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Query: EC:5.99.1.3 (
topoisomerase
)
9,911
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Several clinically active anticancer drugs are known to interfere with
DNA topoisomerase II
activity. However, the importance of the individual alpha (170 kDa) and beta (180 kDa) isozymes as targets of
topoisomerase
II-active drugs is not clear. To address this question, human CCRF-CEM leukemia cells were incubated with bromodeoxyuridine, and either the nascent DNA or bulk DNA not undergoing replication was purified by immunoprecipitation with an anti-bromodeoxyuridine antibody. The
topoisomerase
II isozymes that coprecipitated with either the nascent DNA or bulk DNA were analyzed by Western blotting. The alpha isozyme formed complexes with nascent DNA in cells pretreated with either VM-26 or mitoxantrone, while the beta isozyme was only bound to bulk DNA. At moderately cytotoxic concentrations, VM-26 enhanced the binding of topoisomerase II alpha to nascent DNA at least 5.2-fold compared to bulk DNA. However, in VM-26 resistant CEM/VM-1 cells incubated with equitoxic concentrations of VM-26, topoisomerase II alpha complex formation with nascent DNA was decreased at least 5.5-fold compared to bulk DNA. Drug-induced binding of
topoisomerase II beta
with bulk DNA in CEM/VM-1 cells did not correlate with cytotoxicity. Collectively, these results indicate that the formation of VM-26 stabilized complexes of topoisomerase II alpha with nascent DNA are critical to the development of cytotoxicity, and that resistance of CEM/VM-1 cells to VM-26 is related to impaired formation of these complexes. The results also provide indirect evidence that topoisomerase II alpha is involved in DNA, replication.
...
PMID:Formation of topoisomerase II alpha complexes with nascent DNA is related to VM-26-induced cytotoxicity. 897 11
Site-specific DNA cleavage by
topoisomerase
II (
EC 5.99.1.3
) is induced by many antitumour drugs. Although human cells express two genetically distinct
topoisomerase
II isoforms, thus far the role and determinants of drug-induced DNA cleavage have been examined only for alpha. Here we report the first high-resolution study of amsacrine (mAMSA) induced DNA breakage by human
topoisomerase II beta
(overexpressed and purified from yeast) and a direct comparison with the recombinant alpha isoform. DNA cleavage in plasmid pBR322 and SV40 DNA was induced by alpha or beta in the absence or presence of the antitumour agent mAMSA, and sites were mapped using sequencing gel methodology. Low-resolution studies indicated that recombinant human alpha promoted DNA breakage at sites akin to those of beta, although some sites were only cleaved by one enzyme and different intensities were observed at some sites. However, statistical analysis of 70 drug-induced sites for beta and 70 sites for alpha revealed that both isoforms share the same base preferences at 13 positions relative to the enzyme cleavage site, including a very strong preference for A at +1. The result for recombinant alpha isoform is in agreement with previous studies using alpha purified from human cell lines. Thus, alpha and beta proteins apparently form similar ternary complexes with mAMSA and DNA. Previous studies have emphasized the importance of
DNA topoisomerase II
alpha; the results presented here demonstrate that beta is an in vitro target with similar site determinants, strongly suggesting that beta should also be considered a target of mAMSA in vivo.
...
PMID:Amsacrine-promoted DNA cleavage site determinants for the two human DNA topoisomerase II isoforms alpha and beta. 898 29
We report five novel monoclonal antibodies (Ki-S1, Ki-S4, Ki-S6, Ki-S7, and Ki-S8) reactive with a proliferation-related nuclear antigen. In immunoprecipitation and Western blot experiments using crude nuclear extracts, they recognized a protein of 170 kD that, after proteolytic digestion of the immunoprecipitate and sequencing of the resulting peptides, was identified as the alpha-isoform of human
topoisomerase
II. This was confirmed by testing the antibodies on a highly purified enzyme preparation. Crossreactivity with
topoisomerase II beta
was ruled out by testing the antibodies on crude extracts from yeast cells expressing the beta-isoform exclusively. The antibodies bind the antigen with different affinities and at different epitopes, apparently located within the carboxyl third of the enzyme. All five antibodies are suitable for archival material after adequate antigen retrieval, thereby enabling retrospective studies. This report illustrates the tissue and subcellular distribution of the antigen through the cell cycle by immunohistochemistry and confocal fluorescence microscopy. The antibodies will be useful tools in further analysis of morphological and functional aspects of
topoisomerase
II and may serve diagnostic purposes, as well as providing prognostic information in tumor pathology.
...
PMID:Detection of human topoisomerase II alpha in cell lines and tissues: characterization of five novel monoclonal antibodies. 901 14
We show herein that human DNA topoisomerase II beta is functional in yeast. It can complement a yeast temperature-sensitive mutation in
topoisomerase
II. The effect on human
topoisomerase II beta
of a number of
topoisomerase
II inhibitors was analysed in a yeast in vivo system and compared with that of human topoisomerase II alpha and wild-type yeast
topoisomerase
II. A drug permeable yeast strain (JN394 top2-4) was used to analyse the in vivo effects of known anti-
topoisomerase
II agents on human
topoisomerase II beta
transformants. A parallel analysis on human topoisomerase II alpha transformants provides the first in vivo analysis of the responses of yeast bearing the individual isoforms to these drugs. The strain was analysed at 35 degrees C, a non-permissive temperature at which only plasmid-borne
topoisomerase
II is active. A shuttle vector with either human
topoisomerase II beta
, human topoisomerase II alpha or yeast
topoisomerase
II under the control of a GAL1 promoter was used. The key findings were that amsacrine produced comparable levels of cell killing with both alpha and beta, whilst etoposide, doxorubicin and mitoxantrone produced higher degrees of cell killing with alpha than with beta or yeast
topoisomerase
II. Merbarone had the greatest effect on the yeast strain bearing plasmid-borne yeast
topoisomerase
II. Suramin, quercetin and genistein showed little cell killing in this system. This yeast in vivo system provides a powerful way to analyse the effects of anti-
topoisomerase
II agents on transformants bearing the individual human isoforms. This system also provides a means of analysing putative drug-resistance mutations in human
topoisomerase II beta
or to select for drug-resistance mutations in human
topoisomerase II beta
.
...
PMID:Complementation of temperature-sensitive topoisomerase II mutations in Saccharomyces cerevisiae by a human TOP2 beta construct allows the study of topoisomerase II beta inhibitors in yeast. 902 79
In the Chinese hamster lung cell line DC-3F/9-OH-E, made resistant to 9-OH-ellipticine and cross-resistant to other
topoisomerase
II inhibitors, the amount of topoisomerase II alpha is 4-5-fold lower than in the parental DC-3F cells. A mutation in position 1710 of
topoisomerase II beta
cDNA, generating a stop codon, completely abolishes the expression of this isoform in DC-3F/9-OH-E cells. To analyze the contribution of the loss of
topoisomerase II beta
to the resistance phenotype, DC-3F/9-OH-E cells were cotransfected with two plasmids, one conferring the resistance to G418, the other carrying the
topoisomerase II beta
cDNA. Among 200 G418-resistant clones, one was found to contain a
topoisomerase II beta
activity similar to that in the parental cells. These cells constitute an in vivo mammalian model to study the pharmacological role of
topoisomerase II beta
. In the transfected cells, different levels of cleavable complex formation and resistance reversion were observed with each
topoisomerase
II inhibitor examined. This work demonstrates that
topoisomerase II beta
is a pharmacological target for 9-OH-ellipticine, etoposide, or 4'-(9-acridinylamino)methanesulfon-m-anisidide and plays a role in the cytotoxicity of these agents. Furthermore,
topoisomerase II beta
is the preferential target for 4'-(9-acridinylamino)methanesulfon-m-anisidide. The loss of
topoisomerase II beta
activity in the DC-3F/9-OH-E cells is then in part responsible for their resistance to
topoisomerase
II inhibitors.
...
PMID:Role of topoisomerase II beta in the resistance of 9-OH-ellipticine-resistant Chinese hamster fibroblasts to topoisomerase II inhibitors. 933 Oct 91
Selection for in vitro drug resistance can result in a complex phenotype with more than one mechanism of resistance emerging concurrently or sequentially. We examined emerging mechanisms of drug resistance during selection with mitoxantrone in the human myeloma cell line 8226. A novel transport mechanism appeared early in the selection process that was associated with a 10-fold resistance to mitoxantrone in the 8226/MR4 cell line. The reduction in intracellular drug concentration was ATP-dependent and ouabain-insensitive. The 8226/MR4 cell line was 34-fold cross-resistant to the fluorescent aza-anthrapyrazole BBR 3390. The resistance to BBR 3390 coincided with a 50% reduction in intracellular drug concentration. Confocal microscopy using BBR 3390 revealed a 64% decrease in the nuclear:cytoplasmic ratio in the drug-resistant cell line. The reduction in intracellular drug concentration of both mitoxantrone and BBR 3390 was reversed by a novel chemosensitizing agent, fumitremorgin C. In contrast, fumitremorgin C had no effect on resistance to mitoxantrone or BBR 3390 in the P-glycoprotein-positive 8226/DOX6 cell line. Increasing the degree of resistance to mitoxantrone in the 8226 cell line from 10 to 37 times (8226/MR20) did not further reduce the intracellular drug concentration. However, the 8226/MR20 cell line exhibited 88 and 70% reductions in
topoisomerase II beta
and alpha expression, respectively, compared with the parental drug sensitive cell line. This decrease in
topoisomerase
expression and activity was not observed in the low-level drug-resistant, 8226/MR4 cell line. These data demonstrate that low-level mitoxantrone resistance is due to the presence of a novel, energy-dependent drug efflux pump similar to P-glycoprotein and multidrug resistance-associated protein. Reversal of resistance by blocking drug efflux with fumitremorgin C should allow for functional analysis of this novel transporter in cancer cell lines or clinical tumor samples. Increased resistance to mitoxantrone may result from reduced intracellular drug accumulation, altered nuclear/cytoplasmic drug distribution, and alterations in
topoisomerase
II activity.
...
PMID:Multiple mechanisms confer drug resistance to mitoxantrone in the human 8226 myeloma cell line. 1007 Sep 58
A type II
topoisomerase
is essential for decatenating DNA replication products, and it accomplishes this task by passing one DNA duplex through a transient break in a second duplex. The B' domain of
topoisomerase
II contains three highly conserved motifs, EGDSA, PL(R/K)GK(I/L/M)LNVR, and IMTD(Q/A)DXD. We have investigated these motifs in
topoisomerase II beta
by mutagenesis, and report that they play a critical role in establishing the DNA cleavage-religation equilibrium. In addition, the mutations E477Q (EGDSA) and K505E (PLRGKILNVR) increase the optimal magnesium ion concentration for strand passage, without affecting the Mg(2+) dependence of ATP hydrolysis. It is likely that the binding affinity of the magnesium ion(s) specifically required for DNA cleavage has been reduced by these mutations. The crystal structure of yeast topo II indicates that residues E477 and K505 may help to position the three aspartate residues of the IMTD(Q/A)DXD motif for magnesium ion coordination, and we propose two possible locations for the magnesium ion binding site(s). These observations are consistent with a previous model in which the B' domain is positioned such that these acidic residues lie next to the active site tyrosine residue. A magnesium ion bound by these aspartate residues could therefore mediate the DNA cleavage-religation reaction.
...
PMID:Mutagenesis of E477 or K505 in the B' domain of human topoisomerase II beta increases the requirement for magnesium ions during strand passage. 1068
Anthracyclines exert antitumor activity by stimulating site-selective DNA cleavage by
topoisomerase
II (top2). DNA cleavage sites stimulated by two anthracycline analogues, dh-EPI and da-IDA, were investigated at the histone gene cluster of cultured Drosophila Kc cells. The two agents stimulated analogue-specific patterns of double-stranded DNA cleavage in Kc cell chromatin. Analyses of 47 base sequences of dh-EPI sites showed that the analogue largely followed the in vitro selectivity rule, the requirement of (5')TA at 3' ends of cleaved strands. da-IDA was more selective than dh-EPI, and thus fewer sites could be collected. Nevertheless, base sequences were consistent with its in vitro base preferences. DNA cleavage was then studied in vitro with Drosophila and human top2 isoforms. The tested drugs stimulated distinct in vitro patterns that corresponded to the in vivo patterns. Human top2alpha promoted cleavage patterns that were much more similar to those of Drosophila top2 (both in vitro and in vivo) than human
top2beta
. Moreover, da-IDA showed a marked site-dependent preference for human
top2beta
. Thus, DNA site selection in vivo is different for the test anthracyclines, and together with a degree of beta-form specificity, may affect drug activity in human cells.
...
PMID:In vivo site specificity and human isoenzyme selectivity of two topoisomerase II-poisoning anthracyclines. 1091 49
Choroidal melanoma has a high mortality rate and responds poorly to existing chemotherapy, but unexpected ex vivo sensitivity of a subset of these tumours to
topoisomerase
II inhibitors has been noted. Since chemoresistance may be mediated by the molecular phenotype of tumours, immunohistochemistry has been used to study the expression of both isoforms of
topoisomerase
II (alpha and beta) in 29 choroidal melanomas for which chemosensitivity assay data for doxorubicin or mitoxantrone are also available. Of these, eight tumours were
topoisomerase II beta
-positive and 11 were topoisomerase II alpha-positive. Recent studies showing genetic abnormality (often monosomy of chromosome 3) in choroidal melanoma suggest that loss of immunostaining could be due to genomic loss rather than down-regulation of
topoisomerase II beta
in these tumours. There was no convincing excess of anthracycline resistance in the
topoisomerase II beta
-negative group. Addition of topoisomerase II alpha, MDR1 (11/17 positive), LRP (16/28 positive), and MRP (5/29 positive) data in multivariate analysis did not reliably predict sensitivity or resistance. Vincristine chemosensitivity showed no relation to MDR1, LRP or MRP in 18 tumours tested. While it is possible that some tumours which do express
topoisomerase II beta
may respond to anthracyclines, the molecular basis of resistance or sensitivity to anthracyclines or vincristine in uveal melanoma is complex and remains incompletely understood.
...
PMID:Relationship between expression of topoisomerase II isoforms and chemosensitivity in choroidal melanoma. 1100 93
Gastric cancer is poorly-responsive to widely used antitumour drugs, the efficacy of which is thought to be related to the capacity of triggering apoptosis. This process requires a series of gene products including a functional p53 protein. We tested the effects of two
DNA topoisomerase II
poisons, etoposide and doxorubicin, on gastric cancer cell lines with different genetic lesions. We characterised MKN74 and MKN28 cells for p53 gene status and for the expression of p53 and p21 proteins, as well as of topoisomerase II alpha and beta isoforms. After drug treatments, the cells were analysed for drug cytotoxicity, colony forming ability, cell cycle distribution and presence of apoptotic features. Our findings demonstrated that both etoposide and doxorubicin have a potent anti-proliferative effect on gastric cancer cells. Cell death kinetics was different in the two cell lines, MKN74 cells being more sensitive than MKN28 to the drugs. MKN74 cells, although harboring a wt p53 gene, were unable to undergo a massive apoptosis following etoposide treatment. The response of this cell line might be related to the
topoisomerase II beta
isozyme, the expression of which proved to be undetectable.
...
PMID:Effects of topoisomerase II inhibitors on gastric cancer cells characterized by different genetic lesions. 1172 58
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