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)
Altered sensitivity of
topoisomerase
II to anticancer drugs profoundly affects the response of eukaryotic cells to these agents. Therefore, several approaches were employed to elucidate the mechanism of
drug hypersensitivity
of the mutant yeast type II
topoisomerase
, top2H1012Y. This mutant, which is approximately 5-fold hypersensitive to ellipticine, formed DNA cleavage complexes more rapidly than the wild-type yeast enzyme in the presence of the drug. Conversely, no change in the rate of DNA religation was observed. There was, however, a correlation between increased cleavage rates and enhanced drug binding affinity. The apparent dissociation constant for ellipticine in the mutant
topoisomerase
II.drug.DNA ternary complex was approximately 5-fold lower than in the wild-type ternary complex. Furthermore, the apparent KD value for the mutant binary (
topoisomerase
II.drug) complex was approximately 2-fold lower than the corresponding wild-type complex, indicating that
drug hypersensitivity
is intrinsic to the enzyme. These findings strongly suggest that the enhanced ellipticine binding affinity for
topoisomerase
II is the mechanistic basis for
drug hypersensitivity
of top2H1012Y.
...
PMID:Increased drug affinity as the mechanistic basis for drug hypersensitivity of a mutant type II topoisomerase. 749 85
Bacteriophage T4 provides a useful model system for dissecting the mechanism of action of antitumor agents that target type II DNA topoisomerases. Many of these inhibitors act by trapping the cleavage complex, a covalent complex of enzyme and broken DNA. Previous analysis showed that a drug-resistant T4 mutant harbored two amino acid substitutions (S79F, G269V) in
topoisomerase
subunit gp52. Surprisingly, the single amino acid substitution, G269V, was shown to confer hypersensitivity in vivo to m-AMSA and oxolinic acid [Freudenreich, C. H., et al. (1998) Cancer Res. 58, 1260-1267]. We purified this G269V mutant enzyme and found it to be hypersensitive to a number of cleavage-inducing inhibitors including m-AMSA, VP-16, mitoxantrone, ellipticine, and oxolinic acid. While the mutant enzyme did not exhibit altered DNA cleavage site specificity compared to the wild-type enzyme, it did display an apparent 10-fold increase in drug-independent DNA cleavage. This suggests a novel mechanism of altered drug sensitivity in which the enzyme equilibrium has been shifted to favor the cleavage complex, resulting in an increase in the concentration of cleavage intermediates available to inhibitors. Mutations that alter drug sensitivities tend to cluster within two specific regions of all type II topoisomerases. Residue G269 of gp52 lies outside of these regions, and it is therefore not surprising that G269V leads to a unique mechanism of
drug hypersensitivity
. We believe that this mutant defines a new category of type II
topoisomerase
mutants, namely, those that are hypersensitive to all inhibitors that stabilize the cleavage complex.
...
PMID:A unique type II topoisomerase mutant that is hypersensitive to a broad range of cleavage-inducing antitumor agents. 1206 89
