Abstract
DNA-binding compounds are of extraordinary importance in medicine, accounting for a substantial portion of antitumor drugs in clinical usage. However, their mechanisms of action remain sometimes incompletely understood. This review critically examines two broad classes of molecules that bind noncovalently to DNA: intercalators and groove binders. Intercalators bind to DNA by inserting their chromophore moiety between two consecutive base pairs, whereas groove binders fit into the grooves of DNA. Noncovalent DNAinteractive drugs can recognize certain supramolecular DNA structures such as the Gquadruplexes found in telomeres and in numerous gene promoters, and they can act as topoisomerase I and II poisons. We discuss how DNA-binding compounds affect transcription and compete with protein factors for binding to consensus binding sites in gene promoters both in vitro and in cultured cancer cells. Moreover, we comment on the design of molecules that can tightly and specifically bind to any desired target DNA, such as various hairpin polyamides which efficacy as chemotherapeutic agents is being evaluated. At present, genome-wide studies, which provide details of events that may influence both cancer progression and therapeutic outcome, are a common way used to analyze the effects of DNA-binding compounds. A conclusive feature that emerges from reviewing the information on DNA-binding compounds is that both natural sources and chemical approaches can be productively used to obtain drugs to manipulate gene expression in cancer cells.
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