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Enzyme
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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)
Streptonigrin
, a nonintercalative antitumor antibiotic, induced mammalian
topoisomerase
II dependent DNA cleavage in vitro. The cleavage activity of streptonigrin was comparable to that of demethylepipodophyllotoxin ethylidene-beta-D-glucoside at a low concentration (less than or equal to 10 microM) but one-third lower at a higher concentration (greater than 250 microM). Exposure of a reaction mixture containing streptonigrin, DNA, and
topoisomerase
II to an elevated temperature (65 degrees C) resulted in substantial reduction in DNA cleavage, suggesting that the mechanism of the
topoisomerase
II dependent DNA cleavage induced by streptonigrin was through the formation of a cleavage complex previously reported for
topoisomerase
II poisons such as 4'-(9-acridinylamino) methanesulfon-m-anisidide and epipodophyllotoxins.
...
PMID:Induction of mammalian DNA topoisomerase II dependent DNA cleavage by antitumor antibiotic streptonigrin. 216 83
Streptonigrin
stimulated unique intensity patterns of
topoisomerase
II-mediated DNA cleavage in agarose and sequencing gels with no similarity to those of doxorubicin, VM-26,4'(9-acridinylamino)-methanesulfon-m-anisidide, genistein, and mitoxantrone. Surprisingly, a statistical analysis of 60 sites stimulated by streptonigrin in SV40 and pBR322 DNAs showed that the drug required the dinucleotide 5'-TA-3' from 2- to 3-positions at the DNA cleavage site.
Streptonigrin
did not intercalate into the double helix; however, a positive value of the reduced linear dichroism indicated that indeed the drug interacted with the DNA. An angle of 45 degrees was found between the major drug and local DNA axes, suggesting a minor groove binding mode. Moreover, a DNA winding assay showed that streptonigrin may tighten the helical twist of DNA, similar to the known minor groove binder distamycin. Drug competition for receptor site binding was then evaluated by drug combination in the cleavage reaction. DNA cleavage intensity patterns were altered only with the streptonigrin/mitoxantrone combination, suggesting that the two compounds may compete for ternary complex formation. The results indicate that streptonigrin may bind to the DNA in a manner similar to that of minor groove binders and that its pharmacophore, possibly different from other
topoisomerase
II inhibitors, may be an important determinant of its unique sequence position specificity.
...
PMID:Unique sequence specificity of topoisomerase II DNA cleavage stimulation and DNA binding mode of streptonigrin. 792 86
The non DNA intercalator streptonigrin was shown to inhibit
topoisomerase
II by stabilizing cleavable complexes (Yamashita et al, Cancer Res. 1990, 50, 5841).
Streptonigrin
-induced
topoisomerase
II cleavage sites were mapped in the c-myc proto-oncogene DNA.
Streptonigrin
induced a unique cleavage pattern. Its cleavage sites were less frequent than those induced by other
topoisomerase
II inhibitors. Strongly preferred bases were found in the middle of
topoisomerase
II DNA stagger, with thymine at position +2 and adenine at position +3, position +1 being the nucleotide covalently linked to
topoisomerase
II. Preference for bases not immediately flanking the cleavage sites has not been reported previously and indicates that a mechanism other than "drug stacking" within the DNA break is taking place with streptonigrin to stabilize cleavable complexes. An alternative model taking into account the unusual DNA binding properties of streptonigrin is proposed.
...
PMID:Streptonigrin-induced topoisomerase II sites exhibit base preferences in the middle of the enzyme stagger. 809 42
The anticancer agent saintopin induces DNA cleavage mediated by both
topoisomerase
(topo) I and topo II in vitro through stabilization of the reversible enzyme-DNA cleavable complex. We established saintopin-resistant cell lines (KB/STP-1 and KB/
STP
-2) from human epidermoid cancer KB cells by stepwise exposure to increasing doses of the drug. KB/STP-1 and KB/
STP
-2 cells showed 12- and 44-fold increases, respectively, in resistance to saintopin relative to that of KB cells. Both saintopin-resistant cell lines showed only small reductions in sensitivity to the topo II inhibitor etoposide but developed marked cross-resistance to the topo I-targeting camptothecin derivative CPT-11 [(4s)-4,11-diethyl-4-hydroxy-9-[(4-piperidinopiperidino)carbony loxy] dione hydrochloride trihydrate] and its active form, SN-38 (7-ethyl-10-hydroxycamptothecin). In contrast, both KB/STP-1 and KB/
STP
-2 cells showed increased collateral sensitivity to cisplatin, a nitrosourea derivative, mitomycin C, and UV light. The protein concentration, activity, and mRNA abundance of both topo I and topo II were similar in KB/STP-1, KB/
STP
-2, and the parental KB cells. There were no significant changes in the drug-stabilized topo-DNA cleavable complex formation in KB and KB/
STP
-2 cells. Two point mutations were detected in topo I cDNA from KB/
STP
-2 cells, but these were also present in KB cells. Topo I mRNA abundance decreased markedly immediately after exposure of KB/
STP
-2 cells to saintopin; no such effects were apparent in KB cells. In contrast, topo II mRNA was not markedly affected by saintopin in either KB or KB/
STP
-2 cells. Treatment with CPT-11 or SN-38 also induced a markedly greater and more persistent reduction in topo I mRNA abundance in KB/
STP
-2 cells than in KB cells. Etoposide had no marked effect on topo I mRNA abundance in either KB/
STP
-2 or KB cells. Topo I mRNA was highly unstable in KB/
STP
-2 cells in comparison to KB cells when incubated with saintopin. This novel regulation of topo I mRNA by topo I-targeting agents could be associated with acquirement of drug resistance to saintopin or SN-38/CPT-11 in KB/
STP
-2 cells.
...
PMID:Drug-induced down-regulation of topoisomerase I in human epidermoid cancer cells resistant to saintopin and camptothecins. 862 10
The immune system is composed of various cells with distinct functions. Thus, highly selective immunomodulators are necessary for artificial regulation of immune reactions. We screened microbial products for such immunomodulators and we identified streptonigrin as a selective suppressor of B-cell proliferation induced by lipopolysaccharide.
Streptonigrin
directly suppressed the late phase of proliferation of B-cells. The inhibition of
topoisomerase
II was implicated as the mechanism of the B-cell-selective suppression. In cultured cell lines, however, streptonigrin preferentially suppressed the growth of an interleukin-3-dependent myeloid cell line rather than B-cell lines. In addition, the treatment with streptonigrin in vivo suppressed T-cells more significantly than B-cells and dramatically reduced the spleen weight. These results suggest that streptonigrin preferentially suppresses myeloid T-cell precursors in vivo.
...
PMID:Immunosuppressive activity of streptonigrin in vitro and in vivo. 870 8
Streptonigrin
(SN, CAS no. 3930-19-6) is an aminoquinone antitumor antibiotic isolated from cultures of Streptomyces flocculus. This compound is a member of a group of antitumor agents which possess the aminoquinone moiety and that includes also mitomycin C, porfiromycin, actinomycin, rifamycin and geldanamycin. Because of the potential use of SN in clinical chemotherapy, the study of its genotoxicity has considerable practical significance.SN inhibits the synthesis of DNA and RNA, causes DNA strand breaks after reduction with NADH, induces unscheduled DNA synthesis and DNA adducts and inhibits
topoisomerase
II. At the chromosome level, this antibiotic causes chromosome damage and increases the frequency of sister-chromatid exchanges.SN cleaves DNA in cell-free systems by a mechanism that involves complexing with metal ions and autoxidation of the quinone moiety to semiquinone in the presence of NADH with production of oxygen-derived reactive species. Recent evidence strongly suggests that the clastogenic action of this compound is partially mediated by free radicals. The present review aims at summarizing past and current knowledge concerning the genotoxic effects of SN.
...
PMID:Genotoxicity of streptonigrin: a review. 1122 3
