| Literature DB >> 32864504 |
Kyoung Sunwoo1,2, Miae Won1,2, Kyung-Phil Ko3, Miri Choi4, Jonathan F Arambula5, Sung-Gil Chi3, Jonathan L Sessler5,6, Peter Verwilst1,7, Jong Seung Kim1.
Abstract
Tumor recurrence as a result of therapy-induced nuclear DNA lesions is a major issue in cancer treatment. Currently, only a few examples of potentially non-genotoxic drugs have been reported. Mitochondrial re-localization of ciprofloxacin, one of the most commonly prescribed synthetic antibiotics, is reported here as a new approach. Conjugating ciprofloxacin to a triphenyl phosphonium group (giving lead Mt-CFX), is used to enhance the concentration of ciprofloxacin in the mitochondria of cancer cells. The localization of Mt-CFX to the mitochondria induces oxidative damage to proteins, mtDNA, and lipids. A large bias in favor of mtDNA damage over nDNA was seen with Mt-CFX, contrary to classic cancer chemotherapeutics. Mt-CFX was found to reduce cancer growth in a xenograft mouse model and proved to be well tolerated. Mitochondrial relocalization of antibiotics could emerge as a useful approach to generating anticancer leads that promote cell death via the selective induction of mitochondrially-mediated oxidative damage.Entities:
Keywords: Ciprofloxacin; DNA damage; Mitochondria; Non-genotoxic cancer therapy; Prodrug; Reactive oxygen species; Targeted therapeutics
Year: 2020 PMID: 32864504 PMCID: PMC7454229 DOI: 10.1016/j.chempr.2020.03.004
Source DB: PubMed Journal: Chem Impact factor: 22.804