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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)
The cytotoxicity of a class of compounds related to the
topoisomerase
-II poison amsacrine was investigated against plateau-phase murine Lewis lung carcinoma cells (LLTC), HCT-8 human colon carcinoma cells and other cell lines. Methyl N-[4-(9-acridinylamino)-2-methoxy-phenyl]carbamate hydrochloride and the corresponding demethoxy compound, which contain a methylcarbamate instead of the methylsulphonylamino group, manifested relatively high cytotoxic activity against plateau-phase cells as measured by clonogenic survival. The concentration of drug required for a given cytotoxic effect on plateau-phase cells was about 2 times higher than that required for an equitoxic effect on actively proliferating cells. In contrast, at least 5 times more amsacrine, doxorubicin or etoposide was needed for an equitoxic effect on plateau-phase cells. Cells taken directly from subcutaneous LLTC tumours and exposed to drugs displayed the same differential drug sensitivity to the carbamate compounds, suggesting that the plateau-phase cells provide an appropriate model for cells growing in vivo. The greater cytotoxicity of the carbamate drugs was shown to depend critically on the provision of an energy source such as glucose, suggesting that nutrient starvation both in plateau-phase cells and in tumours induced a glucose-sensitive resistance mechanism. It is suggested that the carbamate analogues of amsacrine recognize a form of
topoisomerase
II, possibly
topoisomerase II beta
, the activity of which increases relative to that of topoisomerase II alpha in non-cycling cells, and might be used to devise new strategies for the treatment of solid tumours.
...
PMID:Novel carbamate analogues of amsacrine with activity against non-cycling murine and human tumour cells. 819 67
We have produced two murine monoclonal antibodies (SWT3D1 and SWR1C2) to a recombinant polypeptide corresponding to the carboxyl-terminal one-third (amino acid 854-amino acid 1447) of human topoisomerase II alpha. Each antibody is able to recognize intact human
topoisomerase
II using immunoblotting and enzyme-linked immunosorbent assay (ELISA) techniques. Data is presented demonstrating that the antibodies bind specifically to topoisomerase II alpha but do not interact with
topoisomerase II beta
. The monoclonal antibodies do not recognize murine or calf thymus
topoisomerase
II indicating that each may bind exclusively to the human enzyme. The
topoisomerase
II binding sites for each monoclonal antibody have been compared in a competition ELISA. The SWT3D1 antibody had no significant effect on the binding efficiency of biotinylated SWR1C2 antibody. Although SWR1C2 was capable of inhibiting the binding of biotinylated SWT3D1, this only occurred at concentrations approximately 1000-fold higher than those required of SWT3D1 to block binding of itself. These results suggest that SWT3D1 and SWR1C2 do not recognize identical epitopes on
topoisomerase
II.
...
PMID:Isolation and characterization of monoclonal antibodies to a recombinant human topoisomerase II polypeptide. 824 17
Anion-exchange chromatography of partially purified human HL-60
topoisomerase
II resolves the known alpha (170 kDa) and beta (180 kDa) isoenzymes at 150 mM NaCl and 230 mM NaCl, respectively. An additional
topoisomerase
II fraction was eluted by > 300 mM NaCl. It could be identified by Western blotting as a late-eluting variant of topoisomerase II alpha, which is functionally altered as compared to the early-eluting form, having the following properties: a shift in the catalytic optimum to pH 9; increased stability in DNA complex formation; approximately 100-fold resistance to orthovanadate; approximately 1000-fold resistance to the cytostatic substances N-[4-(9-acridinylamino)-3-methoxyphenyl]-methanesulphonamide (amsacrine) and the podophyllotoxin etoposide (VP 16). 80% of the late-eluting topoisomerase II alpha could be captured by SDS on calf thymus DNA without further enhancement by drugs. In contrast, the early-eluting topoisomerase II alpha exhibits 10% complex formation with SDS alone, and an increase to 90% complex formation in the presence of drugs. A HL-60 subline (HL-60/R), approximately 1000-fold resistant to etoposide and amsacrine, has equivalent proportions of topoisomerase II alpha and
topoisomerase II beta
and similar levels of both isoenzymes, as compared to the drug-sensitive HL-60/WT cells. However, determination of the cellular levels of the early-eluting and late-eluting forms of topoisomerase II alpha revealed that the HL-60/R cell line contains approximately 80% of the late-eluting topoisomerase II alpha, whereas the sensitive HL-60/WT cell line contains only 15-20% of this form. The nuclear distribution of the two forms also differs. Sensitive HL-60/WT cells show a diffuse nuclear distribution but in resistant cells the distribution is localized in the nucleoli. Apparently two functionally distinct subforms of topoisomerase II alpha coexist in drug-sensitive and drug-resistant HL-60 cells and changes in their relative levels affect the cellular sensitivity to
topoisomerase
-II-targeting drugs.
...
PMID:A drug-resistant variant of topoisomerase II alpha in human HL-60 cells exhibits alterations in catalytic pH optimum, DNA binding and sub-nuclear distribution. 826 48
Monoclonal antibodies raised against DNA topoisomerase I and against topoisomerase II alpha and beta isoforms, which have been previously demonstrated to be highly specific and capable of detecting cell cycle-related variations of the
topoisomerase
II isoforms (Negri et al., 1992, Exp. Cell Res. 200, 452-459), have been utilized for a fine subcellular localization. Immunocytochemistry by confocal and electron microscopy have been used for a topological and quantitative evaluation of the fine distribution of the different topoisomerases in HeLa and K562 cells. Topoisomerase I and topoisomerase II alpha are present both in the nucleoplasm and in the nucleolus, though at different relative ratios, while
topoisomerase II beta
is exclusively present at the nucleolar level. This is further confirmed by immunoblotting and immunocytochemical quantitative evaluations performed on purified nuclear matrix fractions obtained from K562 cells. In fact, the amount of topoisomerase I and topoisomerase II alpha present in the whole cell nuclei is partly lost in isolated nuclei but, while topoisomerase I is further significantly reduced in nuclear matrix preparations, the topoisomerase II alpha content is only slightly decreased. On the other hand, the great majority of
topoisomerase II beta
is retained in the nuclear matrix and can be detected exclusively in association with the nucleolar remnant. These results are consistent with specific functional roles hypothesized for the different
topoisomerase
types.
...
PMID:Discrete localization of different DNA topoisomerases in HeLa and K562 cell nuclei and subnuclear fractions. 829 28
There is accumulating evidence that both type I and type II DNA-topoisomerases play a key role in cellular differentiation. Human HL-60 leukemia cells can be induced to monocytic or granulocytic differentiation with various compounds; amongst them camptothecin, a topoisomerase I inhibitor and VP-16, VM-26 and mitoxantrone, all potent
topoisomerase
II inhibitors. During HL-60 cell differentiation topoisomerase I activity increases and
topoisomerase
II activity decreases. The two isoenzymes topoisomerase II alpha and
topoisomerase II beta
seem to have different physiological functions in highly proliferating cells, G0 cells and differentiated cells as their expression is regulated differently. In concentrations sublethal to undifferentiated cells, m-AMSA, also a potent
topoisomerase
II inhibitor, is able to prevent DMSO-induced granulocytic HL-60 cell differentiation. In drug-sensitive cells derived from several sources (mouse erythroleukemia, human gastric carcinoma, human leukemia), we found a functional heterogeneity of
topoisomerase
activity which is altered specifically during cellular differentiation. The isoactivities can be separated by their different pH and salt requirements and they exhibit different sensitivity to
topoisomerase
II inhibiting drugs. Functional heterogeneity of topoisomerases seems to be a prerequisite to high drug sensitivity of the cells, since drug-resistant sublines in our experiments do not exhibit this heterogeneity. We propose that the
topoisomerase
II inhibiting drugs which are able to induce differentiation, namely the epipodophyllotoxines VP-16 and VM-26, inhibit subfractions of the
topoisomerase
II pool which are necessary to maintain the undifferentiated status of the cells. These drugs induce differentiation in concentrations 10-100-fold below the lethal dose, the concentration must be sufficient to inhibit
topoisomerase
II but well below the concentration to induce the cleavable complex. This might be the reason that anthracyclines with a high DNA binding affinity have low differentiation-inducing capacity.
...
PMID:Correlation between the DNA-binding affinity of topoisomerase inhibiting drugs and their capacity to induce hematopoetic cell differentiation. 838 90
cDNA segments for
DNA topoisomerase II
were amplified from rat brain RNA after reverse transcription by the polymerase chain reaction, using degenerate oligonucleotide primers deduced from the conserved regions of
topoisomerase
II of higher eukaryotes. The cDNA product from a successful amplification was homogeneous in length but heterogeneous in sequence. Restriction mapping of the cloned cDNA fragments revealed that they consisted of two distinct sequence groups. DNA sequencing of representative clones from each group, designated A and B, showed that they are highly homologous to cDNAs of human
topoisomerase
II isoforms, alpha and beta, respectively. Northern blot analysis indicated that the transcript level for rat topoisomerase II alpha was high in embryonic brain and in the cerebellum of 2-day newborns, followed by rapid decrease to a undetectable level at 4 weeks after birth. In contrast, rat
topoisomerase II beta
transcript was present throughout the embryonic and postnatal stages. In the developing cerebellum, cells expressing topoisomerase II alpha were confirmed exclusively to the outer mitotic zone of the external granular layer, whereas the transcript of
topoisomerase II beta
was detected over the entire cortical region. These results clearly indicate that the isoform alpha is expressed only in proliferating cells. The differential expression of
topoisomerase
II isozymes was also observed among developed tissues. Therefore, the isozymes are most likely to be involved in the following different physiological processes: topoisomerase II alpha in cell proliferation, and
topoisomerase II beta
in some processes unrelated to cell proliferation.
...
PMID:Molecular cloning of partial cDNAs for rat DNA topoisomerase II isoforms and their differential expression in brain development. 839 28
Topoisomerase II is a key target for many anti-cancer drugs used to treat breast cancer. In human cells there are two closely related, but differentially expressed,
topoisomerase
II isoforms, designated topoisomerase II alpha and beta. Here, we report the production of a new polyclonal antibody raised against a fragment of the C-terminal domain of the 180 kDa form of
topoisomerase
II (the beta isoform), which does not cross-react with the 170 kDa form (the alpha isoform). Using this antibody, together with a polyclonal antibody specific for the 170 kDa isoform of
topoisomerase
II, we have examined the relationship between the sensitivity of a panel of human breast cancer cell lines to different classes of
topoisomerase
II inhibitors and cellular levels of the topoisomerase II alpha and beta proteins. We found that sensitivity to amsacrine showed a correlation with the level of expression of topoisomerase II alpha protein, and that sensitivity to etoposide showed a similar correlation with the level of expression of
topoisomerase II beta
protein. There was also a relationship between sensitivity of these cell lines to mitoxantrone and the cellular level of both isoforms of
topoisomerase
II. No relationship was found between the level of mRNA for topoisomerase II alpha or beta, and either sensitivity of breast cancer cell lines to
topoisomerase
II inhibitors or the level of
topoisomerase
II protein expression.
...
PMID:Relationship between expression of topoisomerase II isoforms and intrinsic sensitivity to topoisomerase II inhibitors in breast cancer cell lines. 851 59
Topoisomerase II is a key target for several anti-cancer drugs used for breast cancer therapy, including doxorubicin, epirubicin and mitoxantrone. Two isoforms of
topoisomerase
II (alpha and beta) have been described in human cells which differ in their subcellular localisation, biochemical properties and susceptibility to inhibition by anti-cancer drugs. The relative level of expression of the alpha and beta isoforms may contribute to the degree of tumour responsiveness to different chemotherapeutic agents. To assess the relationship between expression of
topoisomerase
II isoforms and established prognostic factors and pathological variables, 56 primary breast tumour samples were studied. The expression of the two
topoisomerase
II genes was apparently not co-ordinately regulated in these tissue samples. There was no relationship between any of the commonly used pathological variables [tumour size, lymph node status, S-phase fraction (SPF)] and the level of expression of
topoisomerase II beta
mRNA. However, high topoisomerase II alpha gene expression was significantly associated with a high SPF (sign-rank test; P = 0.01). Moreover, the ratio of mRNA levels for topoisomerase II alpha and beta showed a stronger relationship to SPF (median raito 0.62 for tumours with SPF < 10, and 1.64 for SPF > 10; P = 0.0021, sign-rank test). As expected from previous studies, an SPF > 10 was associated with poor overall survival (P = 0.01). Immunohistochemical analysis revealed that
topoisomerase II beta
was widely distributed ( > 90% positive tumour cells), but that topoisomerase II alpha expression was less widely expressed, with a pattern of expression similar to that of the proliferation-dependent antigen recognised by Ki67. Because
topoisomerase
II gene expression showed a log-normal distribution, log-transformed data were used in multivariate analysis of relapse-free survival. This showed that lymph node status and
topoisomerase II beta
mRNA expression were the only significant survival factors (P = 0.001 and 0.05, respectively, with relative risks of 1.3 and 1.8). These results indicate that topoisomerase II alpha, but not beta, expression is dependent upon cellular proliferation status, but that the more widely expressed
topoisomerase II beta
protein may play a significant role as a target for anti-tumour therapy.
...
PMID:Differential expression of the topoisomerase II alpha and beta genes in human breast cancers. 866 22
We present the first analysis of the sites of expression of
DNA topoisomerase II
alpha and II beta mRNAs in human foetal tissues by in situ hybridisation, using 35S-radiolabelled probes. This revealed differential localisation of topoisomerase II alpha and II beta mRNAs in a range of foetal organs, including foetal kidney (developing structures within the neogenic zone), brain (cortical layers), small intestine (crypt epithelium and muscle), liver (hepatocytes), lung (smooth muscle, and epithelium in the lining of primitive lung buds) and placenta (trophoblastic epithelium). The intensity of expression of topoisomerase II alpha mRNA appeared higher than that of
topoisomerase II beta
, although
topoisomerase II beta
mRNA was expressed in a broader range of cell types. The distinct patterns of expression of topoisomerase II alpha and beta mRNAs indicate differential regulation of these genes, suggesting that the two isoforms may play important but different roles in foetal development, with topoisomerase II alpha being expressed most strongly in zones of proliferation.
...
PMID:Analysis of foetal expression sites of human type II DNA topoisomerase alpha and beta mRNAs by in situ hybridisation. 867 10
DNA topoisomerase II
is a nuclear enzyme essential for chromosome dynamics and DNA metabolism. In mammalian cells, two genetically and biochemically distinct
topoisomerase
II forms exist, which are designated topoisomerase II alpha and
topoisomerase II beta
. In our studies of human
topoisomerase
II, we have found that a substantial fraction of the enzyme exists as alpha/beta heterodimers in HeLa cells. The ability to form heterodimers was verified when human topoisomerases II alpha and II beta were coexpressed in yeast and investigated in a dimerization assay. Analysis of purified heterodimers shows that these enzymes maintain
topoisomerase
II specific catalytic activities. The natural existence of an active heterodimeric subclass of
topoisomerase
II merits attention whenever topoisomerases II alpha and II beta function, localization, and cell cycle regulation are investigated.
...
PMID:Active heterodimers are formed from human DNA topoisomerase II alpha and II beta isoforms. 871 Aug 63
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