Gene/Protein
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Enzyme
Compound
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Target Concepts:
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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)
N-[2-(Dimethylamino)ethyl]acridine-4-carboxamide (NSC 601316) is a DNA intercalating experimental antitumour agent which is curative against the Lewis lung carcinoma in mice. Its action has been compared with amsacrine, its inactive isomer oAMSA, the solid tumour active derivative CI-921 (NSC 343499), a C-6 methylene chain-linked bisacridine (NSC 210733), 9-aminoacridine and quinacrine. All compounds inhibited the unknotting of phage P4 DNA by
topoisomerase
II in nuclear extracts prepared from L1210 cells. NSC 601316 inhibited growth of cultured L1210, P388, P/AMSA (P388 resistant to amsacrine) and P/ACTD (resistant to actinomycin D) cell lines at concentrations of 87, 150, 2020 and 150 nM respectively.
A 1
h drug exposure to 0.85 microM NSC 601316 killed 50% of L1210 cells. L1210 cells treated for 1 h with NSC 601316 accumulated DNA breaks and protein-DNA cross-links. There was a good correlation between DNA breakage and cytotoxicity, but the relationship between drug concentration and number of protein-DNA cross-links was non-linear and differed from that of amsacrine and CI-921. There was also a positive correlation between the degree of cross-resistance of P/AMSA cells (which have altered
topoisomerase
II function) and ability to induce DNA breakage or protein-DNA complexes. The results suggest that
topoisomerase
II is the target of action of NSC 601316.
...
PMID:Cell line selectivity and DNA breakage properties of the antitumour agent N-[2-(dimethylamino)ethyl]acridine-4-carboxamide: role of DNA topoisomerase II. 285 Jan 93
The mechanism by which etoposide, a
topoisomerase
II inhibitor, killed replicating mouse L929 fibroblasts was investigated. Etoposide at 10 microM killed 70% of the cells within 4 days, a result that was accompanied by DNA fragmentation. A characteristic "ladder" pattern of DNA fragmentation was confirmed by agarose gel electrophoresis. Simultaneous exposure of the cells to 10 microM etoposide plus 1 microM cycloheximide reduced both the extent of cell killing and the fragmentation of DNA. Delayed addition of cycloheximide protected cells only if cycloheximide was added 1-6 hr after exposure to etoposide. When added 6-24 hr after treatment with etoposide, cycloheximide lost the ability to protect cells. Cell growth was completely inhibited by either etoposide or cycloheximide. Furthermore, DNA synthesis was inhibited by either etoposide or cycloheximide within 6 hr. Protein synthesis, however, was not inhibited by etoposide. Thus, the ability of cycloheximide to protect cells correlated with inhibition of protein synthesis, rather than inhibition of DNA synthesis.
A 1
-hr exposure to 2.5 mM N-methyl-N-nitrosourea similarly inhibited DNA synthesis within 6 hr. without affecting protein synthesis. However, no loss of viability accompanied N-methyl-N-nitrosourea treatment. Thus, an imbalance between protein synthesis and DNA synthesis cannot explain the cell killing by etoposide. H-7, a protein kinase C inhibitor, prevented the cell killing and DNA fragmentation, whereas aurintricarboxylic acid, an endonuclease inhibitor, reduced the extent of DNA fragmentation but did not have an effect on cell killing. The data document that the killing of replicating mouse fibroblasts by etoposide represents an example of programmed cell death (apoptosis) that depends on protein synthesis. Although protein synthesis is required during the first 24 hr of exposure to etoposide, cell death is delayed until several days later.
...
PMID:Programmed cell death (apoptosis) of mouse fibroblasts is induced by the topoisomerase II inhibitor etoposide. 796 76
In studies of protein binding to the upstream region of the human proliferation-associated antigen p120 gene, a heterodimer of 52 and 100 kDa proteins was purified from HeLa cells.
A 1
:1 ratio of p52 and p100 was constant throughout the purification. The heterodimer was localized to cell nuclei, as shown by immunofluorescence. The pI values of the p52 and p100 were 7.8 and 8.6 respectively. The peptide sequences obtained for p52 (QSNKTFNLEKQNHTPRKKHQ and PLRGKQLRVRFAAHSASLTVR) and for p100 (PGGPKPGGGPGLSTPGGHPKPPHRGGGEPPRGRQ and GPGPGQSGPKPPIPPPPPHQQ) were not found in the computer databanks. One p52 peptide sequence, PLRGKQLRVRFA, shows considerable sequence similarity to a conserved motif in
topoisomerase
II of multiple species. The p52/100 heterodimer bound to different DNA probes. The binding was competed by poly(dI-dC), sonicated salmon sperm DNA, and circular or linearized plasmid DNA. The optimal DNA binding for the heterodimer was at pH 7-9 with low salt. The DNA-binding subunit of the heterodimer was the p100 polypeptide, as shown by u.v.-cross-linking assays and Southwestern blots.
...
PMID:Purification and characterization of a DNA-binding heterodimer of 52 and 100 kDa from HeLa cells. 843 94
The impact of chromatin topology on the DNA synthetic process was studied in the human squamous-cell carcinoma cell line SQ-20B.
A 1
-h exposure < or = 10 microM VP16 produced an increase in DNA supercoil tension, measured by recording laser light scatter from salt-extracted nuclei. This change was precisely paralleled by a decrease in DNA synthesis. The effects on both DNA supercoiling and DNA synthesis were suppressed at VP16 concentrations between 10 and 20 microM. The changes in DNA supercoiling and synthesis at VP16 concentrations -10 microM were eliminated by coincubation with mimosine, a DNA synthesis initiator poison. We conclude that brief exposure to low concentrations of VP16 disturbs the balance of torsional energy within discrete replicon domains by affecting normal
topoisomerase
II activity at sites of replication initiation. The resultant increase in negative supercoil tension mediates a topologic checkpoint, limiting the initiation of DNA synthesis. Such a checkpoint may be a common pathway for control, both during the normal replicative cycle and subsequent to DNA damage.
...
PMID:Synchronous block in DNA synthesis initiation with change in chromatin topology mediated by VP16. 970 20
Amsacrine is an acridine-derived inhibitor of
topoisomerase
II that intercalates into DNA. We performed a detailed molecular analysis of 6-thioguanine (6-TG)-resistant mutant colonies arising in AS52 cells following Amsacrine treatment. AS52 cells carry a single copy of the bacterial gpt gene, functionally expressed using the SV40 early promoter and stably integrated into the Chinese hamster ovary genome.
A 1
-hr treatment with 0.1 to 0.5 microM Amsacrine was both cytotoxic and mutagenic, resulting in an average mutant frequency (MF) of 143 x 10(6) at 0.5 microM. Fifty independent 6-TG-resistant colonies were isolated for further study. These clones were initially characterised by PCR to estimate the relative proportion of putative point mutants and deletions or rearrangements; then a subset of mutants was further characterised by Southern blotting, Northern blotting, and DNA sequence analysis. Total deletion of the gpt gene sequences was found in 1 (2%) of the mutants, and 7 (14%) of the mutant clones had altered PCR patterns, suggesting complex deletions or rearrangements. The remaining 42 (84%) mutants had a wild-type PCR profile. Of these, 21 mutants were further analysed by Southern blotting. Interestingly, Southern blotting revealed genomic deletions/rearrangements in 12 of 21 mutants with a wild-type PCR profile. These deletions/rearrangements were further shown to affect gpt gene expression. The remaining nine mutants with a wild-type PCR profile were sequenced. Four of these mutants had mutations in the gpt structural gene. Overall, genomic deletions/rearrangements were observed in 12/21 independent mutants subjected to PCR and Southern blotting. Thus, deletions/rearrangements were the most common mutation observed following Amsacrine treatment of AS52 cells.
...
PMID:Amsacrine-induced mutations in AS52 cells. 970 98
Tryprostatin
A 1
and B 2 are indole alkaloid-based fungal products that act in the G2/M phase of the cell cycle. Tryprostatin A and B as well as their two enantiomers and four diastereomers have been synthesized via a common strategy. As a measure of cytotoxicity, these eight stereoisomers were assayed for their growth inhibitory properties in human breast, prostate, and lung cancer cell lines. The ability of the tryprostatins and the tryprostatin stereoisomers to induce
topoisomerase
II-mediated DNA relaxation or to inhibit tubulin polymerization was also examined. Although none of the stereoisomers were significantly active in
topoisomerase
II- or tubulin-based assays, ds2-try B 11 was found to exhibit a cytotoxicity profile more potent than etoposide 3 in the human cancer cell lines examined. In addition, ds2-try B 11 is comprised of an L-tryptophan derivative coupled to a D-proline moiety, the latter stereochemistry of which may enhance the activity of 11 and potential analogues in vivo.
...
PMID:Biological activity of the tryprostatins and their diastereomers on human carcinoma cell lines. 1193 9
Pericosines A-E 1-5 have been isolated from a strain of Periconia byssoides originally separated from the sea hare Aplysia kurodai. Among them, pericosines C 3 and E 5 were separated as enantiomeric mixtures. Their stereostructures, except for compound 1, have been elucidated or identified on the basis of spectroscopic analyses, including 1D and 2D NMR techniques, and X-ray analysis. In addition, conformation for all the compounds has been discussed. Compounds 1-3 exhibited significant growth inhibition against tumour cell lines. Pericosine
A 1
also showed significant in vivo tumour inhibitory activity. In addition, compound inhibited the protein kinase EGFR and
topoisomerase
II.
...
PMID:Pericosines, antitumour metabolites from the sea hare-derived fungus Periconia byssoides. Structures and biological activities. 1804 3
