Open AccessDNA Double-Strand Break Formation and Repair as Targets for Novel Antibiotic Combination Chemotherapy
Author(s) -
Vincent Amarh,
Patrick Kobina Arthur
Publication year - 2019
Publication title -
future science oa
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.825
H-Index - 23
ISSN - 2056-5623
DOI - 10.2144/fsoa-2019-0034
Subject(s) - antibiotics , dna repair , dna , biology , dna damage , bacteria , homologous recombination , synthetic lethality , drug resistance , drug development , sos response , drug discovery , antibiotic resistance , drug , microbiology and biotechnology , genetics , bioinformatics , pharmacology
An unrepaired DNA double-strand break (DSB) is lethal to cells. In bacteria, DSBs are usually repaired either via an error-prone pathway, which ligates the ends of the break or an accurate recombination pathway. Due to this lethality, drugs that induce persistent DSBs have been successful in bacterial infection treatment. However, recurrent usage of these drugs has led to emergence of resistant strains. Several articles have thoroughly reviewed the causes, mechanisms and effects of bacterial drug resistance while others have also discussed approaches for facilitating drug discovery and development. Here, we focus on a hypothetical chemotherapeutic strategy that can be explored for minimizing development of resistance to novel DSB-inducing compounds. We also highlight the possibility of utilizing bacterial DSB repair pathways as targets for the discovery and development of novel antibiotics.
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