1. Academic Validation
  2. Control of c-myc mRNA stability by IGF2BP1-associated cytoplasmic RNPs

Control of c-myc mRNA stability by IGF2BP1-associated cytoplasmic RNPs

  • RNA. 2009 Jan;15(1):104-15. doi: 10.1261/rna.1175909.
Doreen Weidensdorfer 1 Nadine Stöhr Anne Baude Marcell Lederer Marcel Köhn Angelika Schierhorn Sabine Buchmeier Elmar Wahle Stefan Hüttelmaier
Affiliations

Affiliation

  • 1 NBL3-NWG6 ZAMED, Department of Medicine, Martin Luther University Halle-Wittenberg, 06120 Halle, Germany.
Abstract

The RNA-binding protein IGF2BP1 (IGF-II mRNA binding protein 1) stabilizes the c-Myc RNA by associating with the Coding Region instability Determinant (CRD). If and how other proteins cooperate with IGF2BP1 in promoting stabilization of the c-Myc mRNA via the CRD remained elusive. Here, we identify various RNA-binding proteins that associate with IGF2BP1 in an RNA-dependent fashion. Four of these proteins (HNRNPU, SYNCRIP, YBX1, and DHX9) were essential to ensure stabilization of the c-Myc mRNA via the CRD. These factors associate with IGF2BP1 in a CRD-dependent manner, co-distribute with IGF2BP1 in non-polysomal fractions comprising c-Myc mRNA, and colocalize with IGF2BP1 in the cytoplasm. A selective shift of relative c-Myc mRNA levels to the polysomal fraction is observed upon IGF2BP1 knockdown. These findings suggest that IGF2BP1 in complex with at least four proteins promotes CRD-mediated mRNA stabilization. Complex formation at the CRD presumably limits the transfer of c-Myc mRNA to the polysomal fraction and subsequent translation-coupled decay.

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