Abstract
Eukaryotic DNA topoisomerase I (Top1p) catalyzes changes in DNA topology and is the cellular target of the antitumor drug camptothecin (Cpt). Mutation of several conserved residues in yeast top1 mutants is sufficient to induce cell lethality in the absence of camptothecin. Despite tremendous differences in catalytic activity, the mutant proteins Top1T722Ap and Top1R517Gp cause cell death via a mechanism similar to that of Cpt, i.e. stabilization of the covalent enzyme-DNA intermediate. To establish the interdomainal interactions required for the catalytic activity of Top1p and how alterations in enzyme structure contribute to the cytotoxic activity of Cpt or specific DNA topoisomerase I mutants, we initiated a genetic screen for intragenic suppressors of the top1T722A-lethal phenotype. Nine single amino acid substitutions were defined that map to the conserved central and C-terminal domains of Top1p as well as the nonconserved linker domain of the protein. All reduced the catalytic activity of the enzyme over 100-fold. However, detailed biochemical analyses of three suppressors, top1C273Y,T722A, top1G295V,T722A, and top1G369D,T722A, revealed this was accomplished via a mechanism of reduced affinity for the DNA substrate. The mechanistic implications of these results are discussed in the context of the known structures of yeast and human DNA topoisomerase I.
Highlights
DNA topoisomerases catalyze changes in the winding or linkage of DNA strands via a conserved mechanism of transient DNA strand cleavage and religation
A mutational analysis of yeast Top1T722Ap was undertaken to define intragenic suppressors that abrogate the cytotoxic activity of the mutant enzyme
As a prelude to establishing the molecular interactions necessary for DNA topoisomerase I catalysis, we first addressed this question by asking what effect the Arg-517 to Gly substitution would have on Top1T722Ap function
Summary
The consequences of other mutations on enzyme function, including the top1R517G mutant, provide insight into residues that constitute the catalytic site of the enzyme [13]. Despite this wealth of biochemical and structural data, a clear picture of the domainal movements and interactions required for DNA binding and the catalytic activity of the intact enzyme remain unclear. A mutational analysis of yeast Top1T722Ap was undertaken to define intragenic suppressors that abrogate the cytotoxic activity of the mutant enzyme. The positions of the intragenic suppressors within the structure of human DNA topoisomerase I are discussed in terms of enzyme mechanism
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