alexa Exploring DNA topoisomerases as targets of novel therapeutic agents in the treatment of infectious diseases.
Chemistry

Chemistry

Organic Chemistry: Current Research

Author(s): TseDinh YC

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Abstract DNA topoisomerases are ubiquitous enzymes needed to overcome topological problems encountered during DNA replication, transcription, recombination and maintenance of genomic stability. They have proved to be valuable targets for therapy, in part because some anti-topoisomerase agents act as poisons. Bacterial DNA gyrase and topoisomerase IV (type IIA topoisomerases) are targets of fluoroquinolones while human topoisomerase I (a type IB topoisomerase) and topoisomerase II are targets of various anticancer drugs. Bacterial type IA topoisomerase share little sequence homology to type IB or type IIA topoisomerases, but all topoisomerases have the potential of having the covalent phosphotyrosine DNA cleavage intermediate trapped by drug action. Recent studies have demonstrated that stabilization of the covalent complex formed by bacterial topoisomerase I and cleaved DNA can lead to bacterial cell death, supporting bacterial topoisomerase I as a promising target for the development of novel antibiotics. For current antibacterial therapy, the prevalence of fluoroquinolone-resistant bacterial pathogens has become a major public health concern, and efforts are directed towards identifying novel inhibitors of bacterial type IIA topoisomerases that are not affected by fluoroquinolone resistant mutations on the gyrase or topoisomerase IV genes. For anti-viral therapy, poxviruses encode their own type IB topoisomerases; these enzymes differ in drug sensitivity from human topoisomerase I. To confront potential threat of small pox as a weapon in terrorist attacks, vaccinia virus topoisomerase I has been targeted for discovery of anti-viral agents. These new developments of DNA topoisomerases as targets of novel therapeutic agents being reviewed here represent excellent opportunities for drug discovery in the treatment of infectious diseases.
This article was published in Infect Disord Drug Targets and referenced in Organic Chemistry: Current Research

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