A rationally designed small molecule that inhibits the HIF-1alpha-ARNT heterodimer from binding to DNA in vivo.

Modern drug development is focused on two steps: the identification of new molecular targets and the development of drugs that affect these targets. A molecular target can be an enzymatic activity or a macromolecular interface that is important in a disease pathway. Current drugs on the market are biased toward targeting cell surface receptors and intracellular enzymatic activities. However, macromolecular interfaces can also serve as potential molecular targets. A recent paper from Kaelin and Dervan's groups examined an underused molecular target-transcription factor DNA binding. To specifically disrupt transcriptional activation, they used a rationally designed small molecule that binds specifically in the minor groove of a DNA sequence that in vivo is bound by a bHLH heterodimer transcription factor.