Repair of Topoisomerase-Mediated DNA Damage in Bacteriophage T4

Repair of Topoisomerase-Mediated DNA Damage in Bacteriophage T4

Bradley A. Stohr^a and Kenneth N. Kreuzer^a
^a Departments of Microbiology and Biochemistry, Duke University Medical Center, Durham, North Carolina 27710

Corresponding author: Kenneth N. Kreuzer, Box 3020, Duke University Medical Center, Durham, NC 27710., kenneth.kreuzer{at}duke.edu (E-mail)

Communicating editor: R. MAURER

Type II topoisomerase inhibitors are used to treat both tumorsand bacterial infections. These inhibitors stabilize covalentDNA-topoisomerase cleavage complexes that ultimately cause lethalDNA damage. A functional recombinational repair apparatus decreasessensitivity to these drugs, suggesting that topoisomerase-mediatedDNA damage is amenable to such repair. Using a bacteriophageT4 model system, we have developed a novel in vivo plasmid-basedassay that allows physical analysis of the repair products fromone particular topoisomerase cleavage site. We show that theantitumor agent 4'-(9-acridinylamino)methanesulphon-m-anisidide(m-AMSA) stabilizes the T4 type II topoisomerase at the strongtopoisomerase cleavage site on the plasmid, thereby stimulatingrecombinational repair. The resulting m-AMSA-dependent repairproducts do not form in the absence of functional topoisomeraseand appear at lower drug concentrations with a drug-hypersensitivetopoisomerase mutant. The appearance of repair products requiresthat the plasmid contain a T4 origin of replication. Finally,genetic analyses demonstrate that repair product formation isabsolutely dependent on genes 32 and 46, largely dependent ongenes uvsX and uvsY, and only partly dependent on gene 49. Verysimilar genetic requirements are observed for repair of endonuclease-generateddouble-strand breaks, suggesting mechanistic similarity betweenthe two repair pathways.

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