Effects of anticancer drugs on transcription factor–DNA interactions
- 10 June 2005
- journal article
- review article
- Published by Taylor & Francis in Emerging Therapeutic Targets
- Vol. 9 (3), 471-489
- https://doi.org/10.1517/14728222.9.3.471
Abstract
DNA-interacting anticancer drugs are able to affect the propensity of DNA to interact with proteins through either reversible binding or covalent bond formation. The effect of the drugs on transcription factor interactions with DNA is reviewed. These effects can be classified as (i) competition between a drug and regulatory protein for target sequences; (ii) weakening of this interaction; (iii) enhancement of this interaction by chemical modification of the DNA and the creation of non-natural binding sites; and (iv) a ‘suicide’ mechanism, which is observed when a transcription factor induces changes in DNA structure, allowing a drug to bind to a target sequence. Several new strategies – the antigene approach with oligonucleotides, peptide nucleic acids or locked nucleic acids, and sequence-specific polyamides – are also reviewed.Keywords
This publication has 97 references indexed in Scilit:
- Targeting the p53–MDM2 interaction to treat cancerBritish Journal of Cancer, 2004
- Combinatorial Determination of Sequence Specificity for Nanomolar DNA-Binding Hairpin PolyamidesBiochemistry, 2003
- NF-κB in cancer: from innocent bystander to major culpritNature Reviews Cancer, 2002
- Psoralen adducts induced by triplex-forming oligonucleotides are refractory to repair in HeLa cellsJournal of Molecular Biology, 2000
- Crystal structures of the side-by-side binding of distamycin to AT-containing DNA octamers d(ICITACIC) and d(ICATATIC)Journal of Molecular Biology, 1997
- Transcription factors as drug targets in cancerEuropean Journal Of Cancer, 1996
- The Effects of DNA Covalent Adducts on in Vitro TranscriptionChemical Reviews, 1996
- Binding of Sp1 to the 21-bp repeat region of SV40 DNA: effect of intrinsic and drug-induced DNA bending between GC boxesGene, 1994
- Sequence-dependent termination of bacteriophage T7 transcription in vitro by DNA-binding drugsBiochemistry, 1989
- Inhibition of Ribonucleic Acid-Polymerase Reactions by Actinomycin and ProflavineNature, 1963