Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Psorospermin
is a plant natural product that shows significant in vivo activity against P388 mouse leukemia. The molecular basis for this selectivity is unknown, although psorospermin has been demonstrated to intercalate into DNA and alkylate N7 of guanine. Significantly, the alkylation reactivity of psorospermin at specific sites on DNA increased 25-fold in the presence of
topoisomerase
II. In addition, psorospermin trapped the
topoisomerase
II-cleaved complex formation at the same site. These results imply that the efficacy of psorospermin is related to its interaction with the
topoisomerase
II-DNA complex. Because thermal treatment of (N7 guanine)-DNA adducts leads to DNA strand breakage, we were able to determine the site of alkylation of psorospermin within the
topoisomerase
II gate site and infer that intercalation takes place at the gate site between base pairs at the +1 and +2 positions. These results provide not only additional mechanistic information on the mode of action of the anticancer agent psorospermin but also structural insights into the design of an additional class of
topoisomerase
II poisons. Because the alkylation site for psorospermin in the presence of
topoisomerase
II can be assigned unambiguously and the intercalation site inferred, this drug is a useful probe for other
topoisomerase
poisons where the sites for interaction are less well defined.
...
PMID:Topoisomerase II-mediated site-directed alkylation of DNA by psorospermin and its use in mapping other topoisomerase II poison binding sites. 981 34
Psorospermin
, a plant-derived antitumor agent, has been shown to selectively alkylate a guanine at the
topoisomerase
II cleavage site to trap the
topoisomerase
II-DNA cleaved complex. The results of this study provide further important insight into the mechanism of the
topoisomerase
II site-directed alkylation of DNA by psorospermin and its subsequent effects on the
topoisomerase
II-induced DNA cleavage. First, we demonstrate that the
topoisomerase
II-induced alkylation of DNA by psorospermin occurs at a time preceding the
topoisomerase
II-mediated strand cleavage event, because it occurs in the absence of Mg2+. We confirm that the alkylation of DNA by psorospermin takes place at N-7 of guanine in the presence of
topoisomerase
II, because substitution of the target guanine by 7-deazaguanine prevents alkylation. Because the stimulation of the
topoisomerase
II-induced DNA cleavage by psorospermin can be slowly reversed by the addition of excess salt, this indicates that alkylation of DNA by psorospermin traps a reversible
topoisomerase
II-DNA complex. Both the DNA alkylation by psorospermin in the presence of
topoisomerase
II and the enzyme-mediated DNA cleavage elevated by psorospermin are more enhanced at acidic pH values, in accordance with the increased stability of the
topoisomerase
II-DNA complex at acidic pH values. Finally, our results suggest that it is the psorospermin-DNA adducts, not the abasic sites resulting from depurination, that are responsible for the stimulation of the
topoisomerase
II-mediated cleavage. Because the precise location of the psorospermin within the
topoisomerase
II cleavage site is known, together with the covalent DNA linkage chemistry and the conformation of the psorospermin-DNA adduct, this structural insight provides an excellent opportunity for the design and synthesis of new, more effective
topoisomerase
II poisons.
...
PMID:Topoisomerase II site-directed alkylation of DNA by psorospermin and its effect on topoisomerase II-mediated DNA cleavage. 983 55
Psorospermin
is a natural product that has been shown to have activity against drug-resistant leukemia lines and AIDS-related lymphoma. It has also been shown to alkylate DNA through an epoxide-mediated electrophilic attack, and this alkylation is greatly enhanced at specific sites by
topoisomerase
II. In this article, we describe the synthesis of the two diastereomers of O5-methyl psorospermin and their in vitro activity against a range of solid and hematopoietic tumors. The diastereomeric pair (+/-)-(2'R,3'R) having the naturally occurring enantiomer (2'R,3'R) is the most active across all the cell lines and shows approximately equal activity in both drug-sensitive and drug-resistant cell lines. In subsequent studies using all four enantiomers of O5-methyl psorospermin, the order of biological potency is (2'R,3'R) > (2'R,3'S) = (2'S,3'R) > (2'S,3'S). This order of potency is also found in the
topoisomerase
II-induced alkylation of O5-methyl psorospermin and can be rationalized by molecular modeling of the psorospermin-duplex binding complex. Therefore, this study defines the optimum stereochemical requirements for both the
topoisomerase
II-induced alkylation of DNA and the biological activity by psorospermin and its O5-methyl derivatives. Finally, (2'R,3'R) psorospermin was found to be as effective as gemcitabine in slowing tumor growth in vivo in a MiaPaCa pancreatic cancer model. In addition, (2'R,3'R) psorospermin in combination with gemcitabine was found to show an at least additive effect in slowing tumor growth of MiaPaCa.
...
PMID:Determination of the importance of the stereochemistry of psorospermin in topoisomerase II-induced alkylation of DNA and in vitro and in vivo biological activity. 1627 94
Resistance to chemotherapy reduces its effectiveness, resulting in increased mortality.
Psorospermin
, a natural product, is a
topoisomerase
II-directed DNA alkylating agent active against multidrug-resistant (MDR) cell lines, including multiple myeloma. In this study, the mechanism of the P-glycoprotein (P-gp) modulation activity of psorospermin and that of its associated pharmacophore were examined. Flow cytometry shows that doxorubicin-resistant multiple myeloma cells (8226/D40) pretreated with psorospermin enhance intracellular retention of doxorubicin compared with control (75% versus 38%). Because the overexpression of P-gp is the primary cause of drug resistance in the 8226/D40 cells, psorospermin-induced sensitization was likely due to mdr1/P-gp expressional or functional inhibition. As shown by PCR and Western blot, neither transcription of mdr1 nor translation of P-gp was down-regulated by psorospermin treatment. Therefore, the mechanism of psorospermin-induced resistance reversal is most likely through a direct interaction between psorospermin and P-gp. Furthermore, because only the (2'R,3'R) isomer of psorospermin showed any resistance reversal activity, the side chain of psorospermin is apparently a crucial moiety for resistance reversal. By understanding the mechanism of psorospermin-induced MDR modulation, psorospermin and similar compounds can be combined with other chemotherapies to treat resistant cancers.
...
PMID:Psorospermin structural requirements for P-glycoprotein resistance reversal. 1900 43
Fused isopropylfuran and dimethylpyran units are privileged structures present in numerous bioactive natural products exemplified, in the field of anticancer drugs, by the furanoxanthone psorospermin and the pyranoacridone acronycine.
Psorospermin
binds to the N-7 position of the guanine units in the presence of
topoisomerase
II. In contrast, acronycine derivatives such as cis-1,2-diacetoxy-1,2-dihydrobenzo[b]acronycine alkylate the 2-amino group of DNA guanine residues in the minor groove. Hybrid compounds associating the acridone or benzo[b]acridone chromophore of acronycine derivatives and the epoxyfuran alkylating unit present in psorospermin also display very potent antiproliferative activities, alkylating DNA guanine units at position N-7 in the major groove, as natural xanthones belonging to the psorospermin series.
...
PMID:Antitumor psoropermum xanthones and sarcomelicope acridones: privileged structures implied in DNA alkylation. 1919 62
