Free-Radical-Mediated DNA Binding

O’Brien, Peter J.

doi:10.2307/3430012

Cited by 9 publications

(2 citation statements)

References 45 publications

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“…Although antitumor anthracycline drugs could function by noncovalent binding to DNA (Waring, 1981), it is now widely accepted that radical-mediated DNA strand breaks are important in accounting for cell death (O'Brien, 1985). The auto-oxidizable semiquinone radicals may be formed by microsomal or nuclear cytochrome P-450 reductase (Berlin and Haseltine, 1981).…”

Section: Introductionmentioning

confidence: 99%

Intercalation and Induction of Strand Breaks by Adriamycin and Daunomycin: A Study with Human Genomic DNA

Ghosh

Hossain

Saha

et al. 2012

DNA and Cell Biology

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The anticancer drugs Adriamycin (ADR) and Daunomycin (DNM) of the anthracycline family are effective in treating a variety of cancers. Although their interactions with other cellular targets may play a role in the selective cytotoxicity of these drugs, it is generally believed that intercalation with DNA is essential for their activity. However, a relationship has not yet been established between intercalation and cellular processes leading to cytotoxicity. The present study was designed to investigate the relationship, if any, between intercalation and DNA strand breaks. ADR and DNM were observed to be strong intercalators of human genomic DNA by absorption and fluorimetric methods that were further substantiated by rise in thermal melting temperature. DNM is the better intercalator of the two, which is also evident from circular dichroic spectral changes. DNA strand breaks, considered to be an index of genotoxicity, was assayed by single cell gel electrophoresis (SCGE; comet assay). ADR and DNM induced equivalent genotoxicity in normal human lymphocytes at a clinically used dose, which was observed to be independent of intercalation efficiency though positively correlated to yield of reactive oxygen species.

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Section: Introductionmentioning

confidence: 99%

Intercalation and Induction of Strand Breaks by Adriamycin and Daunomycin: A Study with Human Genomic DNA

Ghosh

Hossain

Saha

et al. 2012

DNA and Cell Biology

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“…Protection is afforded by enzymes, such as superoxide dismutase, which converts superoxide ion into hydrogen peroxide and O 2 . 19,24 Free-radical scavenger activity can be the operating mode of some anticancer drugs. 21,22 Superoxide-generating promoters and reductions in superoxide dismuturase activity lead to increased superoxide levels in transformed cells.…”

Section: B Ferrocene: a Therapeutic Role In Polymeric Systems?mentioning

confidence: 99%

Organometallic Compounds in Biomedical Applications

Carraher

Pittman

2004

Macromolecules Containing Metal and Metal‐Like Elements

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Macromolecular metal compounds in cancer research: Concepts and synthetic approaches

Neuse

1994

Macromolecular Symposia

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m:The anticancer activity of metal compounds has been a topic of major interest in drug research for two decades. Platinum compounds, in particular, including cisplatin w-diamminedichloroplatinum(1l)) and second generation derivatives, have for many years been among the leading drugs administered in clinical cancer therapy, although excessive toxicity, induction of drug resistance, and other formidable, debimental side effects continue to militate against efficacious utilization and achievement of satisfactory cure rates. Adding to the toxicity problem, most bioactive metal complexes dissolve poorly, if at all, in aqueous media, possess low stability in solution, undergo rapid depletion from central circulation, and often times are prevented from smooth cell entry by molecular charge or polarity. The concept of polymer-drug conjugation, designed to overcome the pharmacokinetic barriers to satisfactory clinical chemotherapy with present-day anticancer drugs, is finding increasing acceptance in biomedical research. The concept has been utilized in our laboratory for the purpose of enhancing the effectiveness of metal-containing carcinostatic agents. In the present communication we demonstrate the practicability of synthesizing platinum-, iron-, and tin-containing polymer conjugates that are biodegradable, dissolve completely in water, and are structurally designed so as to permit release of the active metal compound in the biological environment. Following a brief review of initial results, we discuss selected synthetic approaches and obtained conjugates, in which the metals are bound to polymer-attached ligands as dichloroplatinum(II), di-tfcyclopentadienyliron, and diorganotin(1V) moieties.

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Free-Radical-Mediated DNA Binding

Cited by 9 publications

References 45 publications

Intercalation and Induction of Strand Breaks by Adriamycin and Daunomycin: A Study with Human Genomic DNA

Intercalation and Induction of Strand Breaks by Adriamycin and Daunomycin: A Study with Human Genomic DNA

Organometallic Compounds in Biomedical Applications

Macromolecular metal compounds in cancer research: Concepts and synthetic approaches

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