1. Academic Validation
  2. Identification and mechanistic characterization of low-molecular-weight inhibitors for HuR

Identification and mechanistic characterization of low-molecular-weight inhibitors for HuR

  • Nat Chem Biol. 2007 Aug;3(8):508-15. doi: 10.1038/nchembio.2007.14.
Nicole-Claudia Meisner 1 Martin Hintersteiner Kurt Mueller Roman Bauer Jan-Marcus Seifert Hans-Ulrich Naegeli Johannes Ottl Lukas Oberer Christian Guenat Serge Moss Nathalie Harrer Maximilian Woisetschlaeger Christof Buehler Volker Uhl Manfred Auer
Affiliations

Affiliation

  • 1 Novartis Institutes for Biomedical Research, Discovery Technologies, Brunnerstr. 59, A-1235 Vienna, Austria. nicole-claudia.meisner@novartis.com
Abstract

Careful regulation of mRNA half-lives is a fundamental mechanism allowing cells to quickly respond to changing environmental conditions. The mRNA-binding Hu proteins are important for stabilization of short-lived mRNAs. Here we describe the identification and mechanistic characterization of the first low-molecular-weight inhibitors for Hu protein R (HuR) from microbial broths (Actinomyces sp.): dehydromutactin (1), MS-444 (2) and okicenone (3). These compounds interfere with HuR RNA binding, HuR trafficking, cytokine expression and T-cell activation. A mathematical and experimental analysis of the compounds' mode of action suggests that HuR homodimerizes before RNA binding and that the compounds interfere with the formation of HuR dimers. Our results demonstrate the chemical drugability of HuR; to our knowledge HuR is the first example of a drugable protein within the Hu family. MS-444, dehydromutactin and okicenone may become valuable tools for studying HuR function. An assessment of HuR inhibition as a central node in malignant processes might open up new conceptual routes toward combatting Cancer.

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