, p = 0.02). Despite the documented evidence for altered DNA repair as a mechanism of resistance to the topoisomerase II inhibitors, we found no significant increase in sensitivity to daunorubicin, doxorubicin or etoposide on co-incubation with aphidicolin. Nevertheless, we believe the unparalleled modulation of ara-C warrants further investigation.
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PMID:Aphidicolin markedly increases the in vitro sensitivity to ara-C of blast cells from patients with AML. 1050 Aug 35

Aminoflavone (5-amino-2,3-fluorophenyl)-6,8-difluoro-7-methyl-4H-1-benzopyran-4-one) (NSC 686288) is a candidate for possible advancement to phase I clinical trial. Aminoflavone has a unique activity profile in the NCI 60 cell lines (COMPARE analysis; http://www.dtp.nci.nih.gov/docs/dtp_search.html), and exhibits potent cellular and animal antitumor activity. To elucidate the mechanism of action of aminoflavone, we studied DNA damage in MCF-7 cells. Aminoflavone induced DNA-protein cross-links (DPC) and DNA single-strand breaks (SSB). Aminoflavone induced high levels of DPC and much lower level of SSB than camptothecin, which induces equal levels of DPC and SSB due to the trapping topoisomerase I-DNA complexes. Accordingly, neither topoisomerase I nor topoisomerase II were detectable in the aminoflavone-induced DPC. Aminoflavone also induced dose- and time-dependent histone H2AX phosphorylation (gamma-H2AX). Gamma-H2AX foci occurred with DPC formation, and like DPC, persisted after aminoflavone removal. Aphidicolin prevented gamma-H2AX formation, suggesting that gamma-H2AX foci correspond to replication-associated DNA double-strand breaks. Accordingly, no gamma-H2AX foci were found in proliferating cell nuclear antigen-negative or in mitotic cells. Bromodeoxyuridine incorporation and fluorescence-activated cell sorting analyses showed DNA synthesis inhibition uniformly throughout the S phase after exposure to aminoflavone. Aminoflavone also induced RPA2 and p53 phosphorylation, and induced p21(Waf1/Cip1) and MDM2, demonstrating S-phase checkpoint activation. These studies suggest that aminoflavone produces replication-dependent DNA lesions and S-phase checkpoint activation following DPC formation. Gamma-H2AX may be a useful clinical marker for monitoring the efficacy of aminoflavone in tumor therapies.
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PMID:DNA-protein cross-links and replication-dependent histone H2AX phosphorylation induced by aminoflavone (NSC 686288), a novel anticancer agent active against human breast cancer cells. 1595 81