IDPs are indeed attractive drug targets and there are ongoing efforts to develop drug molecules that block interactions between a disordered and a structured protein. According to this relatively recent paper, however, these efforts have not brought a drug on the market, yet.
A few promising studies have shown drug-like molecules that inhibit protein-protein interactions based on intrinsic disorder of one of the partners and target:
oncogenic fusion protein EWS-FLI1 and RNA helicase A. A small molecule has been found that targets the disordered region of EWS-FLI1, blocks the interaction with the helicase and inhibits growth of Ewing's sarcoma.
p53 tumor supressor and its interactor Mdm2. Mdm2, by binding to an intrinsically disordered region of p53, targets p53 for ubiquitination and also causes it to be transported out of the nucleus. Promising small molecules have been found that associate with Mdm2 and thereby block its interaction with p53.
c-Myc oncoprotein and the interaction with its partner Max protein. This study demonstrates two small molecules that bind to c-Myc and stabilize its disordered conformation, which inhibits its interaction with the Max protein.
The challenge in targeting protein-protein interactions for therapies stems largely from the fact, that the protein-protein contact surfaces are much larger than those involved in protein–small-molecule interactions (1,500–3,000 Å2 and (300–1,000 Å2, respectively) [2]. They are often flat and have no defined binding pocket. Also, IDPs often don't bind natural small ligands, that could act as starting points in developing drugs.
You may find this paper helpful:
Metallo SJ, Intrinsically disordered proteins are potential drug targets, Curr Opin Chem Biol. 2010 14(4): 481–488.
BTW: for a comprehensive, manually curated list of disordered proteins and regions, please check the Database of Protein Disorder.
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