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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recombinant human tumor necrosis factor (rHTNF) alone had no effect on L929 tumor cells at 100 units/ml for 20 h of continuous exposure. However, under the same conditions, rHTNF markedly enhanced the cytotoxicity of Adriamycin, actinomycin D, 4'-(9-acridinylamino)-methanesulfon-m-anisidide, teniposide (
VM 26
), and etoposide (VP 16), all targeted at DNA topoisomerase II. The rHTNF had a minimally enhancing effect on the cytotoxicity of bleomycin, hydroxyurea, and 1-beta-D-arabinofuranosylcytosine and no effect on the cytotoxicity of cis-platinum, mitomycin C, vincristine, and vinblastine, all chemotherapeutic drugs with dose-related cytotoxic effects on L929 cells but mechanisms of action which do not appear to involve
topoisomerase
II. Treatment with rHTNF first and then
topoisomerase
-targeted drugs yielded no enhanced cytotoxicity, whereas pretreatment with drug followed by rHTNF yielded marked enhancement of cytotoxicity. Topoisomerases have previously been implicated in cell kill phenomena following treatment with certain chemotherapeutic agents [K.M. Tewey, et al., Science (Wash. DC), 226:466-468, 1984]. The data suggest that the lethality to the cell from
topoisomerase
-targeted drug treatment is increased by rHTNF in vitro. We suggest that rHTNF may be a useful adjuvant to this class of drugs which has well-known antitumor activity.
...
PMID:Synergistic enhancement by tumor necrosis factor of in vitro cytotoxicity from chemotherapeutic drugs targeted at DNA topoisomerase II. 243 63
This study demonstrated that agents capable of interacting with the minor groove in nuclear DNA interfere with
topoisomerase
II mediated effects of antitumor drugs such as
VM-26
and m-AMSA. Distamycin, Hoechst 33258, and DAPI were used as agents capable of AT-specific binding in the minor groove of DNA while producing no profound long-range distortion of DNA structure. In intact nuclei from L1210 cells, these minor groove binders inhibited the induction of
topoisomerase
II mediated DNA damage (DNA-protein cross-links and DNA double-strand breaks) by
VM-26
and m-AMSA. The inhibitory effects of distamycin reflected prevention of formation of new lesions but not reversal of preexisting damage. The minor groove binders did not differentiate between lesions induced by an intercalator, m-AMSA, or by a DNA-nonbinding drug,
VM-26
. All three groove binders inhibited DNA breaks more strongly than DNA-protein cross-links. The inhibitory potency correlated with the size of minor groove binders and the size of their DNA-binding sites: distamycin (5 bp) greater than Hoechst 33258 (4 bp) greater than DAPI (3 bp). The results showed that DNA minor groove binders are a new type of modulators of the action of
topoisomerase
II targeted drugs.
...
PMID:DNA minor groove binding agents interfere with topoisomerase II mediated lesions induced by epipodophyllotoxin derivative VM-26 and acridine derivative m-AMSA in nuclei from L1210 cells. 247 76
CHO-Cdr20 cells are 10-20 times more resistant to killing by cadmium than the parental CHO cells. Resistance has been linked to amplification of the metallothionein genes MT-I and MT-II and their coordinate induction by cadmium and other toxic metals. We studied the roles of the nuclear enzymes topoisomerase I and
topoisomerase
II in Cd-induced expression of MT-II. Camptothecin-induced DNA strand breakage, mediated by topoisomerase I in cells, increased by approximately 20% when the resistant cells were incubated first with 50 microM Cd and then with camptothecin. Short DNA fragments were enriched in MT-II-hybridizing sequences, indicating that topoisomerase I-associated breakage was directed in part toward the location of induced gene activity. Ten microM camptothecin inhibited Cd-induced accumulation of MT-II mRNA as well as induced and uninduced RNA synthesis in the resistant cells. These data are consistent with the notion that topoisomerase I participates in most or all forms of RNA synthesis. Topoisomerase II inhibitors which trap cleavable complexes (amsacrine,
VM-26
, VP-16) increased DNA strand breakage at very high concentrations (50-100 microM); the increased breakage appeared to be concentrated near the MT-II gene. This class of inhibitor did not block the accumulation of MT-II message. Novobiocin, a second type of
topoisomerase
II inhibitor blocked transcription at 300 microM. Merbarone, a novel, third type of
topoisomerase
II inhibitor, blocked MT-II transcription at 50-100 microM. The latter two inhibited total RNA synthesis in induced, but not uninduced cells. Thus, it is possible that
topoisomerase
II plays more than one role in transcription and that more than one form of this enzyme is involved.
...
PMID:Evidence for the participation of topoisomerases I and II in cadmium-induced metallothionein expression in Chinese hamster ovary cells. 247 39
Earlier studies have suggested that higher cellular levels of teniposide (
VM-26
) are required for the inhibition of growth in L1210/
VM-26
sublines than in parental L1210 cells. On the basis of this observation, we hypothesized that resistance to
VM-26
, which is partly attributed to multidrug resistance, also resulted in reduced formation of DNA lesions by the drug. In confirmation of this hypothesis, equitoxic concentrations of
VM-26
produced fewer breaks in the DNA of LIa5 microM cells, the prototype L1210/
VM-26
subline, than in that of L1210 cells. Previously, potassium cyanide (KCN) and verapamil were shown to increase the levels of
VM-26
in LIa5 microM but not L1210 cells. These agents also selectively increased the formation of breaks in the DNA of LIa5 microM but not L1210 cells. The DNA unknotting assay with phage P4 DNA indicated equivalent DNA type II
topoisomerase
activity in nuclear extracts of LIa5 microM and L1210 cells. The factor that reduced the formation of breaks in cellular LIa5 microM DNA by
VM-26
provided less protection against equitoxic levels of doxorubicin, to which LIa5 microM cells are cross-resistant.
...
PMID:Reduced formation of lesions in the DNA of a multidrug-resistant L1210 subline selected for teniposide resistance. 253 49
Withangulatin A, a new compound with a known chemical structure and from the antitumor Chinese herb Physalis angulata L, was found to act on
topoisomerase
II to induce
topoisomerase
II-mediated DNA damage in vitro. It has two effective dosage ranges of approximate 0.5 and 20 microM, with about one-third the activity of 20 microM
VM-26
.
...
PMID:A new compound, withangulatin A, promotes type II DNA topoisomerase-mediated DNA damage. 253 41
A matrix-associated region (MAR)-containing fragment has been selected from the library of cloned chicken nuclear matrix-associated DNA fragments. Factors, which determine the specific binding of DNA fragments have been studied. Using
topoisomerase
II-specific inhibitor
VM 26
we established that nuclear matrix-associated
topoisomerase
II interacted with the MAR-containing DNA fragment producing specific cleavage sites on DNA of the fragment.
...
PMID:DNA fragments which specifically bind to isolated nuclear matrix in vitro interact with matrix-associated DNA topoisomerase II. 253 47
Our human T-cell leukemia line, CEM/VM-1, selected for resistance to
VM-26
(teniposide), is cross-resistant to several drugs that interact with
topoisomerase
II, including VP-16 (etoposide), 4'-(9-acridinylamino)methanesulphon-m-anisidide, daunorubicin, and mitoxantrone. However, in contrast to cell lines exhibiting multidrug resistance (MDR) associated with overexpression of P-glycoprotein, this line is not cross-resistant to the Vinca alkaloids, is not impaired in drug accumulation, and does not overexpress the mdrl gene (Cancer Res., 47: 1297, 5455, 1987). More recently we found that nuclear extracts of these cells exhibit decreased
topoisomerase
II catalytic and cleavage activity, compared to the drug-sensitive line (Biochemistry, 1988). These results suggest that an alteration in
topoisomerase
II or a modulator of this enzyme may be responsible for this altered
topoisomerase
II-form of multidrug resistance (at-MDR). In the present work, we studied the somatic cell genetics of at-MDR. We produced hybrid cell lines by polyethylene glycol-mediated fusion of the CEM/VM-1 line with a hypoxanthine-guanine phosphoribosyl transferase-deficient, ouabain-resistant CEM line (CEM.AG1.OU1.5) that exhibits
VM-26
sensitivity. Ten of the hybrid lines that grew in selective medium were randomly chosen for expansion and four were analyzed for both DNA content by flow cytometry and
VM-26
sensitivity in a 72-h growth inhibition assay. The hybrid lines all contained approximately 2x DNA compared to unfused controls, indicating that the fusions were successful. The IC50 for
VM-26
in 3 of the 4 lines was the same as that of the sensitive controls, ranging from 4.7 to 7.4 x 10(-8) M, and another was 76 x 10(-8) M. These data indicate that drug sensitivity was reconstituted by the hybridization procedure. By comparison, the
VM-26
IC50 values in the CEM/VM-1 cells and CEM/VM-1 x CEM/VM-1 control "fusions" were 360 and 750 x 10(-8) M, respectively. To determine whether a
topoisomerase
II-mediated function was reconstituted in the hybrids, we measured drug-stimulated DNA cleavage ("cleavable complex formation"). Using 32P-labeled pBR322 DNA as substrate with nuclear extracts from drug sensitive cells, 100 microM
VM-26
maximally stimulated DNA cleavage by approximately 11-fold compared to no-drug controls.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Genetic characterization of the multidrug-resistant phenotype of VM-26-resistant human leukemic cells. 253 2
The polyamines spermine and spermidine were found to enhance the formation of a stable noncovalent complex between mammalian
topoisomerase
II and DNA. This complex is not associated with DNA strand breaks and forms to a greater extent with supercoiled than with relaxed circular or with linear DNA. Polyamine-induced complex formation is associated with a stimulation of the enzymatic relaxation of DNA supercoils. In these respects, the polyamine-enhanced complex differs from the covalent cleavable complexes stabilized by DNA intercalators such as amsacrine (m-AMSA) or epipodophylotoxins such as teniposide (
VM-26
). In the polyamine-enhanced complex, the
topoisomerase
II may be a donutlike structure topologically bound to the DNA and able to migrate and dissociate from the ends of linear DNA molecules. At relatively high concentrations, spermine (1 mM) enhances
topoisomerase
II induced cleavage at certain sites on the SV40 genome that could have regulatory significance.
...
PMID:Topological complexes between DNA and topoisomerase II and effects of polyamines. 254 Aug 27
Like many intercalative antitumor drugs, the nonintercalative antitumor drug epipodophyllotoxin
VM-26
(teniposide) induces
topoisomerase
II-linked DNA breaks as revealed by cell lysis with a strong protein denaturant such as sodium dodecyl sulfate or alkali. We show that the majority of
topoisomerase
II-linked DNA breaks reflect the formation of reversible
topoisomerase
II-DNA cleavable complexes in drug-treated cells by demonstrating the reversibility of this unusual type of DNA damage at elevated temperatures (e.g. 65 degrees C).
...
PMID:Evidence for the reversibility of cellular DNA lesion induced by mammalian topoisomerase II poisons. 254 30
DNA topoisomerases II are nuclear enzymes that have been identified recently as targets for some of the most active anticancer drugs. Antitumor
topoisomerase
II inhibitors such as teniposide (
VM-26
) produce enzyme-induced DNA cleavage and inhibition of enzyme activity. By adding to such reactions distamycin, a compound whose effects on DNA have been extensively characterized, we investigated the effects of drug binding upon
topoisomerase
II-mediated DNA cleavage induced by
VM-26
. We have found a correspondence between distamycin binding (determined by footprinting analysis) and
topoisomerase
II-mediated cleavage of SV40 DNA (determined by sequencing gel analysis). Distamycin binding potentiated the cleavage of specific sites in the near proximity of distamycin-binding sites (within at least 25 base pairs), which indicates that DNA secondary structure is involved in
topoisomerase
II-DNA interactions. That distamycin potentiated cleavage only at sites that were recognized in the absence of distamycin and suppressed cleavage directly at distamycin-binding sites indicates that
topoisomerase
II recognizes DNA on the basis of primary sequence. In addition, distamycin stimulated
topoisomerase
II-mediated DNA relaxation and antagonized the inhibitory effect of
VM-26
. These results show that the DNA sequence-specific binding of distamycin produces local and propagated effects in the DNA which markedly affect
topoisomerase
II activity.
...
PMID:Mammalian topoisomerase II activity is modulated by the DNA minor groove binder distamycin in simian virus 40 DNA. 254 90
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